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US3315692A - Floating hose pool cleaner - Google Patents

Floating hose pool cleaner Download PDF

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US3315692A
US3315692A US427815A US42781565A US3315692A US 3315692 A US3315692 A US 3315692A US 427815 A US427815 A US 427815A US 42781565 A US42781565 A US 42781565A US 3315692 A US3315692 A US 3315692A
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hose
head
pool
jet
floating
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US427815A
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Howard M Arneson
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Arneson Products Inc
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Arneson Products Inc
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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

Definitions

  • This invention relates to an improved swimming pool cleaner of the type employing a float with flexible hoses depending from the float in which the hoses have a liquid exhaust nozzle at their ends to cause hydraulic cleansing action.
  • a driving head which is connected by a length of floating hose to the sidewall of the pool in which a jet stream from the head is arranged to drive the head at the whiplash portion of the floating flexible hose in such a way as to cause the combination of the jet-forced drive of the head and the whiplash function of the hose to eifect movement of the head in a more or less regular pattern.
  • depending flexible jet-ended hoses are carried to positions adjacent substantially all the bottom and sidewalls of the pool.
  • a feature and advantage of this device lies in the :fact that rigid overhanging arms required in the prior art devices are eliminated together with the mechanisms that normally are afforded to cause the rigid arms to oscillate.
  • a further feature and advantage of the present invention lies in the fact that the device moves in a defined pattern but with far less regular positioning to aiford a regular pattern of movement with certain random deviations from the pattern.
  • the addition of the random deviations in combination with the more or less regular overall pattern of the movement affords a substantially greater coverage of the pool area than can be afforded by the fixed limitations of the prior art rigid supports. It can be seen that the more random pattern will cause a more uniform cleansing of the pool area whereas the more regular pattern aiforded by the prior art devices normally results in certain areas of the pool being overcleaned while other areas are less efficiently cleansed.
  • the random pattern substantially overcomes the disadvantage of the prior art devices.
  • the device of the present invention still maintains a more or less regular directional and pattern characteristic but moves in random variations within the limitations of the more general pattern of movement, thus obtaining both a regularity at generalized positioning with more or less random variations accompanying the general movement.
  • the present device is adapted to traverse along the sidewall of the pool following the pools contours during approximately 75 of the time. Thence the device, because of the whiplash function of the hose, will change directions and be diverted towards the center of the pool and thereafter return again to the sidewall which later function is approximately 25% of the working time.
  • the aforesaid travel and directional characteristics of the float head are superior to the directional patterns that can be obtained by the rigid limitations of the overhead bars employed in the prior art devices.
  • a novel hose construction which is important in controlling the directional movements of the float head which generally includes a hose construction having greater flexibility at the central portion than at the two terminal ends, so that the bend in floating hose will occur mainly in the more central portion and only to a lesser extent at the two terminal ends.
  • a further feature and advantage of the present invention lies in the fact that the flow pattern of the float head can be varied by the variation of floating hose length, hose stiffness and the jet flow velocity driving the float head. Further within the scope of this invention is the discovery of optimal length of floating hose linkages for the (float head to effectuate the more desirable float head patterns of movement.
  • Another object of this invention lies in the fact that the pattern of movement is such that by the selection of appropriate depending jet nozzle hoses, control of the jet nozzle action can be such that the vast majority of jet force streams from the depending hose will be toward the main drain of the pool, thus enhancing the efficiency of the device.
  • a still further feature of the invention includes the provision of a jet stream nozzle mounted on the float head above the Water surface which functions to provide a jet stream adapted to impinge upon the tile area above the water line and effectuate the cleaning of said tile surface during the traversing of the float head.
  • FIG. 1 is a perspective view of the head of this invention.
  • FIG. 2 is a front view of the head of this invention.
  • FIG. 3 is a cross-sectional view.
  • FIG. 4 is a plan view of a typical swimming pool with the device of the invention installed therein.
  • FIG. 5 is a cross-sectional view of a typical swimming pool of the device installed therein.
  • FIG. 6 is a sectional view of the transport hose for the device.
  • FIG. 7 is a cross-sectional view of the hose taken at line 7-7 of FIG. 6.
  • FIG. 8 is a sectional view of an alternative hose con struction.
  • FIG. 9 is a cross-sectional view of the hose of FIG. 8 taken at line 99.
  • the cleaning head of this invention comprises a head assembly generally indicated at A, comprising a pipe to which is affixed a flotation member 16.
  • the flotation member is streamlined in a conical configuration at its trailing end 17 to allow the head to be moved more readily in the water.
  • the forward end Ztl of head assembly A is provided with a depending pipe section 23 which is formed with a jet outlet 24 on its depending end. Normally, when the head assembly A is in the water, the flotation afforded by float 16 will maintain the head on the surface of the Water in such a condition that depending pipe 23 will be submerged below the water surface whereat jet 24 is positioned to emit water through the jet opening to cause a jet action.
  • a pair of cleaning hoses 29 and 30 is connected in fluid communication with the front end 2% ⁇ - of head A. Fluid communication to the depending pipe or jet leg section 23 and the two hoses 29 and 30 is afforded by a generally U-shaped pipe assembly 31 Which is integral of the front end 20 of the head and in fluid communication with the central bore 34 of pipe 15.
  • the upper end of the front end 20 is formed with a jet opening 35 positioned to normally ride above the water line, which function is to provide a jet spray for tile cleaning, as will be hereinafter described.
  • the rear end 36 of the head is connected by a coupling 37 to a floating hose assembly B the opposite end of which is connected to a deck stand 38 mounted on the sidewall of a typical swimming pool C.
  • a pump is connected to supply water to deck stand 38 and through the deck stand to hose assembly B for delivery to the two jets 24 and 35 and the two cleaning hoses 29 and 30.
  • Each of the hoses 29 and 30 is provided with output nozzles 39 and 40 which will provide a jet spray which functions to cause a whiplash at the end of the hose by virtue of the jet force afforded by the fluid flow from nozzles 39 and 46.
  • the jet flow from the nozzle thereby functions as a hydraulic cleaning force for action against the pool side and bottom walls as will hereinafter be further described.
  • the hose assembly B can in one embodiment as shown in FIGS.
  • Hose 6 and 7 comprise a central hose 42 having an accordion sheathing 43 completely surrounding the hose 42 and spaced therefrom to provide an airspace 46 in the space between the hose and the sheathing to afford flotation for the hose.
  • Hose 42 is formed of flexible material such as polyethylene, rubber and other similar type materials as are useful for construction of flexible hydraulic hoses.
  • Sheathing 43 is formed of a relatively soft material in an accordion configuration to allow for full flexibility of the sheathing.
  • Within the airspace 46 there are provided a plurality of stiffener wires 50 which are mounted to run longitudinally of the hose and which are connected to anchor rings 51 and 52.
  • Hose assembly B is functionally divided into an input end section 55, a central section 56, and an output section 57. The stiffening wires 50 are arranged only in the input section 55 and the output section 57 to render more stiffness in the aforesaid terminal end sections than in the central portion of the hose.
  • Hose assembly B is normally in the condition of operation as shown in solid lines in FIG. 4, which is in a generally C or modified L shape. As head assembly A traverses further, hose as sembly B is forced into a generally S-shaped configuration, as indicated by the broken lines in FIG. 4, whereafter the hose will cause a directional change of the head in a whiplash function.
  • the head will then traverse inwardly from the sidewalls 64- of the pool and across the center of the pool, whereinafter it will cause the hose assembly to again resume a generally C-shaped configuration with the head directed against one of the sidewalls 64 but normally facing in the opposite direction as from which the process started.
  • the sequence of operation is continued in the aforesaid pattern.
  • the pattern has been found to exhibit a predictable regularity with some substantial spacial deviations within the pattern.
  • the stiffening of the terminal ends 55 and 57 cause a greater bending of the hose to occur in the central section 56 which affords a control in the path prescribed by head A.
  • floating hose B should be in a length roughly equal to the width of the pool plus one half of the pools length.
  • the ratio between the stiffened sections 55 and 57 and the unstiffened sections 56 of hose B will depend upon the systematic patterns desired but generally each stiffened section 55 and 57 should be from about to of the hose length with the unstiffened section 56 constituting the remainder.
  • the depending jet hoses are arranged with the shorter hose 30 being at about an average of 10 feet and the longer hose being at a length as can be specifically seen in FIG. 5 to be in facing operation to main drain 70 of the pool.
  • a length of hose 29 is employed which will extend from the deepest end 71 of the pool at the water line downwardly along the pool side to a position where the jet 39 is approximately at 1 foot beyond the main drain 70.
  • the force of the jet pressure from jet 39 will cause the jet to remain at its farthest axis about 1 foot ahead or facing the main drain 70 during its various modes of movement.
  • the aforesaid dimensioning of the longer hose 29 insures that the jet blast will be directed toward the main drain and therefore not force dirt and sediment at the bottom of the pool away from the drain, but will rather force the dirt toward the drain in conditions of operation where the head is moving along a sidewall of the pool.
  • a control valve St ⁇ is provided in the depending arm 23 to control the waterflow output from jet 24.
  • a control of the aforesaid valve can regulate the systematic pattern for the device.
  • a valve can also be employed at the deck stand 38 which controls the overall flow and pressure in the system. This also has some influence on the systematic pattern of the device.
  • FIGS. 8 and 9 there is provided an alternative floating hose assembly D having a hose 82 which is divided into the same three sections 55, 56, and 57 as hose assembly B, except that the hose 82 is provided along sections 55 and 57 with a sleeve 85 formed of flexible material, but which imparts more rigidity to the sleeved area than to the unsleeved area 56. Buoyancy for the hose can be imparted by holding Styrofoam floats 88 along the length of the hose or by simply attaching buoyant floats as by tieing.
  • the head will go through a repetitive, systematic pattern due to the whiplash relationship of the combination of the hose and the jet-motivated head assembly.
  • the pattern is subject to variations during each pass which are inherent in unguided floating bodies; for example, slight changes of wind, water currents and the like can cause periodic variations in the pattern while still maintaining the same generalized systematic pattern.
  • the aforesaid variations are beneficial in providing a more random placement of the jet nozzles 39 and 40, so that eventually the entire pool is subjected to jet blasts.
  • a pool cleaner comprising a transport head, float means mounted on said head to maintain floating buoyancy therefor, a high-pressure water source located adjacent the side of said pool, a transport hose connected to said water source, a sleeve mounted over said hose formed in accordion-like cylindrical configuration of larger diameter than said hose, means creating an air-seal in the space between the inner wall of said sleeve and said hose to provide fiotational buoyancy for said hose throughout its length, said hose means mounted on a first end of said head, jet means mounted on the opposite end of said head and under the water surface to direct a water jet stream in a direction opposite said first end, and pendulant flexible non-floating hose means connected to said head in fluid communication with said transport hose means, said jet means and said hose means.
  • a pool cleaner according to claim 1 having stiffening wires extending longitudinally between said sleeve and said hose in the area immediately adjacent the connection to said source of high-pressure water and in the areas immediately adjacent said transport head and not located in the central portion of the hose, anchor means mounted within the space between said hose and said sleeve to CHARLES A. WILLMUTH, Primary Examiner.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Cleaning In General (AREA)

Description

April 25, 1967 so 3,315,692
FLOATING HOSE POOL CLEANER Filed Jan. 25, 1965 5 Sheets-Sheet 1 #L/IAWENTOR.
E55 I HOWARD M. ARNESON BY F/GZ 39 wwxwvm a Y ATTORNEYS Aprfl 25, 1967 H. M. ARNESON 3,315,692
FLOATING HOSE POOL CLEANER Filed Jan. 25, 1965 5 Sheets-Sheet 2 I -"i Iiii F/ G 4 I INVENTOR.
+5 HOWARD M. ARNE SON WWW ATTORNEYS April 1967 H. M. ARNESON 3,315,692
FLOATING HOSE r ooL CLEANER Filed Jan. 25, 1965 5 Sheets-Sheet 3 INVENTOR. HOWARD M. ARNESON W W i (mm/ma ATTORNEYS Patented Apr. 25, 1967 3,315,692 FLOATING HOSE POOL CLEANER Howard M. Arneson, San Rafael, Calil'l, assignor to Arneson Products, Inc., San Rafael, Calili, a corporation of California Filed Jan. 25, 1965, Ser. No. 427,815 2 Claims. (Cl. 134167) This invention relates to an improved swimming pool cleaner of the type employing a float with flexible hoses depending from the float in which the hoses have a liquid exhaust nozzle at their ends to cause hydraulic cleansing action.
Automatic or semi-automatic pool cleaning devices have been built such as, for example, those shown in Patent No. 2,919,027, issued Dec. 29, 1959, to C. M. Blumenfeld; Patent No. 3,032,044, issued May 1, 1962, to Andrew L. Pansini; and Patent No. 2,975,791, issued Mar. 21, 1961, to Andrew L. Pansini. Such swimming pool cleaning apparatus were shown to comprise an arm suspended generally over the pool in which a float member connected to the arm was arranged to carry a flexible hose with an output nozzle. Water flow from the nozzle caused the flexible hose to move in whip-like fashion to carry the jet spray to various areas of the pool sidewall and bottom. At the same time a mechanism was employed to move the support arm to various positions so that the hose would eventually cover the substantial portion of the pool wall and bottom area.
In the present invention there is provided a driving head which is connected by a length of floating hose to the sidewall of the pool in which a jet stream from the head is arranged to drive the head at the whiplash portion of the floating flexible hose in such a way as to cause the combination of the jet-forced drive of the head and the whiplash function of the hose to eifect movement of the head in a more or less regular pattern. By virtue of the pattern of movement afforded by the head, depending flexible jet-ended hoses are carried to positions adjacent substantially all the bottom and sidewalls of the pool.
A feature and advantage of this device lies in the :fact that rigid overhanging arms required in the prior art devices are eliminated together with the mechanisms that normally are afforded to cause the rigid arms to oscillate.
A further feature and advantage of the present invention lies in the fact that the device moves in a defined pattern but with far less regular positioning to aiford a regular pattern of movement with certain random deviations from the pattern. The addition of the random deviations in combination with the more or less regular overall pattern of the movement affords a substantially greater coverage of the pool area than can be afforded by the fixed limitations of the prior art rigid supports. It can be seen that the more random pattern will cause a more uniform cleansing of the pool area whereas the more regular pattern aiforded by the prior art devices normally results in certain areas of the pool being overcleaned while other areas are less efficiently cleansed. In the present invention the random pattern substantially overcomes the disadvantage of the prior art devices. It is to be noted, however, that the device of the present invention still maintains a more or less regular directional and pattern characteristic but moves in random variations within the limitations of the more general pattern of movement, thus obtaining both a regularity at generalized positioning with more or less random variations accompanying the general movement.
In cleaning swimming pools it has been found desirable to position the depending hoses adjacent to the sidewalls of the pool approximately 75% of the time. It is particularly desirable to cause the head carrying the depending jet hoses to move along the sidewall of the pool during the aforesaid interval. Under such conditions the depending hoses will move in whip-like fashion from the sidewall of the pool towards the center in an oscillating pattern. The action of the hose thus causes the cleansing of the sidewall and the general sweeping of the sediment towards the central area of the pool. It is further desirable to have the hoses extend towards the center approximately 25% of the time to effect more substantial cleansing of the pool bottom and to sweep sediment towards the main drain. The present device is adapted to traverse along the sidewall of the pool following the pools contours during approximately 75 of the time. Thence the device, because of the whiplash function of the hose, will change directions and be diverted towards the center of the pool and thereafter return again to the sidewall which later function is approximately 25% of the working time. The aforesaid travel and directional characteristics of the float head are superior to the directional patterns that can be obtained by the rigid limitations of the overhead bars employed in the prior art devices.
As a further object of the present invention there is provided a novel hose construction which is important in controlling the directional movements of the float head which generally includes a hose construction having greater flexibility at the central portion than at the two terminal ends, so that the bend in floating hose will occur mainly in the more central portion and only to a lesser extent at the two terminal ends. The effect of the aforesaid hose construction is to cause the more regular and controlled pattern of movement of the =float head.
A further feature and advantage of the present invention lies in the fact that the flow pattern of the float head can be varied by the variation of floating hose length, hose stiffness and the jet flow velocity driving the float head. Further within the scope of this invention is the discovery of optimal length of floating hose linkages for the (float head to effectuate the more desirable float head patterns of movement.
Another object of this invention lies in the fact that the pattern of movement is such that by the selection of appropriate depending jet nozzle hoses, control of the jet nozzle action can be such that the vast majority of jet force streams from the depending hose will be toward the main drain of the pool, thus enhancing the efficiency of the device.
A still further feature of the invention includes the provision of a jet stream nozzle mounted on the float head above the Water surface which functions to provide a jet stream adapted to impinge upon the tile area above the water line and effectuate the cleaning of said tile surface during the traversing of the float head.
These and other objects, features, and advantages will be more apparent after referring to the following specification and accompanying drawing in which:
FIG. 1 is a perspective view of the head of this invention.
FIG. 2 is a front view of the head of this invention.
FIG. 3 is a cross-sectional view.
FIG. 4 is a plan view of a typical swimming pool with the device of the invention installed therein.
FIG. 5 is a cross-sectional view of a typical swimming pool of the device installed therein.
FIG. 6 is a sectional view of the transport hose for the device.
FIG. 7 is a cross-sectional view of the hose taken at line 7-7 of FIG. 6.
FIG. 8 is a sectional view of an alternative hose con struction; and
' FIG. 9 is a cross-sectional view of the hose of FIG. 8 taken at line 99.
The cleaning head of this invention comprises a head assembly generally indicated at A, comprising a pipe to which is affixed a flotation member 16. The flotation member is streamlined in a conical configuration at its trailing end 17 to allow the head to be moved more readily in the water. The forward end Ztl of head assembly A is provided with a depending pipe section 23 which is formed with a jet outlet 24 on its depending end. Normally, when the head assembly A is in the water, the flotation afforded by float 16 will maintain the head on the surface of the Water in such a condition that depending pipe 23 will be submerged below the water surface whereat jet 24 is positioned to emit water through the jet opening to cause a jet action. A pair of cleaning hoses 29 and 30 is connected in fluid communication with the front end 2%}- of head A. Fluid communication to the depending pipe or jet leg section 23 and the two hoses 29 and 30 is afforded by a generally U-shaped pipe assembly 31 Which is integral of the front end 20 of the head and in fluid communication with the central bore 34 of pipe 15. The upper end of the front end 20 is formed with a jet opening 35 positioned to normally ride above the water line, which function is to provide a jet spray for tile cleaning, as will be hereinafter described. The rear end 36 of the head is connected by a coupling 37 to a floating hose assembly B the opposite end of which is connected to a deck stand 38 mounted on the sidewall of a typical swimming pool C. A pump is connected to supply water to deck stand 38 and through the deck stand to hose assembly B for delivery to the two jets 24 and 35 and the two cleaning hoses 29 and 30. Each of the hoses 29 and 30 is provided with output nozzles 39 and 40 which will provide a jet spray which functions to cause a whiplash at the end of the hose by virtue of the jet force afforded by the fluid flow from nozzles 39 and 46. The jet flow from the nozzle thereby functions as a hydraulic cleaning force for action against the pool side and bottom walls as will hereinafter be further described. As the hose assembly B can in one embodiment as shown in FIGS. 6 and 7 comprise a central hose 42 having an accordion sheathing 43 completely surrounding the hose 42 and spaced therefrom to provide an airspace 46 in the space between the hose and the sheathing to afford flotation for the hose. Hose 42 is formed of flexible material such as polyethylene, rubber and other similar type materials as are useful for construction of flexible hydraulic hoses. Sheathing 43 is formed of a relatively soft material in an accordion configuration to allow for full flexibility of the sheathing. Within the airspace 46 there are provided a plurality of stiffener wires 50 which are mounted to run longitudinally of the hose and which are connected to anchor rings 51 and 52. Hose assembly B is functionally divided into an input end section 55, a central section 56, and an output section 57. The stiffening wires 50 are arranged only in the input section 55 and the output section 57 to render more stiffness in the aforesaid terminal end sections than in the central portion of the hose.
As viewed in FIG. 4 it can be seen that, in operation, the water under pressure provided by pump 45 and fed through deck stand 38 will flow through the floating hose assembly B to working head A. The jet flow velocity of water from jet 24 will cause head A to move rearwardly in the direction indicated by arrow 60. The substantial quantity of water fed to head A, however, is diverted through the pipe couplings 31 to the two depending non-floating cleansing hoses 29 and 30 whereat the water is emitted from the two nozzles 39 and 40. The flow of water causes a whiplash at the terminal ends of hoses 29 and 30 which functions to both rapidly change the direction and position of the two nozzles and a high velocity water flow which functions to scrub the side and bottom walls of the pool upon impingement thereon.
The traversing of the head such as along the sidewall 64 of the pool constantly changes the supporting position of the cleansing hoses 29 and 30, so that they are traversed along the pool length. Hose assembly B is normally in the condition of operation as shown in solid lines in FIG. 4, which is in a generally C or modified L shape. As head assembly A traverses further, hose as sembly B is forced into a generally S-shaped configuration, as indicated by the broken lines in FIG. 4, whereafter the hose will cause a directional change of the head in a whiplash function. The head will then traverse inwardly from the sidewalls 64- of the pool and across the center of the pool, whereinafter it will cause the hose assembly to again resume a generally C-shaped configuration with the head directed against one of the sidewalls 64 but normally facing in the opposite direction as from which the process started. Thus, the sequence of operation is continued in the aforesaid pattern. The pattern has been found to exhibit a predictable regularity with some substantial spacial deviations within the pattern. The stiffening of the terminal ends 55 and 57 cause a greater bending of the hose to occur in the central section 56 which affords a control in the path prescribed by head A.
It has been found that floating hose B should be in a length roughly equal to the width of the pool plus one half of the pools length. The ratio between the stiffened sections 55 and 57 and the unstiffened sections 56 of hose B will depend upon the systematic patterns desired but generally each stiffened section 55 and 57 should be from about to of the hose length with the unstiffened section 56 constituting the remainder. The depending jet hoses are arranged with the shorter hose 30 being at about an average of 10 feet and the longer hose being at a length as can be specifically seen in FIG. 5 to be in facing operation to main drain 70 of the pool. To calculate the length, a length of hose 29 is employed which will extend from the deepest end 71 of the pool at the water line downwardly along the pool side to a position where the jet 39 is approximately at 1 foot beyond the main drain 70. The force of the jet pressure from jet 39 will cause the jet to remain at its farthest axis about 1 foot ahead or facing the main drain 70 during its various modes of movement. The aforesaid dimensioning of the longer hose 29 insures that the jet blast will be directed toward the main drain and therefore not force dirt and sediment at the bottom of the pool away from the drain, but will rather force the dirt toward the drain in conditions of operation where the head is moving along a sidewall of the pool.
The systematic pattern as previously stated is controlled by the amount of velocity afforded through jet 24. A control valve St} is provided in the depending arm 23 to control the waterflow output from jet 24. A control of the aforesaid valve can regulate the systematic pattern for the device. A valve can also be employed at the deck stand 38 which controls the overall flow and pressure in the system. This also has some influence on the systematic pattern of the device.
In FIGS. 8 and 9 there is provided an alternative floating hose assembly D having a hose 82 which is divided into the same three sections 55, 56, and 57 as hose assembly B, except that the hose 82 is provided along sections 55 and 57 with a sleeve 85 formed of flexible material, but which imparts more rigidity to the sleeved area than to the unsleeved area 56. Buoyancy for the hose can be imparted by holding Styrofoam floats 88 along the length of the hose or by simply attaching buoyant floats as by tieing.
It can be seen therefore in the present invention that the head will go through a repetitive, systematic pattern due to the whiplash relationship of the combination of the hose and the jet-motivated head assembly. The pattern, however, is subject to variations during each pass which are inherent in unguided floating bodies; for example, slight changes of wind, water currents and the like can cause periodic variations in the pattern while still maintaining the same generalized systematic pattern. The aforesaid variations are beneficial in providing a more random placement of the jet nozzles 39 and 40, so that eventually the entire pool is subjected to jet blasts.
While one embodiment of the invention has been shown and described it will be apparent that other adaptations and modifications may be made without departing from the true spirit and scope of the invention.
What is claimed is:
1. A pool cleaner comprising a transport head, float means mounted on said head to maintain floating buoyancy therefor, a high-pressure water source located adjacent the side of said pool, a transport hose connected to said water source, a sleeve mounted over said hose formed in accordion-like cylindrical configuration of larger diameter than said hose, means creating an air-seal in the space between the inner wall of said sleeve and said hose to provide fiotational buoyancy for said hose throughout its length, said hose means mounted on a first end of said head, jet means mounted on the opposite end of said head and under the water surface to direct a water jet stream in a direction opposite said first end, and pendulant flexible non-floating hose means connected to said head in fluid communication with said transport hose means, said jet means and said hose means.
2. A pool cleaner according to claim 1 having stiffening wires extending longitudinally between said sleeve and said hose in the area immediately adjacent the connection to said source of high-pressure water and in the areas immediately adjacent said transport head and not located in the central portion of the hose, anchor means mounted within the space between said hose and said sleeve to CHARLES A. WILLMUTH, Primary Examiner.
R. L. BLEUTGE, Assistant Examiner.

Claims (1)

1. A POOL CLEANER COMPRISING A TRANSPORT HEAD, FLOAT MEANS MOUNTED ON SAID HEAD TO MAINTAIN FLOATING BUOYANCY THEREFOR, A HIGH-PRESSURE WATER SOURCE LOCATED ADJACENT THE SIDE OF SAID POOL, A TRANSPORT HOSE CONNECTED TO SAID WATER SOURCE, A SLEEVE MOUNTED OVER SAID HOSE FORMED IN ACCORDION-LIKE CYLINDRICAL CONFIGURATION OF LARGER DIAMETER THAN SAID HOSE, MEANS CREATING AN AIR-SEAL IN THE SPACE BETWEEN THE INNER WALL OF SAID SLEEVE AND SAID HOSE TO PROVIDE FLOTATIONAL BUOYANCY FOR SAID HOSE THROUGHOUT ITS LENGTH, SAID HOSE MEANS MOUNTED ON A FIRST END OF SAID HEAD, JET MEANS MOUNTED ON THE OPPOSITE END OF SAID HEAD AND UNDER THE WATER SURFACE TO DIRECT A WATER JET STREAM IN A DIRECTION OPPOSITE SAID FIRST END, AND PENDULANT FLEXIBLE NON-FLOATING HOSE MEANS CONNECTED TO SAID HEAD IN FLUID COMMUNICATION WITH SAID TRANSPORT HOSE MEANS, SAID JET MEANS AND SAID HOSE MEANS.
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Cited By (19)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3452787A (en) * 1967-01-18 1969-07-01 Fmc Corp Offshore articulated fluid conveying apparatus
US3509584A (en) * 1967-09-18 1970-05-05 Chester A Sable Swimming pool recreational device
US3580511A (en) * 1967-12-29 1971-05-25 Hammelmann Paul Submersible cleaning gun
US3665942A (en) * 1971-11-17 1972-05-30 Marty Ross Swimming pool cleaning device
US3796373A (en) * 1971-11-17 1974-03-12 Ross M Swimming pool cleaning device
US3797508A (en) * 1971-09-16 1974-03-19 A Jacobs Portable pool cleaner
US3921654A (en) * 1971-06-07 1975-11-25 Andrew L Pansini Automatic swimming pool cleaner
US4087286A (en) * 1977-01-25 1978-05-02 Airwick Pool Products, Inc. Swimming pool cleaning device
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US6119286A (en) * 1999-06-14 2000-09-19 Briscoe; James P. Device for making bubbles in bath water
US12385272B2 (en) 2021-01-13 2025-08-12 Hayward Industries, Inc. Mobile nozzles and associated systems for cleaning pools and spas

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Cited By (19)

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US3452787A (en) * 1967-01-18 1969-07-01 Fmc Corp Offshore articulated fluid conveying apparatus
US3509584A (en) * 1967-09-18 1970-05-05 Chester A Sable Swimming pool recreational device
US3580511A (en) * 1967-12-29 1971-05-25 Hammelmann Paul Submersible cleaning gun
US3921654A (en) * 1971-06-07 1975-11-25 Andrew L Pansini Automatic swimming pool cleaner
US3797508A (en) * 1971-09-16 1974-03-19 A Jacobs Portable pool cleaner
US3665942A (en) * 1971-11-17 1972-05-30 Marty Ross Swimming pool cleaning device
US3796373A (en) * 1971-11-17 1974-03-12 Ross M Swimming pool cleaning device
US4087286A (en) * 1977-01-25 1978-05-02 Airwick Pool Products, Inc. Swimming pool cleaning device
US4429429A (en) 1981-08-12 1984-02-07 Altschul Rod H Device for cleaning swimming pool sidewall
US4523340A (en) * 1982-12-20 1985-06-18 Watkins Manufacturing Co. Means providing moving water stream ejecting into spa tank
US4626358A (en) * 1984-10-18 1986-12-02 Fetsko Francis E Liquid sweeping assembly and method
US4716604A (en) * 1985-09-18 1988-01-05 Watkins Manufacturing Co. Spa with moving jets
US5003646A (en) * 1987-04-14 1991-04-02 Hydro Air Industries, Inc. Hydrotherapy apparatus
US4899770A (en) * 1987-04-30 1990-02-13 Wilson R E Apparatus for preventing deterioration of concrete pipe
FR2739124A1 (en) * 1995-09-27 1997-03-28 Magnor Pty Limited Cleaner for swimming pools
US5797545A (en) * 1996-06-11 1998-08-25 Asinovsky; Vladimir A. Self-righting rising sprinkler head
US6119707A (en) * 1998-06-19 2000-09-19 Jordan; Ginger Octosquirt pool sweep cleaner
US6119286A (en) * 1999-06-14 2000-09-19 Briscoe; James P. Device for making bubbles in bath water
US12385272B2 (en) 2021-01-13 2025-08-12 Hayward Industries, Inc. Mobile nozzles and associated systems for cleaning pools and spas

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