US2975791A - Automatic swimming pool cleaner - Google Patents

Automatic swimming pool cleaner Download PDF

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US2975791A
US2975791A US824562A US82456259A US2975791A US 2975791 A US2975791 A US 2975791A US 824562 A US824562 A US 824562A US 82456259 A US82456259 A US 82456259A US 2975791 A US2975791 A US 2975791A
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pool
conduit
pipe
tube
rotary means
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US824562A
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Andrew L Pansini
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04HBUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
    • E04H4/00Swimming or splash baths or pools
    • E04H4/14Parts, details or accessories not otherwise provided for
    • E04H4/16Parts, details or accessories not otherwise provided for specially adapted for cleaning
    • E04H4/1681Cleaning whips

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  • I invention relates, as: ihdifiated to an automatic cleaner for sv viming pools, and more particularly to-1mployed in the positioning and control portion of the cleaner illustrated in Figure 1;
  • Figure 8 is a plan view of an alternative form of the cleaner of this invention.
  • a fluid s'upply line 10 is connected to a rigid pipe 11 which is pivotally secured to the deck 12 of a pool by means ofpivot pin 13 (Fig. 2), and the pipe 11 is provided with a horizontal support pipe 14 resting against the deck 12 of the pool to prevent the pipe 11 from rotating about its
  • a flexible tie member or cord 15 is provided with one'encl'anchored to theside of the pool at 16 and the other end secured to the pipe 11 thereby limiting the travel of :pipe 11 to the angle subtended by the two positions'of pipe 11 illustrated in Figure l.
  • the movable end of pipe 11 is provided with a float 17 to support pipe 11 on the surface of the water in the pooh;
  • rigidconduit 20 is provided with a curved portion 21 which permits the conduit 20 to be supported on the surface of the pool by float 22 while the inner portion of conduit 20 is free to clear float 17 as it rotates about rotarymeans 18.
  • a flexible coupling 23 is provided at the outer end of conduit 20 and a rigid conduit 24 is connected to conduit 20 by means of flexible coupling 23.
  • the outer end of conduit 24 carries a float'25 which supports the'conduit 24 on the surface of the pool.-
  • the length of conduit 20 is less than the minimum distance between rotary means 18 and the side of the pool, and the combined length ofest approach of rotary means 18 to such point.
  • I Conduits 20 and 24 are provided with jet orifices 26 and 27, respectively, near their outer ends.
  • a flexible hose 28 Connected to conduit 20 and hanging therefrom in pendant relation is a flexible hose 28 carrying at its lower end a'.dis-' improved positioning and control means whereb y the flexible hoses in the cleaner may be movedperiodically fromplace to place in the pool in orderto eflect more efficient cleaning of the pool surfaces.
  • Figu'rel a cross: sectional view of';the apparatus of' takenuponfthelplane and infthe direction inf cl cbntain- 1 dicate d bythe linel arrows at Z -Z in Figure 3 is a more detailed fragmentary viewpfi imbp ta telemen rfi q mr m-i lus' mt i e charge nozzle 29 and provided intermediate ofuits ends witha metallic weight 30 adjustably clamped onto the side of the hose.
  • Hose 28' is of suflicient length to reach the bottem'lofthe pool, and weight'30' holds hose 28: down on" the bottom of 'the pooL.
  • a securing rod 36' is' provided axially through; the tubes- 34 and 35. and is provided with ja restrainingscrew 37;
  • fluid supply conduitll is provided with two diametrically opposedjet orificcs38 andv39 adjacent to the inner tube.
  • slot 41 is in the same radial plane as the orifices 38 and 39 and is operable upon rotation of the sleeve 40 with respect to the pipe 11 to alternately open and close the orifices 38 and 39.
  • a star wheel 42 is fixedly secured on the sleeve 40 and 8.
  • finger 43 is fixedlysecured on the outer tube 35 positioned to engage star wheel 42 when tube 35 is rotated relative to tube 34.
  • a ring having' a finger 44 is provided on the sleeve 40 between the star wheel 42 and the inner tube 34, and a ring having a short finger 45 is provided on outer tube 35 diametrically opposed to finger 43.
  • the ring elements carrying the fingers 44 and 45 are frictionally fitted onsleeve 40 and on tube 35 so as not to move relative thereto during operation of the rotary means 18, but said ring elements may be manually moved to adjust said fingers to new positions.
  • a helical spring46 is provided on pipe 11 spring biasing sleeve 40 toward inner tube 34.
  • conduits 20 and 24 causes finger 43 to rotate the star wheel 42 and sleeve 40 of rotary means 18.
  • rotation of conduits 20 and 24 will continueuntil sleeve 40 has been rotated to cover orifice 39 and uncover orifice 38 at which time the jet stream emanating from orifice 38 will cause pipe 11 and rotary means 18 to move back toward the right hand position illustrated in Figure l.
  • conduits 20 and 24 are permitted to complete one more revolution in one end of thegpool than they complete in the other end of the pool. For instance, if star wheel 42 is set so that the extra revolution of conduits 2t) and 24 will be done in the deep end of the pool, the conduits 20 and 24 will complete two and a half revolutions in the deep end of the pool for every one and a half revolutions in the shallow end of the pool.
  • conduit 24 extending from the end of conduit 20 is permitted to follow the side wall of the pool as it-rotates about rotary means 18 without interrupting the travel of conduits 20 and 24 because at any point when conduit 24 is in contact with the wall of the pool, flexible coupling 23 can bend, thus permitting conduit 24 to move along the wall of the pool unobstructed.
  • the star wheel on rotary means 18 and the mechanism associated therewith controls the movement of rotary means 18 back and forth across the pool so that the cleaning nozzles on hoses 28 and 32 can be maintained for a longer period of time in parts of the pool that are difiicult to clean than in parts of the pool that are more easily cleaned.
  • the apparatus illustrated in Figure 7 permits the delaying of the travel of conduit 20 during an arcuate portion of its rotation about rotary means 18 in order to clean more efliciently some diflicultly cleanable portion of the pool in that area.
  • the apparatus in Figure 7 includes a rigid rod 48 attached to pipe 11 by means of collar 49 and bolt 50.
  • a flexible member 51 carrying at its lower end a selectively adjustable metallic weight 52.
  • the motion of conduit 20 will be retarded as it'moves past flexible member 51 because of the frictional resistance encountered in pushing flexible member 51 and weight 52 aside.
  • the alternative form of this invention illustrated therein differs from that illustrated in Figure 1 in that the flexible hose 28 is not connected to conduit 20 but instead is connected to the middle portion of conduit 24 and'only one flexible hose 32 is provided on the outer end of conduit 24.
  • the provision of flexible hoses in these positions is often more desirable than the arrangement shown in Figure 1 in order to effect more eflicient cleaning of a pool of particular dimensions.
  • the structure illustrated in Figure 8 is also provided with a metallic weight 53 on flexible hose 32 a short distance from the topv thereof; this metallic weight 53 insures that hose 32 will remain in the water and the sinuous movement of the hose and its nozzle 33 will be controlled to effect more eflicient cleaning of the walls of the pool, and hence nozzle 33 will not leave the surface of the water to spread its fluid stream on adjacent areas.
  • the flexible cable 15 is not used to limit the path of pipe 11 but instead a collar 54 is provided on pipe 11; carrying a downwardly disposed pin 55 which contacts the wall of the pool to prevent movement-of pipe .11 outside a predetermined arc.
  • rotar'ymeans having fluid'pas'sageway means extending therethrough including a fluid discharge port, said rotary means being rotatable about a vertical axis, float means for supporting said rotary means on the surface of said pool, positioning means for limiting to a fixed distance the approach of said rotary means toward the side wall portions of said pool, a first rigid conduit extending from said discharge port and having a radial length less than said fixed distance, a second rigid conduit, the combined length or said first and second conduits substantially exceeding said fixed distance,
  • a flexible coupling connecting said first and second conduits, second float means for supporting said conduits, laterally directed jet orifice means connected to at least one of said conduits adapted to rotate said conduits about said rotary means, and aflexible hose connected to said second conduit at the end thereof remote from said first conduit and having a submergible length portion carrying a discharge nozzle.
  • the automatic cleaner or claim 1 characterized further by the provision of a second flexible hose connected to said conduits at a point intermediate of said rotary means and said first flexible hose, said second flexible hose carrying a second discharge nozzle and having a submergible length portion of suflicient length to engage the bottom of said pool.
  • said positioning means comprises a third rigid conduit pivotally connected to the side portion of said pool and connected to said rotary means and a flexible tiemernber secured to theside portion of said pool and connected at its other end to a point on said third conduit.
  • An automatic cleaner fora swimming pool comprising rotary means having fluid passagewaymeans extending therethrough including a discharge port, said rotary means being rotatable about a vertical axis, posi-' tioning means for limiting to a finite path the movement of said rotary means in said pool, all points on said path being at least a fixed distance from the Wall portionsof said pool, float means for supporting said rotary laterally directed jet orifice means connected toat least one of said conduits adapted to rotate said conduits about said rotary means, opposed jet orifices on said rotary means for propelling said rotarymeans in both directions along said path, and control means for alternately opening and closing said opposed jet orifices responsive to the number of revolutions said conduits make around said'rot-ary means.
  • said positioning means comprises a third rigid conduit pivotally connected to the side portion of said pool and connected to said rotary means and a flexible connector secured to the side portion of said pool and connected at its other end to a point on said third conduit.
  • said rotary means comprises a first tube and second tube mounted together for relative rotation about a common axis, means preventing axial separation of said tubes, a first pipe extending from said first tube, a second pipe extending generally radially from said second tube at a point thereon remote from said first tube.
  • each of said conduits a laterally directed jet orifice which, face in the same directions when said conduits are in alignment.
  • the automatic cleaner or claim 6 characterized further the provision of a second flexible hose contherein alignable alternately with said orifices by rotation of said sleeve about said pipe, a star wheel on said sleeve and a finger on said first tube positioned to engage said star -wheel upon relative rotation of said tubes.
  • the automatic cleaner of claim 12 characterized furtherby the provision of means with said control means for maintaining said slot in alignment with one of said opposed orifices for a greater period of time than with the other of said opposed orifices, said means with said control means comprising a finger carried by said sleeve between said star wheel and said second tube and a second finger carried by said first tube shorter than the distance between said first tube and said star wheel but longer than the distance between said first tube and said finger on said sleeve.
  • An automatic cleaner for a swimming pool comprising rotary means having fluid passageway means extending therethrough including a discharge port, said rotary means being rotatable about a vertical axis, positioning means for limiting to a finite path the movement of said rotary means in said pool, floatmeans for sup porting said rotary means on the surface of said pool, a rigid conduit extending generally radially from said discharge port and carrying a laterally directed jet orifice adapted to rotate said conduit around said rotary means, second float means for supporting said conduit, a flexbile hose connected to said conduit and having a submergible length portion sufficiently long to engage the bottom of said pool and carrying a discharge nozzle, opposed jet orifices on said rotary means for propelling said rotary means in both directions along said path, and control means for alternately opening and closing said opposed jet orifices responsive to the number of revolutions said conduit makes around said rotary means.
  • first pipe extending from said first tube, a second pipe extending generally radially from said second tube at a point thereon remote from said first tube.
  • said control means comprises a sleeve on said second 7 opposed orifices, said sleeve being provided with a slot therein alignable alternately with said orifices by rotaft'ion of said sleeve about said pipe, a star wheel on said sleeve and a finger on said first tube positioned to engage said star wheel upon relative rotation of said tubes.
  • the automatic cleaner of claim 16 further characterized by the provision of means with said control means for maintaining said slot in alignment with one of said opposed orifices for a greater period of time than with the other of said opposed orifices, said means a ,r 8 with said control means comprising a finger carried by said sleeve between said star wheel and said second tube and a second finger carried by said first tube shorter than the distance between said first tiibe and said star wheel but longer than the distance between said first tube and said finger on said sleeve.

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  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Cleaning In General (AREA)

Description

March 21, 1961 A. PANSINI AUTOMATIC SWIMMING POOL CLEANER 3 Sheets-Sheet 1 Filed July 2, 1959 FIG. 2
INVENTOR. ANDREW L. PANS/N/ A 7 7'O/PNE Y5 March 21, 1961 PANSINI AUTOMATIC SWIMMING POOL CLEANER s Sheets-Sheet 2 Filed July 2, 1959 mnnnn mg I INVENTOR. ANDREW L. FANS/NI A TTORNE VS March 21', 1961 Filed July 2, 1959 A. L. PANSINI AUTOMATIC SWIMMING POOL CLEANER 3 Sheets-Sheet 3 JNVENTOR. ANDREW L. PANS/N/ A r TOPNEVS Un d 2,975,191 AUTOMATIC SWIMMING roo cpEAm AndrewL.Pansini, 180'I:osiCerros Drive,
Greenbra'e Calif. f
Filed m 2, '1959, S a 2 1562" j 17 ciaim (cr;.-1s t 1:67
I invention relates, as: ihdifiated to an automatic cleaner for sv viming pools, and more particularly to-1mployed in the positioning and control portion of the cleaner illustrated in Figure 1;
Figure Sis a side elevational view partially in cross I V Figure 4 have been rotated 90 with respect to each other;
provements in the type of flautomatic swimming pool cleaner" disclosed and claimed in my co-pending application, Serial Number 734,772." filed May 12, 19.58. This application is a continuation-in-partof said copending application. H
My above-identified co-pjending' application discloses an automatic cleaner for swimming pools in which accumulated scum and dirt are cleaned from the side walls and bottom of the pool by the ,water spray issuing from aldi schargenozzle attached to "a flexible hose. "The scum and dirt .aredispersed in the water in the pool and removed therefron ifthrough the conventional pool filter ing system which is preferably usedin conjunction with the pool cleaner. Thefhos'e issupported by affloatin Figure 6 is a cross sectional view of the structure il-' lustrated in Figure 4 taken upon the plane and inthe direction of the line and the arrows at 6-6 in Figure 4; Figure 7 is a perspective view of the improved clean er employing additional control means; and
Figure 8 is a plan view of an alternative form of the cleaner of this invention.
Referring nowin detail to Figures 1 through 4, a fluid s'upply line 10 is connected to a rigid pipe 11 which is pivotally secured to the deck 12 of a pool by means ofpivot pin 13 (Fig. 2), and the pipe 11 is provided with a horizontal support pipe 14 resting against the deck 12 of the pool to prevent the pipe 11 from rotating about its A flexible tie member or cord 15 is provided with one'encl'anchored to theside of the pool at 16 and the other end secured to the pipe 11 thereby limiting the travel of :pipe 11 to the angle subtended by the two positions'of pipe 11 illustrated in Figure l. The movable end of pipe 11 is provided with a float 17 to support pipe 11 on the surface of the water in the pooh;
the pool which conveys the hose to different portionsfof r the pool. While'the automaticcleaner'disclosedin said co-pending application 'ishighly eflicient and resultsin very, thorough cleaning of the interior'surfaces of the pool, it has now been 'found that much more eflicient cleaning of 'the interior surfaces of the pool can be obta ined'byfcontrollingrnore accurately the positioning of the hose in thepooland'its transportation from point te ointinthepee1;e
Accordingly, it is the principal object of thepresent invention to provide means for automatically removing the accumulated and 'dirtfrom' the pool sides and 1:
bottom and dispersing the same in the water for handling bythepumpfilter system; j it 3 t It is a further object or this invention to provide new and improved supportmean's for the flexible hoses my automatic swinmring pool cleaner'whereby'the cleanihg no'z'zl'es on saidhoses may have more-complete accessto all porti'ons of theside walls and bottom of -the It is stilla-funther object ofthe invention to provide The free end of pipe 11 is connected to rotary means' 18 illustrated in'detail in Figures 4 through 6 and referred to in; more detail hereinafter. r The rotary meaus 18is provided with a fluid discharge port-to :Which is connected rigid conduit 20. As illus trated in Figure 3; rigidconduit 20 is provided with a curved portion 21 which permits the conduit 20 to be supported on the surface of the pool by float 22 while the inner portion of conduit 20 is free to clear float 17 as it rotates about rotarymeans 18. A flexible coupling 23 is provided at the outer end of conduit 20 and a rigid conduit 24 is connected to conduit 20 by means of flexible coupling 23. The outer end of conduit 24 carries a float'25 which supports the'conduit 24 on the surface of the pool.- The length of conduit 20 is less than the minimum distance between rotary means 18 and the side of the pool, and the combined length ofest approach of rotary means 18 to such point.
I Conduits 20 and 24 are provided with jet orifices 26 and 27, respectively, near their outer ends. Connected to conduit 20 and hanging therefrom in pendant relation isa flexible hose 28 carrying at its lower end a'.dis-' improved positioning and control means whereb y the flexible hoses in the cleaner may be movedperiodically fromplace to place in the pool in orderto eflect more efficient cleaning of the pool surfaces. 1
It is another object of this invention to so coordinate the hosesupporting means andth'e positioning and control means to obtain more eflicient cleaning of the interiorsurfaces of the pool.
-. ther objects and advantages 'of the 'present inventi onwill'become more 'apparentffromthe following d"e-'; scription read together with the attached drawings, in
'whichz Q t Fi ur ly s ap an v ewj ammin ing an improved flautomatic cleaner -o f tl1isinvention;
Figu'rel a cross: sectional view of';the apparatus of' takenuponfthelplane and infthe direction inf cl cbntain- 1 dicate d bythe linel arrows at Z -Z in Figure 3 is a more detailed fragmentary viewpfi imbp ta telemen rfi q mr m-i lus' mt i e charge nozzle 29 and provided intermediate ofuits ends witha metallic weight 30 adjustably clamped onto the side of the hose. Hose 28'is of suflicient length to reach the bottem'lofthe pool, and weight'30' holds hose 28: down on" the bottom of 'the pooL. ConnectedJto' the free end of conduit 24 is a split delivery conduit 31 to each side o-fiwhich 'is attached a flexible hose 32. which carries" at-its lower end a delivery nozzle 33; Preferably one. of the hoses 32 isshorter than the other hoseu3 2i J.Refefrringt now in: detail .to Figures 4 through= 6,.ztlie" rotary means, illustrated at 18in Figures 1 and 3, comr prises an inner tube 34 telescopically engaging an outer.
tube 35. and rigidly connected to the fluiclsupply pipe 11.. A securing rod 36'is' provided axially through; the tubes- 34 and 35. and is provided with ja restrainingscrew 37;
to prevent ajzial separation of the tubes 3dian d 35r 'lhe" fluid supply conduitll is provided with two diametrically opposedjet orificcs38 andv39 adjacent to the inner tube.
;sle ve .40; P vid d on the. p pe I over; the orifices 38 and 39 and has therein a slot 41 'wl1ichrex ends-awar g1 t a rwnte g eqgt h s nrei The slot 41 is in the same radial plane as the orifices 38 and 39 and is operable upon rotation of the sleeve 40 with respect to the pipe 11 to alternately open and close the orifices 38 and 39. A star wheel 42 is fixedly secured on the sleeve 40 and 8. finger 43 is fixedlysecured on the outer tube 35 positioned to engage star wheel 42 when tube 35 is rotated relative to tube 34. A ring having' a finger 44 is provided on the sleeve 40 between the star wheel 42 and the inner tube 34, and a ring having a short finger 45 is provided on outer tube 35 diametrically opposed to finger 43. The ring elements carrying the fingers 44 and 45 are frictionally fitted onsleeve 40 and on tube 35 so as not to move relative thereto during operation of the rotary means 18, but said ring elements may be manually moved to adjust said fingers to new positions. A helical spring46 is provided on pipe 11 spring biasing sleeve 40 toward inner tube 34.
3 When the improved swimming pool cleaner, described above, is in operation, fluid under pressure is supplied through line and proceeds through pipe 11 through the central cavity in rotary means 18, hence conduits 20 and 24, and flexible hoses 28 and 32. The water passing through these passageways issues through jet orifices 26 and 27, delivery nozzles 29 and 33, and one of the opposed jet orifices 38 and 39 depending on the position of sleeve 40, the rate of flow through each aperture depending on its diameter and the rates of flow through the remainder of the system. As'illustrated'by the arrow 47 in Figure 1, water is issuing from jet orifice 39 and the sleeve 40 is covering jet orifice 38, and therefore, as illustrated in Figure 1, the jet issuing from orifice 39 will cause pipe 11 to rotate about pin 13 until pipe 11 has moved to the dotted position indicated at 11. While this movement is progressing, the jets issuing from orifices 26 and 27 cause conduits 20 and 24 to rotate clockwise carrying with them flexible hoses 28 and 32, and during such rotation fluid emanating from nozzles 29 and 33 continuously remove dirt and scum particles fromthe bottom and sides of the pool.
The rotation of conduits 20 and 24 around rotary means 18 causes finger 43 to rotate the star wheel 42 and sleeve 40 of rotary means 18. After pipe 11 and rotary means 18 have reached the other end of the pool at 11 and 18', rotation of conduits 20 and 24 will continueuntil sleeve 40 has been rotated to cover orifice 39 and uncover orifice 38 at which time the jet stream emanating from orifice 38 will cause pipe 11 and rotary means 18 to move back toward the right hand position illustrated in Figure l.
It should be noted that with the provision of five points on star wheel 42 and the provision of finger 44 on sleeve 40 and finger 45 on tube 35, conduits 20 and 24 are permitted to complete one more revolution in one end of thegpool than they complete in the other end of the pool. For instance, if star wheel 42 is set so that the extra revolution of conduits 2t) and 24 will be done in the deep end of the pool, the conduits 20 and 24 will complete two and a half revolutions in the deep end of the pool for every one and a half revolutions in the shallow end of the pool. In this manner it is possible to eflect more eflicient cleaning of the pool by setting the star wheel in such a position that rotary means 18 and the cleaning hoses with it will remain for a longer period of time in places more diflicult to clean than in places which are cleaned more easily. Every 360 turn of the sleeve 40 .requires four rotations of tube 35. .During these four when the'rotar'y means m. not being sea in the pool, finger 43 will get out of mesh with the star wheel. To prevent finger 43 from snapping off a finger of the star wheel as it is manually moved toward mesh relation with the wheel, spring 46 is provided to permit yielding movement of sleeve 40 on conduit 11.
The provision of the flexible coupling 23 between rigid conduits 20 and 24 permits the flexible hoses 28 and 32 to clean the walls of the pool efliciently regardless of the shape of the pool. Rotary means 18 is prevented from approaching the sides of the pool by a distance equal to the length of conduit 20 because flexible cable 15 restricts the angle through which pipe 11 can move. Therefore, at no time during its rotation does conduit 20 strike the walls of the pool and hence the movement of the conduit 20 is not interrupted by contact with the wall of the pool. However, conduit 24 extending from the end of conduit 20 is permitted to follow the side wall of the pool as it-rotates about rotary means 18 without interrupting the travel of conduits 20 and 24 because at any point when conduit 24 is in contact with the wall of the pool, flexible coupling 23 can bend, thus permitting conduit 24 to move along the wall of the pool unobstructed.
As illustrated above, the star wheel on rotary means 18 and the mechanism associated therewith controls the movement of rotary means 18 back and forth across the pool so that the cleaning nozzles on hoses 28 and 32 can be maintained for a longer period of time in parts of the pool that are difiicult to clean than in parts of the pool that are more easily cleaned. Similarly, the apparatus illustrated in Figure 7 permits the delaying of the travel of conduit 20 during an arcuate portion of its rotation about rotary means 18 in order to clean more efliciently some diflicultly cleanable portion of the pool in that area. The apparatus in Figure 7 includes a rigid rod 48 attached to pipe 11 by means of collar 49 and bolt 50. Suspended from the free end of rod 48 is a flexible member 51 carrying at its lower end a selectively adjustable metallic weight 52. In operation of the automatic cleaner, the motion of conduit 20 will be retarded as it'moves past flexible member 51 because of the frictional resistance encountered in pushing flexible member 51 and weight 52 aside.
As illustrated in Figure 8, the alternative form of this invention illustrated therein differs from that illustrated in Figure 1 in that the flexible hose 28 is not connected to conduit 20 but instead is connected to the middle portion of conduit 24 and'only one flexible hose 32 is provided on the outer end of conduit 24. The provision of flexible hoses in these positions is often more desirable than the arrangement shown in Figure 1 in order to effect more eflicient cleaning of a pool of particular dimensions. It should be noted that the structure illustrated in Figure 8 is also provided with a metallic weight 53 on flexible hose 32 a short distance from the topv thereof; this metallic weight 53 insures that hose 32 will remain in the water and the sinuous movement of the hose and its nozzle 33 will be controlled to effect more eflicient cleaning of the walls of the pool, and hence nozzle 33 will not leave the surface of the water to spread its fluid stream on adjacent areas. It should also be noted that in the structure illustrated in Figure 8 the flexible cable 15 is not used to limit the path of pipe 11 but instead a collar 54 is provided on pipe 11; carrying a downwardly disposed pin 55 which contacts the wall of the pool to prevent movement-of pipe .11 outside a predetermined arc.
While a number of embodiments of the invention have been 'shown and described, it will be appreciated that the invention is subject to further modification within the p'irit of the invention and the range of equivalents to p which it is entitled.
Whatis claimed is; 7
an, ai' e i l an r f r a sw min 0 prising rotar'ymeans having fluid'pas'sageway means extending therethrough including a fluid discharge port, said rotary means being rotatable about a vertical axis, float means for supporting said rotary means on the surface of said pool, positioning means for limiting to a fixed distance the approach of said rotary means toward the side wall portions of said pool, a first rigid conduit extending from said discharge port and having a radial length less than said fixed distance, a second rigid conduit, the combined length or said first and second conduits substantially exceeding said fixed distance,
a flexible coupling connecting said first and second conduits, second float means for supporting said conduits, laterally directed jet orifice means connected to at least one of said conduits adapted to rotate said conduits about said rotary means, and aflexible hose connected to said second conduit at the end thereof remote from said first conduit and having a submergible length portion carrying a discharge nozzle.
2. The automatic cleaner or claim 1 characterized further by the provision of a second flexible hose connected to said conduits at a point intermediate of said rotary means and said first flexible hose, said second flexible hose carrying a second discharge nozzle and having a submergible length portion of suflicient length to engage the bottom of said pool.
3. The automatic cleaner of claim =1 in which said positioning means comprises a third rigid conduit pivotally connected to the side portion of said pool and connected to said rotary means and a flexible tiemernber secured to theside portion of said pool and connected at its other end to a point on said third conduit.
4. The automatic cleaner of claim 1 in which said second float means is adjacent to said flexible coupling and a third float means is provided adjacent the end of said second conduit remote from said first conduit.
5. The automatic cleaner of claim 1 in which there is a laterally directed jet orifice in each of said conduits and said jet orifices face in the same direction when said first and second conduits are in alignment.
6. An automatic cleaner fora swimming pool comprising rotary means having fluid passagewaymeans extending therethrough including a discharge port, said rotary means being rotatable about a vertical axis, posi-' tioning means for limiting to a finite path the movement of said rotary means in said pool, all points on said path being at least a fixed distance from the Wall portionsof said pool, float means for supporting said rotary laterally directed jet orifice means connected toat least one of said conduits adapted to rotate said conduits about said rotary means, opposed jet orifices on said rotary means for propelling said rotarymeans in both directions along said path, and control means for alternately opening and closing said opposed jet orifices responsive to the number of revolutions said conduits make around said'rot-ary means.
7. The automatic cleaner of claim 6 in which there rotary means and said first flexible hose, said second flexible hose carrying a second discharge nozzle and having a submergible length portion of suflicient length to engage the bottom of said pool.
10. The automatic cleaner of claim 6 in which said positioning means comprises a third rigid conduit pivotally connected to the side portion of said pool and connected to said rotary means and a flexible connector secured to the side portion of said pool and connected at its other end to a point on said third conduit.
11. The automatic cleaner of claim 6 in which said rotary means comprises a first tube and second tube mounted together for relative rotation about a common axis, means preventing axial separation of said tubes, a first pipe extending from said first tube, a second pipe extending generally radially from said second tube at a point thereon remote from said first tube.
12. The automatic cleaner of claim 11 in which said opposed jet orifices on said-rotary means are located in said second pipe and are directed in opposite directions along a line generally perpendicular to the axis of said second pipe and said axis of said tubes, and said control meanscomprisesa sleeve on said second pipe rotatable with respect thereto and overlying said opposed orifices, said sleeve being provided with a slot a submerg'ible length portion carrying a discharge nozzle,
is provided in 'each of said conduits a laterally directed jet orifice which, face in the same directions when said conduits are in alignment.
8. The automatic cleaner of claim 6' in which said second float means. is adjacent to said flexible coupling and a third float means is provided adjacent the end of said second conduit remotefrom said first conduit.
9. The automatic cleaner or claim 6 characterized further the provision of a second flexible hose contherein alignable alternately with said orifices by rotation of said sleeve about said pipe, a star wheel on said sleeve and a finger on said first tube positioned to engage said star -wheel upon relative rotation of said tubes.
13. The automatic cleaner of claim 12 characterized furtherby the provision of means with said control means for maintaining said slot in alignment with one of said opposed orifices for a greater period of time than with the other of said opposed orifices, said means with said control means comprising a finger carried by said sleeve between said star wheel and said second tube and a second finger carried by said first tube shorter than the distance between said first tube and said star wheel but longer than the distance between said first tube and said finger on said sleeve.
14. An automatic cleaner for a swimming pool comprising rotary means having fluid passageway means extending therethrough including a discharge port, said rotary means being rotatable about a vertical axis, positioning means for limiting to a finite path the movement of said rotary means in said pool, floatmeans for sup porting said rotary means on the surface of said pool, a rigid conduit extending generally radially from said discharge port and carrying a laterally directed jet orifice adapted to rotate said conduit around said rotary means, second float means for supporting said conduit, a flexbile hose connected to said conduit and having a submergible length portion sufficiently long to engage the bottom of said pool and carrying a discharge nozzle, opposed jet orifices on said rotary means for propelling said rotary means in both directions along said path, and control means for alternately opening and closing said opposed jet orifices responsive to the number of revolutions said conduit makes around said rotary means.
15. The automatic cleaner of claim 14 in which said rotary means comprises a first tube and a second tube mounted together for relative rotation about a common axis, means preventing axial separation of said tubes,.
a first pipe extending from said first tube, a second pipe extending generally radially from said second tube at a point thereon remote from said first tube.
16. The automatic cleaner of claim 15 in which said opposed jet orifices on said rotary means are located in said second pipe and are directed in opposite directions along a line generallyperpendicular to the axis of said second pipe and said axis of said tubes, and
1 said control means comprises a sleeve on said second 7 opposed orifices, said sleeve being provided with a slot therein alignable alternately with said orifices by rotaft'ion of said sleeve about said pipe, a star wheel on said sleeve and a finger on said first tube positioned to engage said star wheel upon relative rotation of said tubes. 7
17. The automatic cleaner of claim 16 further characterized by the provision of means with said control means for maintaining said slot in alignment with one of said opposed orifices for a greater period of time than with the other of said opposed orifices, said means a ,r 8 with said control means comprising a finger carried by said sleeve between said star wheel and said second tube and a second finger carried by said first tube shorter than the distance between said first tiibe and said star wheel but longer than the distance between said first tube and said finger on said sleeve.
7 References Cited in the file of patent FOREIGN PATENTS 925,208 Germany Mar. 14, 1955
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Cited By (30)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3078998A (en) * 1959-11-06 1963-02-26 Charles M Blumenfeld Swimming pool cleaner and filter
US3141909A (en) * 1962-02-12 1964-07-21 Allis Chalmers Mfg Co Turbine drive for cooling tower fan
US3146783A (en) * 1962-04-16 1964-09-01 J B Sebrell Company Automatic swimming pool cleaning apparatus
US3168896A (en) * 1963-09-09 1965-02-09 Marine Swimming Pool Equipment Cleaning device for swimming pools
US3170180A (en) * 1963-01-14 1965-02-23 Marengo Inv S Inc Swimming pool cleaning aid
US3178117A (en) * 1963-05-17 1965-04-13 Gen Motors Corp Dishwashing oscillating spray tube
US3217886A (en) * 1962-08-27 1965-11-16 Edward W Ruston Automatic swimming pool cleaner
US3219189A (en) * 1961-08-29 1965-11-23 Richard P Moore Apparatus for scum removal
US3261371A (en) * 1964-06-29 1966-07-19 James B Vernon Swimming pool cleaning system
US3265079A (en) * 1964-05-08 1966-08-09 Charles M Blumenfeld Swimming pool cleaning apparatus
US3268933A (en) * 1965-01-04 1966-08-30 Richfield Oil Corp Tank cleaning apparatus
US3295540A (en) * 1964-11-09 1967-01-03 Anthony Pools Inc Pool cleaning apparatus
US3315692A (en) * 1965-01-25 1967-04-25 Arneson Prod Inc Floating hose pool cleaner
US3392738A (en) * 1967-07-26 1968-07-16 Andrew L. Pansini Automatic cleaner for swimming pools
US3483878A (en) * 1968-04-05 1969-12-16 Anzen Prod Pool cleaning apparatus
US3598132A (en) * 1969-06-27 1971-08-10 Eldon S Miller Automatic jet-action swimming pool cleaner attachment device
US3774767A (en) * 1971-11-30 1973-11-27 B Field Skimmer trap
US3817382A (en) * 1971-08-05 1974-06-18 Arneson Prod Inc Pool cleaning device
US3921654A (en) * 1971-06-07 1975-11-25 Andrew L Pansini Automatic swimming pool cleaner
US4146406A (en) * 1977-10-25 1979-03-27 Ingram Industries, Inc. Barge tank bottom cleaner
US4346484A (en) * 1980-09-15 1982-08-31 Martin John H Swimming pool inlet location control
US4691536A (en) * 1985-08-30 1987-09-08 Precision Fukuhara Works, Ltd. Dust removing device for circular knitting machine
US4753256A (en) * 1985-11-18 1988-06-28 Alopex Industries, Inc. Pool cleaner hose
US4839063A (en) * 1984-03-12 1989-06-13 Spooner Est Cleaning of a body of liquid
US20030136096A1 (en) * 2002-01-22 2003-07-24 Kretsch Kevin R. Method and system to control weeds
US20050199409A1 (en) * 2002-11-07 2005-09-15 Henkin Melvyn L. Automatic pool cleaner power conduit including stiff sections
US20070144602A1 (en) * 2005-12-27 2007-06-28 Henkin Melvyn L Automatic pool cleaner power conduit including stiff sections and resilient axially flexible couplers
US20090172874A1 (en) * 2008-01-08 2009-07-09 James Johndro Portable main drain for a pool of water
US20100186784A1 (en) * 2007-05-29 2010-07-29 Martin Ross Device for cleaning of enclosed spaces
US11266068B2 (en) * 2019-12-02 2022-03-08 FYTO, Inc. System and method for aquatic plant harvesting

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DE925208C (en) * 1952-10-31 1955-03-14 Weinstock & Siebert Rinsing device for cleaning the inner surfaces of vessels

Cited By (38)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3078998A (en) * 1959-11-06 1963-02-26 Charles M Blumenfeld Swimming pool cleaner and filter
US3219189A (en) * 1961-08-29 1965-11-23 Richard P Moore Apparatus for scum removal
US3141909A (en) * 1962-02-12 1964-07-21 Allis Chalmers Mfg Co Turbine drive for cooling tower fan
US3146783A (en) * 1962-04-16 1964-09-01 J B Sebrell Company Automatic swimming pool cleaning apparatus
US3217886A (en) * 1962-08-27 1965-11-16 Edward W Ruston Automatic swimming pool cleaner
US3170180A (en) * 1963-01-14 1965-02-23 Marengo Inv S Inc Swimming pool cleaning aid
US3178117A (en) * 1963-05-17 1965-04-13 Gen Motors Corp Dishwashing oscillating spray tube
US3168896A (en) * 1963-09-09 1965-02-09 Marine Swimming Pool Equipment Cleaning device for swimming pools
US3265079A (en) * 1964-05-08 1966-08-09 Charles M Blumenfeld Swimming pool cleaning apparatus
US3261371A (en) * 1964-06-29 1966-07-19 James B Vernon Swimming pool cleaning system
US3295540A (en) * 1964-11-09 1967-01-03 Anthony Pools Inc Pool cleaning apparatus
US3268933A (en) * 1965-01-04 1966-08-30 Richfield Oil Corp Tank cleaning apparatus
US3315692A (en) * 1965-01-25 1967-04-25 Arneson Prod Inc Floating hose pool cleaner
US3392738A (en) * 1967-07-26 1968-07-16 Andrew L. Pansini Automatic cleaner for swimming pools
US3483878A (en) * 1968-04-05 1969-12-16 Anzen Prod Pool cleaning apparatus
US3598132A (en) * 1969-06-27 1971-08-10 Eldon S Miller Automatic jet-action swimming pool cleaner attachment device
US3921654A (en) * 1971-06-07 1975-11-25 Andrew L Pansini Automatic swimming pool cleaner
US3817382A (en) * 1971-08-05 1974-06-18 Arneson Prod Inc Pool cleaning device
US3774767A (en) * 1971-11-30 1973-11-27 B Field Skimmer trap
US4146406A (en) * 1977-10-25 1979-03-27 Ingram Industries, Inc. Barge tank bottom cleaner
US4346484A (en) * 1980-09-15 1982-08-31 Martin John H Swimming pool inlet location control
US4839063A (en) * 1984-03-12 1989-06-13 Spooner Est Cleaning of a body of liquid
US4691536A (en) * 1985-08-30 1987-09-08 Precision Fukuhara Works, Ltd. Dust removing device for circular knitting machine
US4753256A (en) * 1985-11-18 1988-06-28 Alopex Industries, Inc. Pool cleaner hose
US20060117652A1 (en) * 2002-01-22 2006-06-08 Kretsch Kevin R Method and system to control weeds
US7000372B2 (en) * 2002-01-22 2006-02-21 Lake Restoration, Inc. Method and system to control weeds
US20030136096A1 (en) * 2002-01-22 2003-07-24 Kretsch Kevin R. Method and system to control weeds
US20050199409A1 (en) * 2002-11-07 2005-09-15 Henkin Melvyn L. Automatic pool cleaner power conduit including stiff sections
US7145074B2 (en) 2002-11-07 2006-12-05 Henkin-Laby, Llc Automatic pool cleaner power conduit including stiff sections
US7786381B2 (en) 2002-11-07 2010-08-31 Henkin-Laby, Llc Automatic pool cleaner power conduit including stiff sections
WO2007075916A3 (en) * 2005-12-27 2008-01-10 Henkin Laby Llc Automatic pool cleaner power conduit including stiff sections and resilient axially flexible couplers
WO2007075916A2 (en) * 2005-12-27 2007-07-05 Henkin - Laby, Llc Automatic pool cleaner power conduit including stiff sections and resilient axially flexible couplers
US7543607B2 (en) 2005-12-27 2009-06-09 Henkin-Laby, Llc Automatic pool cleaner power conduit including stiff sections and resilient axially flexible couplers
US20070144602A1 (en) * 2005-12-27 2007-06-28 Henkin Melvyn L Automatic pool cleaner power conduit including stiff sections and resilient axially flexible couplers
US20100186784A1 (en) * 2007-05-29 2010-07-29 Martin Ross Device for cleaning of enclosed spaces
US20090172874A1 (en) * 2008-01-08 2009-07-09 James Johndro Portable main drain for a pool of water
US8001627B2 (en) 2008-01-08 2011-08-23 Johndro James J Portable main drain for a pool of water
US11266068B2 (en) * 2019-12-02 2022-03-08 FYTO, Inc. System and method for aquatic plant harvesting

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