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US3301606A - Cyclonic elevator - Google Patents

Cyclonic elevator
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US3301606A
US3301606AUS560009AUS56000966AUS3301606AUS 3301606 AUS3301606 AUS 3301606AUS 560009 AUS560009 AUS 560009AUS 56000966 AUS56000966 AUS 56000966AUS 3301606 AUS3301606 AUS 3301606A
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chamber
tube
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apertures
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Anthony I Bruno
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Jan. 31 BRUNO CYCLONIC ELEVATOR 2 Sheets-Sheet 1 Original Filed July 19, 1965 INVENTOR. ANTHONY I. BRUNO ATTORNEYS Jan. 31, 1967 A. 1. BRUNO 3,301,606
CYCLONIG ELEVATOR Original Filed July 19, 1965 v 2 Sheets-Sheet 2 INVENTOR. ANTHONY I. BRUNO M/AZ ATTORNEYS United States Patent O 3,301,606 CYCLONIC ELEVATOR Anthony I. Bruno, 1335 Phelps Ave., San Jose, Calif. 95117 Continuation of application Ser. No. 472,805, July 19, 1965. This application June 23, 1966, Ser. No. 560,009
' 6 Claims. (Cl. 302-58) This application is a continuation of application No. 472,805, filed July 19, 1965, and now abandoned.
This invention relates to a cyclonic elevator device wherein particulate material is raised by means of a rotating, pulsing air column.
The device of the present invention is primarily adapted to be used under water in which case it has a strong digging action so that it can dig into the bottom even of a fairly hard, consolidated marine formation. The device can be used to raise loose, particulate material in the absence of water such as wheat, oats, salt, dirt, gravel and the like.
Air lift devices have previously been proposed but they have not been wholly satisfactory due to their low lifting ability. Thus it is comm-on practice to provide a tube for under water use where-in air is introduced near the bottom of the tube through one or more orifices and the air in rising carries entrained water and solids with it. However, such devices are relatively inefficient and are incapable of any actual digging action or of lifting large, particulate material, and are wholly inoperative for use in the absence of 'water.
In accordance with the present invention a lifting device is provided having an extremely strong sucking action so that when used under water it will actually dig its way into a solid bottom formation. When used in the absence of water, it will lift loose particulate material and may be used in loading or other operation-s. In the drawings and in the description of the device reference will largely be made to under water use but it will be understood that this is only for ease of description.
In general, the present invention is accomplished by providing a device having a plurality of chambers, preferably three, surrounding a tube with a plurality of apertures in spiral configuration leading from the chambers into the tube. Compressed air is fed into the chambers, through the apertures and thus into the tube, the air being supplied to the chambers in a pulsating form.
In the drawings forming part of this application:
FIGURE 1 is a view, partially in section of a device embodying the present invention.
FIGURE 2 is a sectional view through the upper chamber of the device shown in FIGURE 1, said section being taken on a spiral line to intercept the centers of the several apertures.
FIGURE 3 is a similar spiral view through the second chamber of the device shown in FIGURE 1.
FIGURE 4 is a similar spiral view through the bottom chamber of the device shown in FIGURE 1.
FIGURE 5 is a developed view of the inside of the tube of FIGURE 1 showing the tube as if it were flattened out.
Referring now to the drawing by reference character, the device includes alifting tube 1 to which may be attached an upper flexible discharge tube 3. The device is shown submerged in water 5 and resting on abottom 7. The lower end oftube 1 is prefer-ably flared as at 9. Near the bottom of the tube is a series of plenum chambers formed by an outer concentric wall 11 having partitions as at 13 therein thus forming alower chamber 15, amiddle chamber 17 and atop chamber 19. Thechambers 15, 17 and 19 thus formed preferably have a relationship wherein each chamber is twice as high as the chamber immediately below it. Thus if the lower chamber has height of one unit, thesecond chamber 17 has a height of two units and the third chamber has a height of four units. Leading to the plenum chambers are theconnectors 21, 23 and 25 which lead to thechambers 15, 17 and 19 respectively. The upper ends of theconnectors 21, 23 and 25 are attached bysuitable tubes 27, 29 and 31 to avalve 33 which leads to a source of compressed air through aline 35, the source of compressed air not being illustrated. Valve 33 has arotor 37 therein driven byshaft 39 so that air is supplied to each of the.
lines 27, 29 and 31, and thus to theplenum chambers 15, 17 and 19, in succession.
In each of thechambers 15, 17 and 19 is a series of apertures leading from the chamber into the tube. 'In each of the chambers the apertures start at the bottom and form a spiral to the top of the particular chamber over one complete revolution. Since the chambers increase successively in height, the angle or lead of the spiral increases as one goes up the tube. Furthermore, the aperture at the very bottom of the tube as at 21 is almost tangential to the tube and has a very slight upward slope. At the end of the spiral for thatchamber aperture 45 has less of a tangential angle and more of a slope upwardly as can be seen by reference to FIG- URES 4 and 5. Similarly, the lowest aperture inchamber 17, namely 45, has more of a tangential component and less of an upward component than the last aperture in thisspiral 47. It will be seen that the same relationship prevails in theupper chamber 19 where thelowest aperture 49 continues this upward trend so that thelast aperture 51 in this series lies almost straight upwardly with only a slightly tangential component.
In addition to the difference in angles of the various apertures it will also be noted that the apertures differ in size and the height relationship of the chambers is also maintained in the apertures in the same 1, 2, 4 order. Thus, in one specific embodiment of the invention, the apertures in the lowermost chamber have a diameter inch, in the second chamber inch and in the uppermost chamber inch. The angle of the slope of the bottom chambers goes from almost zero to 30, inthe second chamber to about 45 and in the upper chamber to about or In order to secure maximum efiiciency and lift, it is preferred that the total area of the apertures leading from any chamber into the tubes be smaller than the area of thepipes 21, 23 and 25 leading into that particular chamber.
In operation, air is supplied through theline 35 at a suitable pressure and therotor 37 of the valve is rotated so that the chambers are successively supplied with compressed air. Preferably the pulsing is done at relatively high rate and it has been found thatif the pulsing is done so that each chamber is supplied with air from about every /5 to about every of a second satisfactory results will be obtained. Pulsing the chambers in this way, a swirling action is produced within thetube 1 as is diagrarnatically shown by the dotted line of FIGURE 1. Thus at the very bottom of the tube the material will be given very little lift but will be given a rapid swirling motion and as it rises through the tube, there will be less of the swirling component and more of the rising component, forming a cyclonic or whirlpool action within the tube which exerts a strong sucking force. When used in water this force is strong enough to not only raise large rocks and loose material but actually to cause the device to dig in to hard, consolidated formations under water. When used out of water, there is less of a digging action but the device is still highly useful and has many applications for handling loose, particulate material such as in loading grain or salt.
Although a preferred specific embodiment of the invention has been illustrated, it will be understood that many departures can be made from the exact structure shown without departing from the spirit of this invention. Thus, although it is preferable to use three chambers, some action can be obtained from only two chambers and the number of chambers can be increased beyond three although the eifect is not ordinarily increased porportionately. Although the exact relationship of 1, 2, and 4 in the height of the chambers and the size of the apertures has been found to be preferable, substantial departures can be made from these exact ratios and still have an operative device. Further, although the apertures have been shown as forming a complete 360 spiral within each chamber, it is not necessary that a complete spiral be made within each chamber, it only being important that each chamber be a continuation of the spiral of the chamber immediately below it. Thus, within any one chamber one might have a spiral of more or less than 360.
It will be apparent that the device has many applications other than those specifically listed and that it is ideal for dregding, mining or loading operations either above or below water. The device is rugged and little subject to wear and it is easily transportable even into remote areas.
Although only one specific form of valve mechanism has been shown for successively supplying air to the several chambers, it will be obvious to those skilled in the art that other forms of valve mechanism can be substituted.
Many departures can be made from the exact structure shown without departing from the spirit of this invention.
I claim:
1. An air lift device comprising in combination:
(a) a tube for lifting material,
(b) at least one chamber surrounding the tube adjacent one end thereof,
() a plurality of passages leading from the chamber .4 to the interior of the tube and arranged about the tube in a spiral pattern, and
(d) means for supplying compressed air to said chamber and through said passages to said tube to impart a swirling motion to the material being lifted through the tube.
2. The combination according toclaim 1, wherein a plurality of chambers are provided, each chamber starting with the lowermost chamber having a height less than the chamber next above.
'3. The combination according to claim 2, wherein the spiral pattern of the passages in the lowermost chamber is continued in the chambers next above with the pitch of the spiral increasing in successive chambers.
4. The combination according to claim 3, wherein the passages near the bottom of the tube are substantially tangential to the tube and successive passages have a greater upward slant and less of a tangential component.
5. The combination according toclaim 1, wherein said means for supplying compressed air supplies compressed air in pulses.
6. The combination according to claim 2, wherein said means for supplying compressed air supplies compressed air to each of the chambers successively.
References Cited by the Examiner UNITED STATES PATENTS 1,039,958 10/1912, Kimball 30224 1,232,393 7/1917 Piper 30225 1,314,539 9/1919 Rust 103232 1,465,269 8/1923 Horn et -al. 30224 2,794,686 6/1957 Anselman et al. 30224 ANDRES H. NIELSEN, Primary Examiner. EVON C. BLUNK, Examiner. A

Claims (1)

1. AN AIR LIFT DEVICE COMPRISING IN COMBINATION: (A) A TUBE FOR LIFTING MATERIAL, (B) AT LEAST ONE CHAMBER SURROUNDING THE TUBE ADJACENT ONE END THEREOF, (C) A PLURALITY OF PASSAGES LEADING FROM THE CHAMBER TO THE INTERIOR OF THE TUBE AND ARRANGED ABOUT THE TUBE IN A SPIRAL PATTERN, AND (D) MEANS FOR SUPPLYING COMPRESSED AIR TO SAID CHAMBER AND THROUGH SAID PASSAGES TO SAID TUBE TO IMPART
US560009A1966-06-231966-06-23Cyclonic elevatorExpired - LifetimeUS3301606A (en)

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Cited By (45)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3444575A (en)*1967-05-021969-05-20Louis A Dore JrPool cleaner
US3444584A (en)*1966-07-111969-05-20Philip J CoteAir ejector type device
FR2096630A1 (en)*1970-01-051972-02-25Commissariat Energie Atomique
US3673716A (en)*1968-12-201972-07-04Alois TrondleCompressed air operated apparatus for raising underwater deposits
US3756659A (en)*1967-10-161973-09-04SpanstaalSuction dredging installation
US3763580A (en)*1970-12-101973-10-09Global Marine IncApparatus for dredging in deep ocean
US3857651A (en)*1971-06-231974-12-31A BrunoPumping units for cyclonic elevator
US3969834A (en)*1973-08-141976-07-20Viktor Georgievich GeierAirlift
DE2541439A1 (en)*1975-09-171977-04-21Specializirovannyj Trest ProizEjector pump with mixing chamber - has injector ducts in two planes and inclined to produce eddy and downstream injection stage
US4101246A (en)*1974-11-261978-07-18Kobe, Inc.Vortex jet pump
US4227863A (en)*1978-09-181980-10-14Raymond SommererCentrifugal aspirator
US4240173A (en)*1979-07-131980-12-23Sherrill John CPool vacuum
USD260094S (en)1979-01-081981-08-04Watkins Manufacturing CompanyVacuum cleaner for spas or the like
US4776731A (en)*1986-11-261988-10-11Briggs Technology, Inc.Method and apparatus for conveying solids using a high velocity vacuum
WO1988008470A1 (en)*1987-04-281988-11-03Johann WinterPneumatic extraction head
US5195850A (en)*1991-09-091993-03-23Carolina Power & Light CompanyApparatus and method for transporting buoyant particulate matter such as ice to a submerged location in a fluid
US5201877A (en)*1992-04-241993-04-13Arkadi RelinSuction transporting device
US5212891A (en)*1991-01-251993-05-25The Charles Machine Works, Inc.Soft excavator
US5647691A (en)*1994-11-141997-07-15Wirth; John C.J.Method and apparatus for transferring mud and silt
US6053667A (en)*1997-12-122000-04-25Mitsui High-Tec Inc.Carrying apparatus for spherical objects
US6203249B1 (en)*1998-09-292001-03-20Mitsui High-Tec Inc.Particulate objects conveying apparatus for conveying particles of a predetermined size
US6352393B1 (en)*1997-12-052002-03-05Thames Water Utilities LimitedApparatus for transporting loosened particulate material using fluid under pressure
US6461086B1 (en)*2000-11-282002-10-08Kimberly-Clark Worldwide, Inc.Method and apparatus for delivering particulate material to an air stream
US6477734B1 (en)*1998-05-262002-11-12Maschinenfabrik Rieter AgDirt removal system for a textile machine
US6517287B2 (en)*2000-10-032003-02-11The United States Of America As Represented By The Secretary Of The NavyMethod for removing contaminants from dredge material in an underwater environment
US6777650B1 (en)*2000-02-042004-08-17Saint-Gobtain Industrial Ceramics, Inc.Igniter shields
US20040265071A1 (en)*2003-06-272004-12-30Brandt Industries Ltd.Intake nozzle for vacuum conveyor
WO2007017737A1 (en)*2005-08-082007-02-15Ian HardingTransportation of particulate material
US20080110804A1 (en)*2006-11-102008-05-15Veltri Fred JSlurry transfer line
WO2008120999A3 (en)*2007-03-302009-01-22Genesis Applied Technology AsPower lift generator
US7591088B1 (en)*2008-04-282009-09-22Schuh Allen JSuction dredge system and method
US20090324429A1 (en)*2008-06-302009-12-31Philip AzimovStatic fluid mixing pump device
FR2941719A1 (en)*2009-02-042010-08-06Paul FarencRubble aspiring apparatus for e.g. pit, has venturi effect nozzle for ensuring aspiration of rubble, and another venturi effect tube for ensuring continuity of aspiration and for intensifying depression allowing rejection
ITBO20090131A1 (en)*2009-03-062010-09-07Antonio Corradi SUCTION MACHINE WITH LARGE POWER
WO2010143982A1 (en)*2009-06-112010-12-16Joseph Michael GoodinImprovements in and relating to dredging apparatus
US8056636B1 (en)*2008-03-032011-11-15LP Chemical Service LLCJet pump with foam generator
WO2012088340A2 (en)2010-12-232012-06-28Vlachos Greg JCyclonic elevator and method for using same
US8956533B2 (en)2011-10-032015-02-17Pentair Water Pool And Spa, Inc.Pool cleaner with multi-stage venturi vacuum assembly
US8985965B2 (en)*2010-12-232015-03-24Greg J. VlachosCyclonic elevator and method for using same
US8990990B2 (en)2011-10-032015-03-31Pentair Water Pool And Spa, Inc.Pool cleaner with hydraulic timer assembly
US9119463B2 (en)2011-10-032015-09-01Pentair Water Pool & Spa, Inc.Pool cleaner with detachable scrubber assembly
JP2016108774A (en)*2014-12-032016-06-20三井造船株式会社Gas-hydrate recovery system, and recovery method thereof
US9868595B1 (en)*2013-05-202018-01-16James A. ScruggsVortex effect production device and method of improved transport of materials through a tube, pipe, and/or cylinder structure
US9874196B2 (en)2013-03-132018-01-23Pentair Water Pool And Spa, Inc.Double paddle mechanism for pool cleaner
US11174111B2 (en)*2017-11-082021-11-16Jm Technologies LlcApparatus and system for transferring materials and corresponding method of use thereof

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US1039958A (en)*1911-11-091912-10-01Frank J KimballAir-lift.
US1232393A (en)*1916-12-191917-07-03John S PiperAir lift-pump.
US1314539A (en)*1919-09-02Aib-lift pump
US1465269A (en)*1922-02-251923-08-21Robert W P HornMethod of and system for conveying
US2794686A (en)*1955-10-311957-06-04Whirl Air Flow CorpAir flow conveying system

Patent Citations (5)

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US1314539A (en)*1919-09-02Aib-lift pump
US1039958A (en)*1911-11-091912-10-01Frank J KimballAir-lift.
US1232393A (en)*1916-12-191917-07-03John S PiperAir lift-pump.
US1465269A (en)*1922-02-251923-08-21Robert W P HornMethod of and system for conveying
US2794686A (en)*1955-10-311957-06-04Whirl Air Flow CorpAir flow conveying system

Cited By (62)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3444584A (en)*1966-07-111969-05-20Philip J CoteAir ejector type device
US3444575A (en)*1967-05-021969-05-20Louis A Dore JrPool cleaner
US3756659A (en)*1967-10-161973-09-04SpanstaalSuction dredging installation
US3673716A (en)*1968-12-201972-07-04Alois TrondleCompressed air operated apparatus for raising underwater deposits
FR2096630A1 (en)*1970-01-051972-02-25Commissariat Energie Atomique
US3763580A (en)*1970-12-101973-10-09Global Marine IncApparatus for dredging in deep ocean
US3857651A (en)*1971-06-231974-12-31A BrunoPumping units for cyclonic elevator
US3969834A (en)*1973-08-141976-07-20Viktor Georgievich GeierAirlift
US4101246A (en)*1974-11-261978-07-18Kobe, Inc.Vortex jet pump
DE2541439A1 (en)*1975-09-171977-04-21Specializirovannyj Trest ProizEjector pump with mixing chamber - has injector ducts in two planes and inclined to produce eddy and downstream injection stage
US4227863A (en)*1978-09-181980-10-14Raymond SommererCentrifugal aspirator
USD260094S (en)1979-01-081981-08-04Watkins Manufacturing CompanyVacuum cleaner for spas or the like
US4240173A (en)*1979-07-131980-12-23Sherrill John CPool vacuum
US4776731A (en)*1986-11-261988-10-11Briggs Technology, Inc.Method and apparatus for conveying solids using a high velocity vacuum
WO1988008470A1 (en)*1987-04-281988-11-03Johann WinterPneumatic extraction head
US4995175A (en)*1987-04-281991-02-26Johann WinterPneumatic extraction head
US5212891A (en)*1991-01-251993-05-25The Charles Machine Works, Inc.Soft excavator
US5361855A (en)*1991-01-251994-11-08The Charles Machines Works, Inc.Method and casing for excavating a borehole
US5195850A (en)*1991-09-091993-03-23Carolina Power & Light CompanyApparatus and method for transporting buoyant particulate matter such as ice to a submerged location in a fluid
US5201877A (en)*1992-04-241993-04-13Arkadi RelinSuction transporting device
US5647691A (en)*1994-11-141997-07-15Wirth; John C.J.Method and apparatus for transferring mud and silt
US6352393B1 (en)*1997-12-052002-03-05Thames Water Utilities LimitedApparatus for transporting loosened particulate material using fluid under pressure
US6053667A (en)*1997-12-122000-04-25Mitsui High-Tec Inc.Carrying apparatus for spherical objects
US6477734B1 (en)*1998-05-262002-11-12Maschinenfabrik Rieter AgDirt removal system for a textile machine
US6203249B1 (en)*1998-09-292001-03-20Mitsui High-Tec Inc.Particulate objects conveying apparatus for conveying particles of a predetermined size
US6325571B1 (en)1998-09-292001-12-04Mitsui High-Tec Inc.Particulate object conveying apparatus
US6777650B1 (en)*2000-02-042004-08-17Saint-Gobtain Industrial Ceramics, Inc.Igniter shields
US6517287B2 (en)*2000-10-032003-02-11The United States Of America As Represented By The Secretary Of The NavyMethod for removing contaminants from dredge material in an underwater environment
US6461086B1 (en)*2000-11-282002-10-08Kimberly-Clark Worldwide, Inc.Method and apparatus for delivering particulate material to an air stream
US6979152B2 (en)*2003-06-272005-12-27Brandt Industries Ltd.Intake nozzle for vacuum conveyor
US20040265071A1 (en)*2003-06-272004-12-30Brandt Industries Ltd.Intake nozzle for vacuum conveyor
WO2007017737A1 (en)*2005-08-082007-02-15Ian HardingTransportation of particulate material
US20080110804A1 (en)*2006-11-102008-05-15Veltri Fred JSlurry transfer line
WO2008120999A3 (en)*2007-03-302009-01-22Genesis Applied Technology AsPower lift generator
US20100059222A1 (en)*2007-03-302010-03-11Petroleum Technology Company AsPower Lift Generator
US8056636B1 (en)*2008-03-032011-11-15LP Chemical Service LLCJet pump with foam generator
US7591088B1 (en)*2008-04-282009-09-22Schuh Allen JSuction dredge system and method
US20090324429A1 (en)*2008-06-302009-12-31Philip AzimovStatic fluid mixing pump device
FR2941719A1 (en)*2009-02-042010-08-06Paul FarencRubble aspiring apparatus for e.g. pit, has venturi effect nozzle for ensuring aspiration of rubble, and another venturi effect tube for ensuring continuity of aspiration and for intensifying depression allowing rejection
ITBO20090131A1 (en)*2009-03-062010-09-07Antonio Corradi SUCTION MACHINE WITH LARGE POWER
WO2010143982A1 (en)*2009-06-112010-12-16Joseph Michael GoodinImprovements in and relating to dredging apparatus
US20120085003A1 (en)*2009-06-112012-04-12Joseph Michael Goodin in and relating to dredging apparatus
US8863413B2 (en)*2009-06-112014-10-21Joseph Michael GoodinDredging apparatus
AU2010259359B2 (en)*2009-06-112016-08-11Joseph Michael GoodinImprovements in and relating to dredging apparatus
WO2012088340A2 (en)2010-12-232012-06-28Vlachos Greg JCyclonic elevator and method for using same
US8985965B2 (en)*2010-12-232015-03-24Greg J. VlachosCyclonic elevator and method for using same
US8990990B2 (en)2011-10-032015-03-31Pentair Water Pool And Spa, Inc.Pool cleaner with hydraulic timer assembly
US10443259B2 (en)2011-10-032019-10-15Pentair Water Pool And Spa, Inc.Scrubber assembly for a pool cleaner
US12158020B2 (en)2011-10-032024-12-03Pentair Water Pool And Spa, Inc.Pool cleaner with hydraulic timer assembly
US8956533B2 (en)2011-10-032015-02-17Pentair Water Pool And Spa, Inc.Pool cleaner with multi-stage venturi vacuum assembly
US9677295B2 (en)2011-10-032017-06-13Pentair Water Pool And Spa, Inc.Scrubber assembly for a pool cleaner
US9809991B2 (en)2011-10-032017-11-07Pentair Water Pool And Spa, Inc.Pool cleaner with multi-stage venturi vacuum assembly
US11118369B2 (en)2011-10-032021-09-14Pentair Water Pool And Spa, Inc.Pool cleaner with hydraulic timer assembly
US9119463B2 (en)2011-10-032015-09-01Pentair Water Pool & Spa, Inc.Pool cleaner with detachable scrubber assembly
US10125509B2 (en)2011-10-032018-11-13Pentair Water Pool And Spa, Inc.Pool cleaner with hydraulic timer assembly
US9874196B2 (en)2013-03-132018-01-23Pentair Water Pool And Spa, Inc.Double paddle mechanism for pool cleaner
US10822182B2 (en)*2013-05-202020-11-03James Alan ScruggsMethod for improved transport of materials through a pipe, tube or cylinder structure using a vortex effect production device
US9868595B1 (en)*2013-05-202018-01-16James A. ScruggsVortex effect production device and method of improved transport of materials through a tube, pipe, and/or cylinder structure
US11167939B2 (en)*2013-05-202021-11-09James Alan ScruggsVortex effect particle accelerator transport device
JP2016108774A (en)*2014-12-032016-06-20三井造船株式会社Gas-hydrate recovery system, and recovery method thereof
US11174111B2 (en)*2017-11-082021-11-16Jm Technologies LlcApparatus and system for transferring materials and corresponding method of use thereof
US20220177239A1 (en)*2017-11-082022-06-09Jm Technologies LlcApparatus and system for transferring materials and corresponding method of use thereof

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