AU762601B2 - Fluid flow pump - Google Patents

Fluid flow pump Download PDF

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Publication number
AU762601B2
AU762601B2 AU22682/00A AU2268200A AU762601B2 AU 762601 B2 AU762601 B2 AU 762601B2 AU 22682/00 A AU22682/00 A AU 22682/00A AU 2268200 A AU2268200 A AU 2268200A AU 762601 B2 AU762601 B2 AU 762601B2
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AU
Australia
Prior art keywords
outlet
channel
fluid flow
venturi
flow pump
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
AU22682/00A
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AU2268200A (en
Inventor
Zoltan Balint
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Zoltans Pool Products Pty Ltd
Original Assignee
Zoltans Pool Products Pty Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from AU47591/99A external-priority patent/AU714337B3/en
Application filed by Zoltans Pool Products Pty Ltd filed Critical Zoltans Pool Products Pty Ltd
Priority to AU22682/00A priority Critical patent/AU762601B2/en
Publication of AU2268200A publication Critical patent/AU2268200A/en
Application granted granted Critical
Publication of AU762601B2 publication Critical patent/AU762601B2/en
Anticipated expiration legal-status Critical
Expired legal-status Critical Current

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Description

wn n/2-765 PCT/AU99/01129 WO 01.23765 1 FLUID FLOW PUMP This invention relates to a fluid flow pump which makes use of the flow of one liquid to ensure the flow of a second liquid which second liquid may incorporate particulate matter or other material. The invention can particularly make use of a venturi fluid flow.
It is known to use venturi flow in movement of a second liquid such as shown in US 5,179,969 for removal of free standing water from a roof. However, generally such systems use a solid heavy duty metal venturi system which is connected to a flexible light weight siphon system. In this way the siphon head can be placed at the position of the pool of water on the roof and connects back by an extended pipe to the flow centre having the venturi flow means mounted fixedly on the side wall of the building to enable a suction of the water from the roof into the recovery system.
In another US patent document 4.332.044 there is shown a means of emptying a water bed by use of a siphon pump attached directly to the mattress outlet and can be secured to an integrally formed storage chamber in the mattress whereby flow through the venturi pump forms a decrease in pressure to allow outlet of the water from the water bed through an outlet tube to a drain. Such apparatus is primarily fixed or able to be fixed to this particular connection.
Clearly from the above the particular venturi system needs to be specifically made and have specific connections for the particular application. Further they are generally formed from heavy duty metal and because of their specific requirements are expensive to make and difficult to move.
Also in US 5,695,654, there is disclosed an apparatus and method for draining, cleaning and filling a fish aquarium. The venturi means has three connecting points with one connecting directly to a faucet and having an outlet feeding directly to the normal water Substitute Sheet (Rule 26) RO/AU WO01/76 n PCTIAU99/01129 outlet of the faucet and an intermediate connection point for an extended hose extending from the position of the faucet to the aquarium. For the outlet material to be collected or discarded at a different point from the normal water faucet outlet, a further connection must be made to the outlet of the venturi means. This three connection venturi system, therefore, requires specific connections for the three mounts and requires specific hoses connecting the venturi meter to the aquarium. Clearly there are limits on its use and position of use.
It is an object of the invention, to provide a fluid flow pump that is particularly versatile in its use and particularly cost effective in its form of manufacture due to its construction.
In accordance with the invention there is provided a fluid flow pump having a pump body with an input enclosed channel leading to an output enclosed channel with an interruption between the input and output channels formed by an opening fluidly connected to the exterior surrounds; the input channel having a constricting outlet at the interruption and able to feed fluid from the inlet channel to an opening of the outlet channel at the interruption: and a venturi-shaped formation made at least partially of a substantially non-eroding material and able to he connected at or near the output channel at the interruption wherein a venturi effect is formed at the interruption so that fluid flow from the inlet channel into the outlet channel draws fluid and any suspended particulate matter from outside the pump into the opening and into the outlet channel.
The fluid flow pump can have the venturi-shaped formation attached to the end of the outlet channel at the interruption, or the venturi-shaped formation could be an insert received within the end of the outlet channel at the interruption.
A fluid flow pump in accordance with the invention can have the venturi-shaped formation with an internal channel with a first frusto-conical restricting diameter portion and Substitute Sheet (Rule 26) RO/AU wnn 123765 PCT/AU99/01129 3 a second frnsto-conical enlarging diameter portion so as to provide the venturi effect. It may further have an intermediary tubular constant diameter portion between the first and second portion. In one form the venturi-shaped formation is internally shaped to provide a venturi effect when the inlet channel and the outlet channel have the same cross-sectional flow area.
The relative lengths of the first, intermediary and second portions can be approximately in the ratio 2:1:4 with the first portion having an angle of the frusto-conical shape of between 100 and 250 and preferably 180 and the second portion having an angle at the frusto-conical shape of between 2' and 8° and preferably 3".
Preferably. the fluid flow pump of the invention has the external connection inlet and outlet at the beginning of the inlet channel and end of the outlet channel respectively are able to be connected to hoses for ready supply of fluid source and removal of the fluid combining the fluid source and fluid and material drawn into the fluid flow pump. The external connection inlet and outlet can be substantially adjacent with the inlet and outlet channels substantially forming a U-shape.
The fluid flow pump can be used with domestic mains pressure water supply and able to be readily connected and disconnected to domestic garden hoses such as by snaplocks for ready suction of domestic sumps such as swimming pools, garden or garage puddles etc In one form of the invention there is provided a moulded plastic body with an internal interrupted channel connected between respective external connection inlet and outlet, able to be formed into a single integral body. with the channel being interrupted by an opening fluidly connected to the exterior surrounds: and an insert formed at least partially of a harder material than the moulded plastic body and able to be received in the channel on the exit side of the opening to form a venturi effect structure at the opening wherein a constricting outlet at the interruption of the channel is able to feed fluid from the external connection inlet into Substitute Sheet (Rule 26) RO/AU WO 01/23765 PCT/AU99/01129 4 the opening and directly across to a relatively enlarged inlet holding the insert and feeding to the continuation of the channel the insert being internally shaped such that flow along the interrupted channel and across the opening draws fluid and any suspended particulate matter from the exterior surrounds into the insert and to the external connection outlet of the channel. The moulded plastic body can be elongated and shaped and the channel constructed such that the external connection inlet and outlet are at or near a first end of the moulded plastics body and the opening forming the channel interruption is at or near the opposite end and wherein a substantial portion of the interrupted channel before and after the interruption of the channel are of similar dimensions and coextend substantially adjacently and formed integrally and wherein the insert is formed of metal.
The invention also provides a method of forming a fluid flow pump comprising the steps of: forming a pump body with enclosed inlet and outlet channels with an interruption therebetween forming a fluid connection to the exterior surrounds: forming a venturi-shaped formation from a substantially non-eroding material: connecting the venturi-shaped formation at or near the output channel at the interruption to form a venturi effect at the interruption so that fluid flow from the inlet channel into the outlet channel draws fluid and any suspended particulate material into the opening and into the outlet channel.
The method can have the step of forming inlet and outlet channels comprising moulding two parts each with one inlet groove and one outlet groove such that combining the two parts in respective alignment forms enclosed inlet and outlet channels. Also the method can have the step of connecting the venturi-shaped formation comprises forming location shapes in or adjacent the outlet grooves adjacent the interruption and locating the Substitute Sheet (Rule 26) RO/AU WO n 1/2765 PCT/AU99/0l 129 WO 01 ./23765 5 PC.A.9/.1129 venturi-shaped formation in one outlet by the location shapes prior to placing the other moulded part having the other outlet groove in relative position to form the enclosed outlet channel and at least substantially encapsulate the venturi-shaped formation. The body with ilic ileti aiid uuiei channels can be moulded from plastic and the venturi-shaped formation is made from metal able to withstand corrosive or eroding effects of fluid and material being drawn into the outlet channel.
It can be seen that the construction of the invention provides a substantial advantage in its manufacture. Instead of being a large fixed bulky construction or made from copper or brass as other venturi type pumps this can be easily constructed substantially from plastics.
Precisely shaped flow structures to provide a venturi constricting opening are extremely difficult and costly to make from plastics. As normal plastic will generally be eroded over a short time by contact with particulate matter such as sand. it is generally not feasible to make such an item from plastic. However, the apparatus of the invention is able to use harder plastics only for the insert which are able to withstand sand erosion and therefore he useable in more circumstances. The apparatus of the invention is also able to make use of metal characteristics and strength and shaping flexibility in combination with the benefits of plastics. The particular structure of the invention including the insert construction allows these advantages to be used which have not previously been able to be effectively used.
The invention in one particularly advantageous form provides a fluid flow pump further having the moulded plastic body being elongated and shaped and the channel constructed such that the external connection inlet and outlet are at or near a first end of the moulded plastics body and the opening forming the channel interruption is at or near the opposite end and wherein a substantial portion of the interrupted channel before and after the interruption of the channel coextend substantially adjacently.
Substitute Sheet (Rule 26) RO/AU wn nli1/76 PCT/AU99/01129 6 This particular structure provides the dual benefit of allowing minimal plastic use in the moulding process and a stronger structure while providing a useful structure that can have its external connections at one end connected to required hoses and allow the other end to be inserted into the pool of liquid to be transported away.
In order that the invention is more readily understood, a particular embodiment thereof will be described by way of illustrations with reference to the drawings wherein: Figure I is a front view of a fluid flow pump in accordance with a first embodiment of the invention.
Figure 2 is a side view of the fluid flow pump of Figure I.
Figure 3 is a vertical cross sectional view of preferred insert able to be used in the fluid flow pump of Figure 1.
Figure 4 is a front view of a fluid flow pump in accordance with a second embodiment of the invention.
Figure 5 is a side view of the fluid flow pump of Figure 4.
Referring to the drawings there is shown a fluid flow pump 10 having a substantially U shaped interrupted channel comprising inlet channel 17 and outlet channel 18. The fluid flow pump 10 uses the venturi effect to draw external liquid into the outlet channel 18 at an opening 35 forming an interruption in the channels 17. 18 between an external connection inlet 3 1 and an external connection outlet 33.
The fluid flow pump comprises a moulded plastic body 10 being substantially planar and elongated with the integral internal interrupted U-shaped channel 17. 18 connected between an external connection inlet 31 and outlet 32 at or near one end of the body The inlet 31 and outlet 32 both have a snap-on structure for ready connection to snap-on Substitute Sheet (Rule 26) RO/AU WO 01/23765 PCT/AU99/01129 7 structures used with domestic garden hoses or the like. The channel 17, 18 is interrupted by the opening 35 near the distal end. This allows the channel 17. 18 to be fluidly connected to the exterior surrounds. A substantial portion of the inlet channel 17 and outlet channel 18 before and after the interruption of the channel coextend substantially adjacently.
The moulded body 10 is formed by two mirror body parts 11. 12 which each have corresponding grooves such that joining the two parts in alignment the grooves form enclosed tubular channels 17, 18.
A venturi shaped formation, in the form of an insert 4 1 and made preferably of brass, is received in the channel 17. 18 during manufacture and form a venturi effect structure at the opening 35. The insert 41 has an internal shape of opposing frusto conical shapes and feeding to and expanding to the internal dimensions of the outlet channel 18.
The interruption of the channel 17. 18 begins at the end of the first continuous channel part 17 shortly after negotiating the U-shape end bend with a frusto conical shaped constricting outlet 45. The outlet 45 is able to feed liquid into the opening 35 and directly across an inlet 47 of the insert 41 at the beginning of the linear extending outlet channel 18.
In this way flow ofa liquid along the inlet channel 17 and across the opening 35 to the venturi shaped formation insert draws liquid and any suspended particulate matter from the exterior surrounds around the opening 35 into the enlarging inlet 47 and to the external connection outlet 33 of the channel.
Referring to Figure 3. there is shown a particularly preferred metal insert 41 having a constant outside circular dimension except for an enlarged placement ring 51 near one end of the metal insert 41. This placement ring 51 is sized to fit within a metal insert locating groove 44 comprising an enlargement of the outlet channel 18 and a subsequent enlargement of the external moulded structure. The metal insert 41 has a continuous internal channel Substitute Sheet (Rule 26) RO/AU WO 01/23765 PCT/AU99/01129 8 comprising three portions being a first opening portion 53 which is frusto conical in shape and has its largest opening leading from its inlet 47 leading from the opening 35 between the two pails of the channel 17, 18. The first opening portion 53 feeds into a middle portion 54 having parallei tubular sides with the same dimension as the smallest dimension of the opening portion 53 to allow smooth flow and leading to the third part being an exit portion also being frusto conical extending from the smallest dimension equal to the dimension of the middle portion 54 to a larger dimension just smaller than the internal dimension of the second channel part 18. "The relative lengths of each portion are approximately in ratio of 2:1:4 from the opening portion 53 to the middle portion 54 to the exit portion In operation the external connection inlet 31 will be connected to a main water pressure hose connection feeding water down the first channel part 17 having an outer circumference of about 18 mm and inner circumference of about 14 mm and extending around the 11-bend to a constricting outlet 43. The outlet 43 size is about 3 mm feeding water directly across the opening 35 of about 4 mm to the opening portion 53 of the insert 41 with an opening of just less than 13 mm circumference leading to the middle portion having an internal circumference of about 10 mm which feeds to the exit portion having an outlet size of about 15 mm and feeding back into the second channel part 18 having an internal circumference of about 14 mm and external dimensions of about 18 mm. The opening portion 53 has an angle of the frusto conical shape of about 180 while the exit portion 55 has an angle of about 3°.
The shaping around the external part of the constricting outlet 43 is also substantially frusto conical allowing ready access of the external liquid adjacent to the 3 mm outlet and in the opening 35 to the opening portion 53 of the metal insert 41.
Substitute Sheet (Rule 26) RO/AU WO 01/23765 PCT/AU99/01129 9 By means of the increase of speed of the flow due to the constricting outlet 43 and the enlarging diameter of the exit portion 55 of the metal insert 41 to allow a lower pressure relative to the fluid around the opening 35, the fluid and any particulate matter around the opening 35 is drawn into the metal insert 41 and into the second channel part 18 to exit the external connection outlet 33.
Referring to Figures 4 and 5 there is shown a fluid flow pump 60 substantially the same as the fluid flow pump at Figures I to 3 but with an add-on attachable venturi-shaped formation 71 rather than an insert 41. This venturi-shaped formation 71 is able to be connected to the shortened outlet channel 18 by internal or external screw thread or clip means or the like. Thereby the liquid is directed into the venturi-shaped formation from the inlet channel 17 so as to have the venturi-shaped formation in linear alignment with an outlet 43 of the inlet channel 17 and an inlet 77 of the outlet channel 18 It should be noted that the above description of the embodiments are illustrative and not restrictive of the scope of the invention which is defined by the following claims.
Substitute Sheet (Rule 26) RO/AU

Claims (13)

  1. 2. A fluid flow pump in accordance with claimi wherein the moulded plastic body is elongated and the channel shaped and constructed such that the external connection inlet and outlet are at or near a first end of the moulded plastics body and the opening forming the channel interruption is at or near an opposite end, and wherein a substantial portion of the interrupted channel before and after the interruption of the channel are of similar dimensions and coextend substantially adjacently.
  2. 3. A fluid flow pump in accordance with claim 2 wherein the moulded plastic body is formed by moulding two primary parts each with one inlet groove and one outlet groove such that joining the two parts in respective alignment forms a pump body with enclosed inlet and outlet channels, the mouldings having aligned openings in one groove forming an interruption acting as a fluid opening to the exterior surrounds and a venturi- shaped formation encapsulated at or near the output channel at the interruption to form a venturi effect at the interruption so that fluid flow from the inlet channel into the outlet AMENDED SHEET FL I /AUYY/U I I LY Received 5 September 2001 11 channel draws fluid and any suspended particulate material into the opening and into the outlet channel.
  3. 4. A fluid flow pump in accordance with claiml wherein the venturi-shaped fortion is an insert received ithin the end of the outlet channel at the inerruption and the formation has an internal channel with a first frusto-conical restricting diameter portion and a second frusto-conical enlarging diameter portion so as to provide the venturi effect.
  4. 5. A fluid flow pump in accordance with claim 4 wherein the venturi-shaped formation has an intermediary tubular constant diameter portion between the first and second portion.
  5. 6. A fluid flow pump in accordance with claim I wherein the venturi-shaped formation is internally shaped to provide a venturi effect with the inlet channel and the outlet channel have the same cross-sectional flow area.
  6. 7. A fluid flow pump in accordance with claim 5 wherein the relative lengths of the fist, intermediary and second portions are approximately in the ratio 2:1:4.
  7. 8. A fluid flow pump in accordance with claim 7 wherein the first portion has an angle of the frusto-conical shape of between 10" and 250 and preferably 180 and the second portion has an angle at the frusto-conical shape of between 20 and 8° and preferably
  8. 9. A fluid flow pump in accordance with claim 2 having external connection inlet and outlet at the beginning of the inlet channel and end of the outlet channel respectively able to be connected to hoses for ready supply of fluid source and removal of the fluid combining the fluid source and material drawn into the fluid flow pump. AMENDED SHEET IPtAUu r%_.l'.U77 V 1 1-7 Received 5 September 2001 12 A fluid flow pump in accordance with claim 2 wherein the inlet and outlet channels are substantially contiguous and connected fluidly except for the interruption by a U-shaping of the inlet or outlet channels.
  9. 11. A fluid flow pump in accordance with claim 9 wherein the external connection inlet and outlet are substantially adjacent.
  10. 12. A fluid flow pump in accordance with claim 9 wherein the external connection can be connected to domestic garden hoses such as by snaplocks for ready suction of domestic sumps such ass swimming pools, garden or garage puddles etc.
  11. 13. A method of forming a fluid flow pump comprising the steps of: moulding two primary parts each with one inlet groove and one outlet groove such that joining the two parts in respective alignment forms a pump body with enclosed inlet and outlet channels, the mouldings having aligned openings in one groove forming an interruption acting as a fluid opening to the exterior surrounds; making a venturi-shaped formation from a substantially non-eroding material; connecting the venturi-shaped formation at or near the output channel at the interruption to form a venturi effect at the interruption so that fluid flow from the inlet channel into the outlet channel draws fluid and any suspended particulate material into the opening and into the outlet channel.
  12. 14. A method in accordance with claim 13 wherein the step of connecting the venturi- shaped formations comprises forming location shapes in or adjacent the outlet grooves at or near the interruption and locating the venturi-shaped formation in one outlet by the location shapes prior to placing the other moulded part having the other outlet groove in relative position to form the enclosed outlet channel and at least substantially encapsulate the venturi-shaped formation. AMENDED SHEET IfSAAln) PCT/AU99/01 129 Received 5 September 2001 A fluid flow pump substantially as hereinbefore described with reference to the drawings.
  13. 16. A method of forming a fluid flow pump substantially as hereinbefore described refcmrence to mhe drawings. AMENDED SHEET &t'AirX
AU22682/00A 1999-09-14 1999-12-21 Fluid flow pump Expired AU762601B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AU22682/00A AU762601B2 (en) 1999-09-14 1999-12-21 Fluid flow pump

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
AU47591/99 1999-09-14
AU47591/99A AU714337B3 (en) 1999-09-14 1999-09-14 Fluid flow pump
PCT/AU1999/001129 WO2001023765A1 (en) 1999-09-14 1999-12-21 Fluid flow pump
AU22682/00A AU762601B2 (en) 1999-09-14 1999-12-21 Fluid flow pump

Publications (2)

Publication Number Publication Date
AU2268200A AU2268200A (en) 2001-04-30
AU762601B2 true AU762601B2 (en) 2003-06-26

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Family Applications (1)

Application Number Title Priority Date Filing Date
AU22682/00A Expired AU762601B2 (en) 1999-09-14 1999-12-21 Fluid flow pump

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Country Link
AU (1) AU762601B2 (en)

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SU1272012A1 (en) * 1985-06-06 1986-11-23 Институт Повышения Квалификации Руководящих Работников И Специалистов Министерства Жилищно-Коммунального Хозяйства Усср Jet-type pump for transferring pulp
US4632649A (en) * 1984-07-26 1986-12-30 Sihi Gmbh & Co. Kg Gas jet pump

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4632649A (en) * 1984-07-26 1986-12-30 Sihi Gmbh & Co. Kg Gas jet pump
SU1272012A1 (en) * 1985-06-06 1986-11-23 Институт Повышения Квалификации Руководящих Работников И Специалистов Министерства Жилищно-Коммунального Хозяйства Усср Jet-type pump for transferring pulp

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
"PUMP HANDBOOK" (KARRASIK ET AL) MC-GRAW HILL, '76 P4-8,4-12 *

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