US1526356A - Rotary pump - Google Patents

Rotary pump Download PDF

Info

Publication number
US1526356A
US1526356A US534616A US53461622A US1526356A US 1526356 A US1526356 A US 1526356A US 534616 A US534616 A US 534616A US 53461622 A US53461622 A US 53461622A US 1526356 A US1526356 A US 1526356A
Authority
US
United States
Prior art keywords
spindle
pump
wheel
driving
driving spindle
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 - Lifetime
Application number
US534616A
Inventor
Mallock Henry Reginald Arnulph
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.)
AMERICAN CELLULOSE AND CHEMICA
AMERICAN CELLULOSE AND CHEMICAL MANUFACTURING Co Ltd
Original Assignee
AMERICAN CELLULOSE AND CHEMICA
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
Application filed by AMERICAN CELLULOSE AND CHEMICA filed Critical AMERICAN CELLULOSE AND CHEMICA
Priority to US534616A priority Critical patent/US1526356A/en
Application granted granted Critical
Publication of US1526356A publication Critical patent/US1526356A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04CROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; ROTARY-PISTON, OR OSCILLATING-PISTON, POSITIVE-DISPLACEMENT PUMPS
    • F04C15/00Component parts, details or accessories of machines, pumps or pumping installations, not provided for in groups F04C2/00 - F04C14/00
    • F04C15/0057Driving elements, brakes, couplings, transmission specially adapted for machines or pumps
    • F04C15/0061Means for transmitting movement from the prime mover to driven parts of the pump, e.g. clutches, couplings, transmissions
    • F04C15/0073Couplings between rotors and input or output shafts acting by interengaging or mating parts, i.e. positive coupling of rotor and shaft

Definitions

  • This invention relates to pumps, more especially for use in spinning artificial threads from viscous solutions of cellulose' acetate, viscose, nitrocellulose, lcuprainmoniunrcellulose or other cellulose derivatives, for the purpose of supplyingI the solupressuretothc spinning jets or
  • the invention concerns pumpsof what is knoivn as the gear type.
  • These pumps which are usuallyY of small dimensions and runatloiv speeds, have been employed for supplying various liquids under pressure and their use -for spinning artificial silk threads was proposed in- British specification" No. 28,320 of 1912. They comprise tivo toothedftvheels gearing into each other and mounted in a casing 1n cells which closely at itslother or outer end.
  • the spindle that drives the .driven gear Wheel i. e., the first toothed wheel of the pump, is eitherrigidly fixed thereto or is so j disposed in relation thereto that the axes of the spindle and of said wheel are constrained to parallelism during Working.
  • the driving spindle may be formed ⁇ at the end with a ⁇ ball from 'which projects radially a cylindrical stud,
  • the other or outer end of the driving spindle may be supported by means which give no directional guidance to the axis ofthe spindle and are thus equivalent to a second Hoolres joint.
  • ⁇ Such means might consist of a simple hole iny a plate into or through which the outer end ofthe spindle' carrying the toothed or chain wheel ⁇ or the like passes, the spindle having, or
  • a secspindle is independent of or separable from the axis of the toothed or chain Wheel or other device that imparts the drive to the l driving spindle may be formed with aball end projecting into an elongated axialcylindrical socket or boss of the toothed or chain wheel or the like, which is mounted in a bearing or support, the ball end having a projecting cylindrical stud .engaging in a groove or slot cut. in the said socket or boss.
  • the driving spindle can be withdrawn from the socket or boss when required without dismeunting the toothed or chain wheel 'or the'like that imparts the drive to it.
  • a coiled spring may be fit-ted inthe socket or boss to assist in keeping the driving spindle with its other end in good engagelnent with the gear wheel of the pump. Any other connection of a Hooke jointeharaeter may 0f course be employed.
  • the second wheel of the pump is prefer' ably in the form of a toothed disc simply fitted accurately in its closely embracing cell in the casing and the toothed wheels ofthe pump or their circumferences are preferably ground -to the walls of their cells in the casing.
  • the pump comprises as usual three plates or sections 1, 2, 3 of steel or other suitable metal xed tightly together by screws 5 passed through holes G in the sections 1 and 2 and screwing into tapped holes registerl ing therewith in the cover or section 3, the middle section 2 being formed accurately with the holes that form the chambers or cells closely surrounding the gear wheels 7 8 and leaving a small inlet chamber 9 on the unmcshing side of the wheels and a discharge chamber 10 on the meshingside.
  • 11 indicates the supply passage leading to the inlet chamber t), and 12 the delivery passage leading from the discharge chamber l0.
  • Lugs 13 on thesection 1 provide for bolting the pump to a suitable part of the spinning metier as usual.
  • the second or follower wheel 8 of the pump is in the form of a toothed disc simply litt-ed in its cell.
  • the driving spindle of the pump project-ing through a hole 15 in the cover of the pump and formed at this end with a ball 16 from which ay cylindrical stud 17 projects radially, the ball 16 fitting in a central circular hole cut in the toothed wheel 7 of the pump, and the stud 17 fitting in a radial slot or keyway 18 opening ont of. the ccntral hole of the wheel.
  • the drive can be imparted te the gear lwheel 7 while allowing the axis of the driving spindle 14 to have angular play relatively to the axis of this Wheel.
  • the outer end of the driving spindle 14 Y Wheel being mounted in a pillar bearing 22 mounted on the spinning metier in any suitable way.
  • the ball end 19 has a cylindrical stud 28 engaging in a slotQ/l out in they socket or boss 20.
  • 25 is a coiled spring fitted in the hollow boss 20 to assist in keeping the driving spindle 14 with its other end in good engagement with the gear wheel 7 of the pump.
  • a'pump apparatus of the gear type comprising intermeshing driver and driven liquid forwarding gear wheels located in the pump casing, the combination of a driving spindle for the Adriver gear wheel, a pivotal driving connection between said spindle and the driver gear wheel, whereby the axis of said spindle has angular play relatively to the axis of the driver gear wheel, means for freely supporting the outer end of the driving spindle, said means giving no directional guidance to the spindle axis, and means for imparting rotation tol said driving spindle.
  • a pump apparatus of the gear type comprising intermeshing driver and driven liquid forwarding gear wheels located in the pump casing, the combination of a driving spindle for the driver gear wheel.
  • a pivotal driving connection between said spindle and the driver gear wheeLsaid connection com- ⁇ prising a central hole in the driver gear wheel', a radial slot opening therefrom and a ball end on said spindle fitting in said central hole and havinga stud engaging in said radial Slot.
  • a pump apparatus of the gear type comprising intermeshing driver and driven liquid forwarding gear wheelsl located in the, pump casing, the combination of a driving spindle for the driver gear wheel, a pivotal driving connection between said spindle and the driver gear wheel.
  • the axis of said spindle has angular play relatively to the axis of the-driver gear wheel, a wheel for imparting rotation to said driving spindle, an axialsocket on said wheel :idapted to receive the outer end of said driving spindle, a pivotal driving connection between said socket and the onteiend othe driving spindle, comprising an open ended longitudinal slot in said socket, and a stud on tlie onter end of said driving spindle and engaging in said open ended slot, whereby the louter end of the driving spindle is freely supported Without directional guidnnee of tlie spindle axis.
  • a pnnip npparzitiie oi t-lie gear type comprising iiiteriiiesliing driver :ind driven liquid forwarding gear wheels located in lie pninp easing, tlie combination of a driving Spindle for tlie driver gear wheel, a ventral liole in tlie driver gear Wheel, a radial slot opening therefrom, a ball end on said spindle fitting in said central hole und having a stud engaging in said radial slot, a Wheel for imparting rotation to said i driving spindle, van axial socket on swid wlieel adapted to receive the Outer end of said driving spindle, an open ended longitudinal slot in said axial socket, a spherical portion on tlie outer end of the driving spindle engaging in said socket, a stud on said spherical portion engaging in said open ended slot, and a spring located between tlie outer end of tlie driving Spindle

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Rotary Pumps (AREA)

Description

H. R. A. MALLOCK ROTARY4 PUMP Filed Feb. 6, 1922 INVENTOR: EUR. A. MALLOCK,
By his Attorneys,
solution Vthrough the'ne'orifices ofthe spintion under nozzles.
Patented Feb. i7, 1925.
1,526,356 PATENT oFFlcE.,
fnEivrY REGINALD ARNULPH MALLoloK, or EXETER, ENGLAND, AssrGNon ro AMERICAN .KCELLULOSE AND CHEMICAL f A CORPORATION or DELAWARE.
MANUFACTURING COMPANY LIMITED,
" ROTARY PUMP.
Application filed February 6, 1922. Serial No. 534,616.
To all whom it may concern.'
jBe it known that I. Huisnr 'REGINALD ARNLIH hlaLLoon, ll`. It. S., a subject of' l the King` of lreatlh-itain, of Exeter, England, have inventedcertain new and useful Improvements in Rotary-Pumps, of which the following is a specification.
This invention relates to pumps, more especially for use in spinning artificial threads from viscous solutions of cellulose' acetate, viscose, nitrocellulose, lcuprainmoniunrcellulose or other cellulose derivatives, for the purpose of supplyingI the solupressuretothc spinning jets or The invention concerns pumpsof what is knoivn as the gear type. These pumps, which are usuallyY of small dimensions and runatloiv speeds, have been employed for supplying various liquids under pressure and their use -for spinning artificial silk threads was proposed in- British specification" No. 28,320 of 1912. They comprise tivo toothedftvheels gearing into each other and mounted in a casing 1n cells which closely at itslother or outer end. The solution, `supplied tothfelpump from a reservo ir o`r otherwise, enters and 'lills the admission space; thennrneshing side of the lWheels andis"carriedround "betvveen the teeth of the v-vvheels and the casing to the delivery space at.` the Hmeshingside of ther Wheels, `from Whichitisldelivered through an outlet.
" In spinning artificial silk it is of great im lportance to'4 maintain the denier `of -the thread produced as uniform as possible, and
consequently the pumps used for forcing the ning nozzles shoulddeliver the/solution very regularly and accurately.`
In gear pumps as hitherto constructed and as employed for spinning artificial threads, the spindle that drives the .driven gear Wheel, i. e., the first toothed wheel of the pump, is eitherrigidly fixed thereto or is so j disposed in relation thereto that the axes of the spindle and of said wheel are constrained to parallelism during Working.
To `have found that very considerable irregularities in the denier of the thread produced arise in operation, on account of the diiliculty in securing accurate coincidence between lhetrue axis of the pump Wheel,
the axis of the .driving spindle, and of the' bearing which supports the driving spindle at its outer end. lAny want of accuracy in these respects causes bending stresses'in the pump which affect adversely the denier' of the thread produced. v
It has now been found that this drawback can be very greatly reduced and the pump for example after the manner of a single Hookes joint.
Any suitable means or device may be employed for the purposereferred to.v
According to one kform the driving spindle may be formed `at the end with a` ball from 'which projects radially a cylindrical stud,
the ball fitting in acentral circular hole cut in the toothed 'disc that forms the Wheel, and the cylindrical stud fitting in av radial `slot `or keyway opening out of the central circular hole.
If desired, the other or outer end of the driving spindle may be supported by means which give no directional guidance to the axis ofthe spindle and are thus equivalent to a second Hoolres joint. `Such means might consist of a simple hole iny a plate into or through which the outer end ofthe spindle' carrying the toothed or chain wheel `or the like passes, the spindle having, or
not.` a'spherical or like portion Working in ond device of Hookes joint character 'is employed, this is made so that the driving the'hole Preferably, however, when a secspindle is independent of or separable from the axis of the toothed or chain Wheel or other device that imparts the drive to the l driving spindle may be formed with aball end projecting into an elongated axialcylindrical socket or boss of the toothed or chain wheel or the like, which is mounted in a bearing or support, the ball end having a projecting cylindrical stud .engaging in a groove or slot cut. in the said socket or boss. Thus the driving spindle can be withdrawn from the socket or boss when required without dismeunting the toothed or chain wheel 'or the'like that imparts the drive to it. A coiled spring may be fit-ted inthe socket or boss to assist in keeping the driving spindle with its other end in good engagelnent with the gear wheel of the pump. Any other connection of a Hooke jointeharaeter may 0f course be employed.
The second wheel of the pumpis prefer' ably in the form of a toothed disc simply fitted accurately in its closely embracing cell in the casing and the toothed wheels ofthe pump or their circumferences are preferably ground -to the walls of their cells in the casing.
The accompanying drawings illustrate by way of example a gear wheel pump constructed and arranged in accordance with the invention inone form thereof, Fig. 1
.being a` side elevation, partly in vertical mid-section, of the pump and driving gear, and Flg. 2 a sectional view of the pump with the outer plate or cover 3 removed.
The pump comprises as usual three plates or sections 1, 2, 3 of steel or other suitable metal xed tightly together by screws 5 passed through holes G in the sections 1 and 2 and screwing into tapped holes registerl ing therewith in the cover or section 3, the middle section 2 being formed accurately with the holes that form the chambers or cells closely surrounding the gear wheels 7 8 and leaving a small inlet chamber 9 on the unmcshing side of the wheels and a discharge chamber 10 on the meshingside. 11 indicates the supply passage leading to the inlet chamber t), and 12 the delivery passage leading from the discharge chamber l0. Lugs 13 on thesection 1 provide for bolting the pump to a suitable part of the spinning metier as usual.
'As shown in Figs. 1 and 2 the second or follower wheel 8 of the pump is in the form of a toothed disc simply litt-ed in its cell.
14 is the driving spindle of the pump project-ing through a hole 15 in the cover of the pump and formed at this end with a ball 16 from which ay cylindrical stud 17 projects radially, the ball 16 fitting in a central circular hole cut in the toothed wheel 7 of the pump, and the stud 17 fitting in a radial slot or keyway 18 opening ont of. the ccntral hole of the wheel. Thus the drive can be imparted te the gear lwheel 7 while allowing the axis of the driving spindle 14 to have angular play relatively to the axis of this Wheel.
The outer end of the driving spindle 14 Y Wheel being mounted in a pillar bearing 22 mounted on the spinning metier in any suitable way. The ball end 19 has a cylindrical stud 28 engaging in a slotQ/l out in they socket or boss 20. Thus while the outer end' of the driving -spindle does-not receive directional guidance from the hollow boss 20, it
.can be withdrawn therefrom when required,
without dismounting the chain wheel 21, 25 is a coiled spring fitted in the hollow boss 20 to assist in keeping the driving spindle 14 with its other end in good engagement with the gear wheel 7 of the pump. f
What .I claim and desire to secure by Letters Patent is 1. In a pump apparatus ofthe gear type comprising intel-meshing driver and driven liquid forwarding gear wheels located in the pump casing, the combination of a driving spindle for the driver gear wheel and a pivotal driving connection between said spindle and the driver gear wheel, whereby the axis of said spindle has angular play relatively to the axis of the driver gear wheel.
2. In a'pump apparatus of the gear type lcomprising intermeshing driver and driven liquid forwarding gear wheels located in the pump casing, the combination of a driving spindle for the Adriver gear wheel, a pivotal driving connection between said spindle and the driver gear wheel, whereby the axis of said spindle has angular play relatively to the axis of the driver gear wheel, means for freely supporting the outer end of the driving spindle, said means giving no directional guidance to the spindle axis, and means for imparting rotation tol said driving spindle.
3.- ln a pump apparatus of the gear type comprising intermeshing driver and driven liquid forwarding gear wheels located in the pump casing, the combination of a driving spindle for the driver gear wheel. a pivotal driving connection between said spindle and the driver gear wheeLsaid connection com-` prising a central hole in the driver gear wheel', a radial slot opening therefrom and a ball end on said spindle fitting in said central hole and havinga stud engaging in said radial Slot.
4.111 a pump apparatus of the gear type comprising intermeshing driver and driven liquid forwarding gear wheelsl located in the, pump casing, the combination of a driving spindle for the driver gear wheel, a pivotal driving connection between said spindle and the driver gear wheel. whereby the axis of said spindle has angular play relatively to the axis of the-driver gear wheel, a wheel for imparting rotation to said driving spindle, an axialsocket on said wheel :idapted to receive the outer end of said driving spindle, a pivotal driving connection between said socket and the onteiend othe driving spindle, comprising an open ended longitudinal slot in said socket, and a stud on tlie onter end of said driving spindle and engaging in said open ended slot, whereby the louter end of the driving spindle is freely supported Without directional guidnnee of tlie spindle axis. i
5. ln a pnnip npparzitiie oi t-lie gear type comprising iiiteriiiesliing driver :ind driven liquid forwarding gear wheels located in lie pninp easing, tlie combination of a driving Spindle for tlie driver gear wheel, a ventral liole in tlie driver gear Wheel, a radial slot opening therefrom, a ball end on said spindle fitting in said central hole und having a stud engaging in said radial slot, a Wheel for imparting rotation to said i driving spindle, van axial socket on swid wlieel adapted to receive the Outer end of said driving spindle, an open ended longitudinal slot in said axial socket, a spherical portion on tlie outer end of the driving spindle engaging in said socket, a stud on said spherical portion engaging in said open ended slot, and a spring located between tlie outer end of tlie driving Spindle and tlie bottoni of the axial socket.
In testimony Whereot l lia-ve hereunto subscribed my naine.
HENRY REGINALD ARNULPH MALLOCK.
US534616A 1922-02-06 1922-02-06 Rotary pump Expired - Lifetime US1526356A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US534616A US1526356A (en) 1922-02-06 1922-02-06 Rotary pump

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US534616A US1526356A (en) 1922-02-06 1922-02-06 Rotary pump

Publications (1)

Publication Number Publication Date
US1526356A true US1526356A (en) 1925-02-17

Family

ID=24130829

Family Applications (1)

Application Number Title Priority Date Filing Date
US534616A Expired - Lifetime US1526356A (en) 1922-02-06 1922-02-06 Rotary pump

Country Status (1)

Country Link
US (1) US1526356A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2650754A (en) * 1949-01-12 1953-09-01 Ronnoco Exp Dev Company Ltd Compressor
US3881849A (en) * 1971-12-07 1975-05-06 Rhone Poulenc Sa Gear pumps
US20160032926A1 (en) * 2012-12-04 2016-02-04 Magna Powertrain Bad Homburg GmbH Electric motor-driven motor-vehicle vacuum pump, and drive shaft for a motor-vehicle vacuum pump
EP3550148A1 (en) * 2018-04-06 2019-10-09 Entecnia Consulting, S.L.U. Rotary pump

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2650754A (en) * 1949-01-12 1953-09-01 Ronnoco Exp Dev Company Ltd Compressor
US3881849A (en) * 1971-12-07 1975-05-06 Rhone Poulenc Sa Gear pumps
US20160032926A1 (en) * 2012-12-04 2016-02-04 Magna Powertrain Bad Homburg GmbH Electric motor-driven motor-vehicle vacuum pump, and drive shaft for a motor-vehicle vacuum pump
US10288067B2 (en) * 2012-12-04 2019-05-14 Magna Powertrain Bad Homburg GmbH Electric motor-driven motor-vehicle vacuum pump, and drive shaft for a motor vehicle vacuum pump
EP3550148A1 (en) * 2018-04-06 2019-10-09 Entecnia Consulting, S.L.U. Rotary pump
WO2019193127A1 (en) * 2018-04-06 2019-10-10 Entecnia Consulting, S.L.U. Rotary pump
CN110345066A (en) * 2018-04-06 2019-10-18 恩泰克尼亚咨询有限公司 Rotary pump

Similar Documents

Publication Publication Date Title
US1526356A (en) Rotary pump
US1154974A (en) Welding-torch.
US4805154A (en) Combination mixing and conveying device for highly viscous fluids
US5695122A (en) Gear-type rotary sprinkler
US2481047A (en) Mountings for fluid pumps
US2492966A (en) Rotary toothbrush
US3026150A (en) Air bearings
US2722792A (en) Water cooled grinding wheel
JPS6315444B2 (en)
US3387756A (en) Pneumatic jet tow piddler
US1184609A (en) Lubrication of helical wheels or worm-gears.
US1856631A (en) Turbine and attachment therefor
US1008652A (en) Core-chuck.
US1234088A (en) Combined oil and gas burner.
US265381A (en) Water motor
DE2739055A1 (en) Reaction turbine for low pressure fluid - has radial passages with tangential discharge in disc mounted on hollow shaft for fluid inlet
US853570A (en) Turret-head.
US2372123A (en) Clutch
US1615457A (en) Spray valve for oil engines
US1504981A (en) Oil burner
US1262924A (en) Means for detachably securing gear-wheels to shafts.
US1354340A (en) Centrifugal vacuum-pump
US1972746A (en) Fluid distributing means for wire drawing machines
US693837A (en) Motor-gearing.
US1155777A (en) Mechanism for producing artificial silk.