US2592612A - Rotary fuel feeder for flame ring burners - Google Patents
Rotary fuel feeder for flame ring burners Download PDFInfo
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- US2592612A US2592612A US765665A US76566547A US2592612A US 2592612 A US2592612 A US 2592612A US 765665 A US765665 A US 765665A US 76566547 A US76566547 A US 76566547A US 2592612 A US2592612 A US 2592612A
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- cup
- shaft
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23D—BURNERS
- F23D11/00—Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space
- F23D11/04—Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space the spraying action being obtained by centrifugal action
- F23D11/08—Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space the spraying action being obtained by centrifugal action using a vertical shaft
Definitions
- This invention relates to feeders for liquid fuel burners, and more particularly to feeders which include a rotary distributor for deliveringthe fuel to the fiame'ring of a burner of the wall flame.
- This invention has for its object to provide a fuel distributing rotor that is mounted in bearillustrated in the accompanying drawings,'here inafter described and particularly set forth in the appended claims, together with such varia tions and modifications thereof as will beapparent to one skilled in the art towhich the invention pertains.
- Figure 1 is a vertical axial section through fuel feeder embodying the invention
- Figure 2 is a sideelevation of the rotor shaft;
- Figure 3 is a diagrammatic view, showing the fuel feed controlling means;
- FIGS. 4 and 5 are views showing rotor shafts of slightly modified construction:
- the fuel feeder of the present invention is mounted in a housing 1 that is adapted to be positioned in the base of a furnace, the housing I being provided at its upper end with a tapering portion 2 that fits in the central opening of a hearth 3.
- the housing I has a fixed horizontal partition 4 which carries a damper 5 ;that is adjustable to regulate the flow of air through the upper portion of the housing into the furnace, thedamper 5 being held in adjusted positions by means ofsuitable spring pressed clips Swhich engage peripheral portions of the damper.
- The; partition 4 has a central opening .in which is, mounted a flanged ring I and within the ring 7...
- cushioning member 8 which preferably is of elastic rubberas indicated. if desired the rubber ring 8 may be bonded tothe inside of the flanged ring 7 and to the external surface of the sleeve 8 that fits within the ring .3. -.flfhe cushioning ringQll prefinthe drawing.
- the tubular wall Illa of the cup It has an elongated bearing sleeve i5 attached to the interior thereof, the sleeve I5 extending throughout the major portion of thelength of the tubular wall lila with its lower end above the bottom of the plug Hand its upper end below the top of the tubulariwall Illa.
- the sleeve i5 is preferably made of a suitable bearing material.
- the cup provides. a support for a fuel distributing rotor which comprises avertieal shaft l6 and a head .which comprises a cap I?
- a post or extension l8 extending upwardly from the center of the cap ll and-a fan comprising a horizontally disposed disk 19 attached to the upper end of the post it beneath the disk i9 and closely adjacent the peripheral portions of the disk.
- the shaft l6 has a lower end portion 122 of re-. Jerusalem diameter in which is mounted a bearing ball. 23 that rests-upon a steel insert 24 mounted in thetop face of the plug H.
- the shaft [6 has an axial passage 25 that communicates with the interior of the reservoir below the sleeve 15 through lateral openings 25 and which has a flaring upper end portion 27 of conical form.
- the conical portion 2? of the passages extends from the upper end of the shaft l6 downwardly and merges into the cylindrical portion of the passage 25 below the top of the tubular wall la, the cap 11- being positioned adjacent the top of the tubular wall liia.
- the shaft l6 is of a diameter to fit within the bearing sleeve l5 and engages with the sleeve 15 from the upper to the lower end thereof.
- helical groove 28 is formed in the exterior cylindrical surface of the shaft 15 and the inclina tion of this groove is such that the rotation of the shaft in the direction in which it is driven during thefuel feeding operation tends to cause liquid toflow downwardly in the groove.
- the shaft 16 mediately above the upper end of the sleeve l5 the shaft 16 is provided with a circumferential groove 29 and a lateral opening 30 is provided from the groove 29 to the axial passage 25.
- oil flows upwardly through the axial passage 25 and is discharged by centrifugal force through the delivery tubes 2 I. Some of the oil flows outwardly through the passage 30 and oil is caused to flow downwardly through the groove 28 during rotation of the shaft.
- are so dimensioned that during operation of the feeder the volume of liquid fuel contained in the passages and in the reservoir l0 during rotation is sufiicient to fill the reservoir to a level below the top of the tubular wall la and in the region of or adjacent the top of the bearing sleeve l5. 7
- the fuel feeding rotor is preferably operated by means of an electric motor indicated generally by the letterM, this motor comprising a motor rotor 34'and a motor stator 32 that surrounds the tubular wall [0a and that is supported upon a suitable spider 33 attached to the collar I2.
- the motor rotor 34 extends around the tubular wall Illa within the stator 32, the rotor 34 being attached to a skirt35 carried by the cap l1.
- Flow of liquid fuel to the bearing cup through the conduit I3 is controlled by a suitable normally closed solenoid operated valve 36 that is automatically opened and closed when the motor M is energized or deenergized, the solenoid of the valve 35 being in circuit with the motor M and with a thermostat 31 which controls the motor. Whenever the motor M is deenergized the valve 36 is closed to cut off the flow of fuel to the feeder so that any liquid remaining in the tubes 2
- the level of the liquid will thus establish itself in the passage 25 and in the reservoir exteriorly of the shaft I6 at a level a short distance below the top of the tube of the drawings where the rotor shaft has an upper bearing portion 40 provided with a helical groove 4! and a plain bearing 42 at the lower end of the bearing sleeve which is spaced from the; bearing portion 40, the shaft being provided with a reduced portion 43 intermediate the bearing portions.
- the fuel oil is circulated through the bearings in a manner similar to the modification above described, a lower plain bearing 42 being preferably provided with a groove 44 or other suitable passage in the 1 shaft or bearing to permit free passage of liquid past the lower bearing so that a fairly rapid circulation of oil may be maintained during operation.
- the axial passage be provided with a flaring conical upper end portion.
- the passage if desired may be of uniform diame -terl throughout its length. As shown in Fig. 5, a
- passage 25a is provided which is of uniform diameter to the upper end of the rotor shaft and passages are provided through the upper end of the shaft to the cylindrical passage 25a to deliver fuel to the delivery tubes 2 la.
- the rotor shaft is provided with an upper plain bearing 45 that is journaled in the top portion of the bearing sleeve and with a lower bearing portion 45 that is provided with a helical groove 41, the
- the helical groove 28 provides a reservoir for a considerable volume of oil within the tubular bearing l5 so that effective lubrication is provided even though the feeder may remain idle for a long period of time.
- a suitable metering valve such as the needle valve 33 is provided in the conduit i3.
- suitable shield 39 may be provided for the motor, this shield being attached to the top of lower bearing portions 45 and 46 being of reduced diameter to provide a reservoir for additional lubricant.
- the shaft- has a groove 49 above the upper bearing 45 to increase the liquid capacity of the cup above the bearing,
- the level of the liquid within the axial passage 25a and within the tubular wall ill will be established by seepage of oil past the upper bearing 45 so that the entire bearing will be submerged in oil during periods of idleness.
- the helical groove 41 tends to draw oil down from the reservoir 48, but as soon as the rotor is stopped the bearing will again become filled with oil.
- a liquid fuel feeder comprising a support
- an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed below the upper open end of the cup, whereby the cup defines a liquid retaining reservoir extending above the upper end of said sleeve, a rotor comprising a vertical shaftand a distributor head attached to the upper end of the shaft, said shaft being journaled in said sleeve with sufficient clearance to at least accommodate a continuous film of said liquid fuel therebetween from top to bottom of the bearing surfaces there- 5.
- said rotor having an axial passage therethrough opening at its lower end to the interior of thecup adjacent the bottom thereof and extending above the upper end of said bearing surface
- said head having means defining delivery passages connected to said axial passage and extending above the upper end of the cup and outwardly therefrom, whereby liquid flowing through said delivery passages from said axial passage is accelerated by centrifugal force upon rotation of said shaft and head
- a supply conduit connected to said cup for delivery of liquid fuel into the cup and said axial passage, means operative to drive said rotor intermittently, means for feeding liquid fuel through said supply conduit into the cup at a rate sufficient to maintain a level of liquid in the cup adjacent the upper end of said sleeve for keeping the sleeve substantially submerged during rotation of said shaft, and means for limiting reverse flow of liquid fuel out of said cup through said supply line, whereby a volume of liquid sufficient to substantially submerge said bearing'surface is retained in said cup when said rotor is stationary.
- a liquid fuel feeder comprising a support, an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed below the upper open end of the cup, whereby the cup defines a liquid retaining reservoir extending above the upper end of said sleeve for submerging the sleeve, a rotor comprising a vertical shaft and a distributor head attached to the upper end of the shaft, said shaft being supported by the bottom of the cup and journaled in said bearing surface with sufiicient clearance to at least accommodate a continuous film of said liquid fuel therebetween from top to bottom of said bearing surface, and said rotor having an axial passage therethrough opening at its lower end to the interior of the cup adjacent the bottom thereof and extending above the upper end of said bearing surface, said head have ing means defining delivery passages connected to said axial passage and extending above the upper end of the cup and outwardly therefrom
- a liquid fuel feeder comprising a support, an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed below the upper open end of the cup, whereby the cup defines a liquid retaining,
- a rotor comprising a vertical shaft and a distributor head attached to the upper end of the shaft, said shaft being journaled in said bearing surface with sufficient clearance to at least accommodate a continuous film of said liquid fuel therebetween from top to' bottom of said bearingsurface, a portion of said shaft above said bearing surface being of reduced diameter to increase the volume of fuel that may be accommodated in the cup above said bearingisurface, and said rotor having an axial passage therethrough opening at its lower endto the interior of the cup adjacent the bottom thereof and extending above the upper end of said bearing surface, said head having means defining delivery passages connected to said axial passage and extending above the upper end of the cup and outwardly therefrom, whereby liquid flowing through said delivery passages from said axial passage is accelerated by centrifugal force upon rotation of said shaft and head, a supply cone duit connected to said cup for delivery of liquid fuel into the cup and said axial passage, a valve controlling flow of liquid into
- a liquid fuel feeder comprising a support, an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve.
- the upper end of said 'bearing sleeve being disposed below the upper open end of the cup, whereby the cup defines a liquid retaining reservoir extending above the upper end of said sleeve for submerging the sleeve, a rotorcomprising a vertical shaft and a distributor head attached to the upper end of the shaft, said shaft being journaled in said bearing surface with sufficient clearance to at least accommodate a continuous film of said liquid-fuel therebetween from top to bottom of said bearing surface, portions of said shaft above and below said bearingsurface being of reduced diameter to increase the volume of fuel retainable by the cup above and below the bearing surface, and said rotor having an axial passage therethrough opening, at its lower end to the interior of the cup adjacent the bottom thereof and extendingabove the upper.
- said head having means defining delivery passages connected to said axial passage and extending above the upper end of the cup and outwardly therefrom, whereby liquid flowing through said delivery passages from said axial passage is accelerated by centrifugal force upon rotation of said shaft and head, a supply conduit connected to said cup for delivery of liquid fuel into the cup and said axial. passage, a valve controlling flow of liquid'into said cup and upwardly through the axial passage of said shaft, means operative to drive said rotor, and means for closing said valve and rendering said driving means inoperative substantially simultaneously,
- an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed. below the upper open end: of the cup, whereby the cup 'defines a liquid re taining reserwoirextending above the upper end of said sleeve for submerging thesleev'aa rotor comprising a vertical shaft and a distributor-head attached to the upper end of the shaft, said shaft being jo-urnaled in saidv bearing surface s with sufficient clearance to at least accommodate a continuous film of said liquid fuel therebetween from top to bottom of said bearing surface, and said rotor having an axial passage therethrough opening at its lower end to the interior of the cup adjacent the bottom thereof and extending above the upper end of said bearing surface, said head having means defining delivery passages connected to said axial passage and extending above the upper end of the cup and outwardly therefrom,
- a fuel feeder according to claim 1 in which an opening in said shaft is provided adjacent the upper end of said sleeve for maintaining communication between the axial passage through the shaft and the upper portion of said reservoir.
- a fuel feeder according to claim 4 in which said shaft is provided with an opening adjacent the upper end of said sleeve for maintaining communication between the axial passage through the shaft and the upper portion of said reservoir.
- a fuel feeder according to claim 1 in which the clearance between said shaft and said bearing surface is enlarged in at least one region between the upper and lower ends of the sleeve to provide additional liquid reservoir space.
- a fuel feeder according to claim 1 in which a helical oil feeding groove is provided in the outer surface of said shaft between the upper and lower ends of said sleeve.
- a fuel feeder according to claim 1 in which a helical oil feeding groove is provided in the outer surface of said shaft, said groove extending downwardly fro-m the upper end of said bearing surface.
- a fuel feeder according to claim 4 in which a helical oil feeding groove is provided in the outer surface of said shaft, said groove extending substantially continuously from the upper end to the lower end of said bearing surface.
- a liquid fuel feeder comprising asupport, an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed below the upper open end of the cup, said cup defining a liquid fuel retaining reservoir having upper and lower portions between which said bearing sleeve extends, a rotor comprising a vertical shaft that is journaled in said sleeve and a distributor head attached to the upper end of the shaft, said shaft and sleeve having sufficient clearance to at least accommodate a continuous film of said liquid therebetween, said shaft having an external helical groove that communicates at its upper end-with said upper portion of the liquid reservoir and at its lower end with said lower portion of the liquid reservoir, said-shaft having an axial passage therein opening at its lower end to said lower portion of theliquid reservoir and extending above said bearing sleeve, said head having laterally .extending delivery passages connected to said
- a liquid fuel feeder comprising a support.
- an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed below the upper open end of the cup, said cup defining a liquid fuel retaining reservoir having upper and lower portions between which said bearing sleeve extends, a rotor comprising a vertical shaft that is journaled for rotation in said sleeve and a distributor head attached to the upper end of the shaft, said shaft havinga portion of reduced diameter intermediate the ends of said sleeve providing an intermediate reservoir space, said shaft having bearing portions above and below said reduced portion, the upper of said bearing portions having an external helical groove that extends the full length thereof, said shaft being formed to provide a passage between said intermediate space and said lower portion of the liquid reservoir and having an axial passage therein extending above said bearing sleeve and opening to said upper and lower portions of the liquid reservoir, said distributor head having laterally extending delivery passages connected to said
- a liquid fuel feeder comprising a support, an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed below the upper open end of the cup, said cup defining a liquid fuel retaining reservoir having upper and lower portions between which said bearing sleeve extends, a rotor comprising a vertical shaft that is journ'aled in said sleeve and a distributor head attached to the upper end of the shaft, said shaft and sleeve having sufficient clearance between them to at least accommodate a continuous film of said liquid ,therebetween, said shaft having an axial passage therein opening at its lower end to said lower portion of the liquid reservoir and extending to the upper end of the shaft, said passage having an upper end portion that flares upwardly from adjacent the top of said sleeve to the upper end of said shaft, said head having laterally extending delivery passages connected to the flared upper end of said cup
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Description
April 15, 1952 w. J: SMITH, JR
ROTARY IFUEL FEEDER FOR-FLAME RING BURNERS 2 SHEETS-SHEET 1 Filed Aug. 2, 1947 I INVENTOR.
7 William J. Smith Jr.
ROTARY FUEL FEEDER FOR FLAME RiNG BURNERS Filed Aug. 2, 1947 2 SHEETS-SHEET 2 INVENTOR. William J. Smith Jr.
ATTORNE Patented Apr. 15, 1952 V ROTARY FUEL FEEDER FOR! FLAME RING BURNI IBS V V 1 William J. s ith, Jr., Bay Village, Ohio, assignor V to Cleveland Steel Products Corporation, Cleveland, Ohio, a corporation of Ohio Application August 2, 1947, Serial No. 785,565
. 1 H This invention relates to feeders for liquid fuel burners, and more particularly to feeders which include a rotary distributor for deliveringthe fuel to the fiame'ring of a burner of the wall flame.
type.
This invention has for its object to provide a fuel distributing rotor that is mounted in bearillustrated in the accompanying drawings,'here inafter described and particularly set forth in the appended claims, together withsuch varia tions and modifications thereof as will beapparent to one skilled in the art towhich the invention pertains.
Reference should be hadto the accompanying drawings forming a part of this specification, :in
which:
Figure 1 is a vertical axial section through fuel feeder embodying the invention; i
Figure 2 is a sideelevation of the rotor shaft; Figure 3 is a diagrammatic view, showing the fuel feed controlling means; and
Figures 4 and 5 are views showing rotor shafts of slightly modified construction:
The fuel feeder of the present invention is mounted in a housing 1 that is adapted to be positioned in the base of a furnace, the housing I being provided at its upper end with a tapering portion 2 that fits in the central opening of a hearth 3. The housing I has a fixed horizontal partition 4 which carries a damper 5 ;that is adjustable to regulate the flow of air through the upper portion of the housing into the furnace, thedamper 5 being held in adjusted positions by means ofsuitable spring pressed clips Swhich engage peripheral portions of the damper. The; partition 4 has a central opening .in which is, mounted a flanged ring I and within the ring 7...
there may bea suitable cushioning member 8 which preferably is of elastic rubberas indicated. if desired the rubber ring 8 may be bonded tothe inside of the flanged ring 7 and to the external surface of the sleeve 8 that fits within the ring .3. -.flfhe cushioning ringQll prefinthe drawing.
14 Claims (or. 103-400) erably is annular in form with the upper end projecting above the flanged ring 1 to provide a cushioned or yielding support for anupright oil reservoiror cup l0 which comprises a cylindrical tube H'ia and a plug H closing the lower end of the tube. The tube ma has-a sliding fit in the internal sleeve 9 and may be :yieldably supported on the cushioning ring 8 by means of a collar 12 suitably attached to the tube Illa and resting on the top edge of the cushioning ring 8.
The tubular wall Illa of the cup It has an elongated bearing sleeve i5 attached to the interior thereof, the sleeve I5 extending throughout the major portion of thelength of the tubular wall lila with its lower end above the bottom of the plug Hand its upper end below the top of the tubulariwall Illa. The sleeve i5 is preferably made of a suitable bearing material. The cup provides. a support for a fuel distributing rotor which comprises avertieal shaft l6 and a head .which comprises a cap I? attached to the upper end of the shaft iii, a post or extension l8 extending upwardly from the center of the cap ll and-a fan comprising a horizontally disposed disk 19 attached to the upper end of the post it beneath the disk i9 and closely adjacent the peripheral portions of the disk.
The shaft l6 has a lower end portion 122 of re-. duced diameter in which is mounted a bearing ball. 23 that rests-upon a steel insert 24 mounted in thetop face of the plug H. The shaft [6 has an axial passage 25 that communicates with the interior of the reservoir below the sleeve 15 through lateral openings 25 and which has a flaring upper end portion 27 of conical form. The conical portion 2? of the passages extends from the upper end of the shaft l6 downwardly and merges into the cylindrical portion of the passage 25 below the top of the tubular wall la, the cap 11- being positioned adjacent the top of the tubular wall liia.
The shaft l6 is of a diameter to fit within the bearing sleeve l5 and engages with the sleeve 15 from the upper to the lower end thereof. A
mediately above the upper end of the sleeve l5 the shaft 16 is provided with a circumferential groove 29 and a lateral opening 30 is provided from the groove 29 to the axial passage 25. During operation of the feeder, oil flows upwardly through the axial passage 25 and is discharged by centrifugal force through the delivery tubes 2 I. Some of the oil flows outwardly through the passage 30 and oil is caused to flow downwardly through the groove 28 during rotation of the shaft. The shaft passage 25 and the passages of the tubes 2| are so dimensioned that during operation of the feeder the volume of liquid fuel contained in the passages and in the reservoir l0 during rotation is sufiicient to fill the reservoir to a level below the top of the tubular wall la and in the region of or adjacent the top of the bearing sleeve l5. 7
The fuel feeding rotor is preferably operated by means of an electric motor indicated generally by the letterM, this motor comprising a motor rotor 34'and a motor stator 32 that surrounds the tubular wall [0a and that is supported upon a suitable spider 33 attached to the collar I2. The motor rotor 34 extends around the tubular wall Illa within the stator 32, the rotor 34 being attached to a skirt35 carried by the cap l1.
Flow of liquid fuel to the bearing cup through the conduit I3 is controlled by a suitable normally closed solenoid operated valve 36 that is automatically opened and closed when the motor M is energized or deenergized, the solenoid of the valve 35 being in circuit with the motor M and with a thermostat 31 which controls the motor. Whenever the motor M is deenergized the valve 36 is closed to cut off the flow of fuel to the feeder so that any liquid remaining in the tubes 2| and conical portion 21 of the passage after the distributor ceases to rotate will flow by gravity back into the axial passage 25. The level of the liquid will thus establish itself in the passage 25 and in the reservoir exteriorly of the shaft I6 at a level a short distance below the top of the tube of the drawings where the rotor shaft has an upper bearing portion 40 provided with a helical groove 4! and a plain bearing 42 at the lower end of the bearing sleeve which is spaced from the; bearing portion 40, the shaft being provided with a reduced portion 43 intermediate the bearing portions. In this modification the fuel oil is circulated through the bearings in a manner similar to the modification above described, a lower plain bearing 42 being preferably provided with a groove 44 or other suitable passage in the 1 shaft or bearing to permit free passage of liquid past the lower bearing so that a fairly rapid circulation of oil may be maintained during operation.
It is not essential that the axial passage be provided with a flaring conical upper end portion. The passage if desired may be of uniform diame -terl throughout its length. As shown in Fig. 5, a
portion 48'of the shaft between the upper and "la and near the upper end of the bearing sleeve 15 so that the bearing will be substantially submerged in oil.
The helical groove 28 provides a reservoir for a considerable volume of oil within the tubular bearing l5 so that effective lubrication is provided even though the feeder may remain idle for a long period of time.
When the motor M is started into operation. rotation of the shaft It will cause the liquid to fiow downwardly in the groove 28 so that the liquid lubricant through the bearing, the helical groove assists in keeping the level of the liquid exteriorly of the shaft below the top of the cup and preventing overflow during operation of the feeder.
In order to accurately regulate the rate of.
flow of fuel to the burner, a suitable metering valve such as the needle valve 33 is provided in the conduit i3.
but no passage is provided between the axial passage 25a and the interior of the cup above the hearing. In this modification the fuel oil flows freely up through the helical groove 41 and into the annular space 48 when the feeder is idle, and
the level of the liquid within the axial passage 25a and within the tubular wall ill will be established by seepage of oil past the upper bearing 45 so that the entire bearing will be submerged in oil during periods of idleness. Whenever the rotor is driven the helical groove 41 tends to draw oil down from the reservoir 48, but as soon as the rotor is stopped the bearing will again become filled with oil.
It is to be understood that variations and modifications of the specific devices herein shown:
and described for purposes of illustration, may be made without departing from the spirit of the invention.
What I claim is:
1. A liquid fuel feeder comprising a support,
an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed below the upper open end of the cup, whereby the cup defines a liquid retaining reservoir extending above the upper end of said sleeve, a rotor comprising a vertical shaftand a distributor head attached to the upper end of the shaft, said shaft being journaled in said sleeve with sufficient clearance to at least accommodate a continuous film of said liquid fuel therebetween from top to bottom of the bearing surfaces there- 5. of, and said rotor having an axial passage therethrough opening at its lower end to the interior of thecup adjacent the bottom thereof and extending above the upper end of said bearing surface, said head having means defining delivery passages connected to said axial passage and extending above the upper end of the cup and outwardly therefrom, whereby liquid flowing through said delivery passages from said axial passage is accelerated by centrifugal force upon rotation of said shaft and head, a supply conduit connected to said cup for delivery of liquid fuel into the cup and said axial passage, means operative to drive said rotor intermittently, means for feeding liquid fuel through said supply conduit into the cup at a rate sufficient to maintain a level of liquid in the cup adjacent the upper end of said sleeve for keeping the sleeve substantially submerged during rotation of said shaft, and means for limiting reverse flow of liquid fuel out of said cup through said supply line, whereby a volume of liquid sufficient to substantially submerge said bearing'surface is retained in said cup when said rotor is stationary.
2. A liquid fuel feeder comprising a support, an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed below the upper open end of the cup, whereby the cup defines a liquid retaining reservoir extending above the upper end of said sleeve for submerging the sleeve, a rotor comprising a vertical shaft and a distributor head attached to the upper end of the shaft, said shaft being supported by the bottom of the cup and journaled in said bearing surface with sufiicient clearance to at least accommodate a continuous film of said liquid fuel therebetween from top to bottom of said bearing surface, and said rotor having an axial passage therethrough opening at its lower end to the interior of the cup adjacent the bottom thereof and extending above the upper end of said bearing surface, said head have ing means defining delivery passages connected to said axial passage and extending above the upper end of the cup and outwardly therefrom, whereby liquid flowing through said delivery passages from said axial passage is accelerated by centrifugal force upon rotation of said shaft and head, a supply conduit connected to said cup for delivery of liquid fuel into the cup and said axial passage, a valve controlling flow of liquid into said coup, means operative to drive said rotor. and means for closing said valve and rendering said driving means inoperative substantially simultaneously, whereby a volume of liquid suificient to submerge said bearing surface is retained in said cup when said rotor is stationary.
3. A liquid fuel feeder comprising a support, an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed below the upper open end of the cup, whereby the cup defines a liquid retaining,
reservoir extending above the upper end of said sleeve for submerging the sleeve, a rotor comprising a vertical shaft and a distributor head attached to the upper end of the shaft, said shaft being journaled in said bearing surface with sufficient clearance to at least accommodate a continuous film of said liquid fuel therebetween from top to' bottom of said bearingsurface, a portion of said shaft above said bearing surface being of reduced diameter to increase the volume of fuel that may be accommodated in the cup above said bearingisurface, and said rotor having an axial passage therethrough opening at its lower endto the interior of the cup adjacent the bottom thereof and extending above the upper end of said bearing surface, said head having means defining delivery passages connected to said axial passage and extending above the upper end of the cup and outwardly therefrom, whereby liquid flowing through said delivery passages from said axial passage is accelerated by centrifugal force upon rotation of said shaft and head, a supply cone duit connected to said cup for delivery of liquid fuel into the cup and said axial passage, a valve controlling flow of liquid into said cupand upwardly through the axial passage of saidshaft, means operative to drive said rotor, and means for closing said valve and rendering said driv-- ing means, inoperative substantially simultaneously, whereby a volume of liquid sufficient to submerge said bearing surface is retained in said cup when said rotor is stationary. V y
4. A liquid fuel feeder comprising a support, an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve.
Within the cup, the upper end of said 'bearing sleeve being disposed below the upper open end of the cup, whereby the cup defines a liquid retaining reservoir extending above the upper end of said sleeve for submerging the sleeve, a rotorcomprising a vertical shaft and a distributor head attached to the upper end of the shaft, said shaft being journaled in said bearing surface with sufficient clearance to at least accommodate a continuous film of said liquid-fuel therebetween from top to bottom of said bearing surface, portions of said shaft above and below said bearingsurface being of reduced diameter to increase the volume of fuel retainable by the cup above and below the bearing surface, and said rotor having an axial passage therethrough opening, at its lower end to the interior of the cup adjacent the bottom thereof and extendingabove the upper.
end of said bearing surface, said head having means defining delivery passages connected to said axial passage and extending above the upper end of the cup and outwardly therefrom, whereby liquid flowing through said delivery passages from said axial passage is accelerated by centrifugal force upon rotation of said shaft and head, a supply conduit connected to said cup for delivery of liquid fuel into the cup and said axial. passage, a valve controlling flow of liquid'into said cup and upwardly through the axial passage of said shaft, means operative to drive said rotor, and means for closing said valve and rendering said driving means inoperative substantially simultaneously,
. an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed. below the upper open end: of the cup, whereby the cup 'defines a liquid re taining reserwoirextending above the upper end of said sleeve for submerging thesleev'aa rotor comprising a vertical shaft and a distributor-head attached to the upper end of the shaft, said shaft being jo-urnaled in saidv bearing surface s with sufficient clearance to at least accommodate a continuous film of said liquid fuel therebetween from top to bottom of said bearing surface, and said rotor having an axial passage therethrough opening at its lower end to the interior of the cup adjacent the bottom thereof and extending above the upper end of said bearing surface, said head having means defining delivery passages connected to said axial passage and extending above the upper end of the cup and outwardly therefrom, whereby liquid flowing through said delivery passages from said axial passage is accelerated by centrifugal force upon rotation of said shaft and head, asupply conduit connected to said cup for delivery of liquid fuel into the cup and said axial passage, a valve controlling flow of liquid into said cup and upwardly through the axial passage of said shaft, an electric motor operatively connected to said rotor for driving the same, and electrical means for closing said valve and rendering said driving means inoperative substantially simultaneously, whereby the volume of liquid remaining in said cup when said rotor is stationary is sufficient to substantially completely submerge said bearing surface.
*6. A fuel feeder according to claim 1 in which an opening in said shaft is provided adjacent the upper end of said sleeve for maintaining communication between the axial passage through the shaft and the upper portion of said reservoir.
7. A fuel feeder according to claim 4 in which said shaft is provided with an opening adjacent the upper end of said sleeve for maintaining communication between the axial passage through the shaft and the upper portion of said reservoir.
8. A fuel feeder according to claim 1 in which the clearance between said shaft and said bearing surface is enlarged in at least one region between the upper and lower ends of the sleeve to provide additional liquid reservoir space.
9. A fuel feeder according to claim 1 in which a helical oil feeding groove is provided in the outer surface of said shaft between the upper and lower ends of said sleeve.
10. A fuel feeder according to claim 1 in which a helical oil feeding groove is provided in the outer surface of said shaft, said groove extending downwardly fro-m the upper end of said bearing surface.
11. A fuel feeder according to claim 4 in which a helical oil feeding groove is provided in the outer surface of said shaft, said groove extending substantially continuously from the upper end to the lower end of said bearing surface.
12. A liquid fuel feeder comprising asupport, an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed below the upper open end of the cup, said cup defining a liquid fuel retaining reservoir having upper and lower portions between which said bearing sleeve extends, a rotor comprising a vertical shaft that is journaled in said sleeve and a distributor head attached to the upper end of the shaft, said shaft and sleeve having sufficient clearance to at least accommodate a continuous film of said liquid therebetween, said shaft having an external helical groove that communicates at its upper end-with said upper portion of the liquid reservoir and at its lower end with said lower portion of the liquid reservoir, said-shaft having an axial passage therein opening at its lower end to said lower portion of theliquid reservoir and extending above said bearing sleeve, said head having laterally .extending delivery passages connected to said axial passage for discharging liquid therefrom by centrifugal force; means for driving said rotor'in a.
direction to cause downward flow of liquid in said groove from said upper portion of said reservoir to the lower portion thereof, means for continuously delivery liquid fuel into said upper portion ofsaid reservoir exteriorly of said shaft during rotation of said rotor, whereby liquid is continuously pumped through said groove from said upper portion of said reservoir to the lower portion thereof during said rotation, and means for limitin reverse flow of liquid fuel out of said cup to maintain liquid in said groove when said rotor is stationary, whereby downward flow of liquid through the groove is started immediately upon rotation of the rotor. V V y 13. A liquid fuel feeder comprising a support. an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed below the upper open end of the cup, said cup defining a liquid fuel retaining reservoir having upper and lower portions between which said bearing sleeve extends, a rotor comprising a vertical shaft that is journaled for rotation in said sleeve and a distributor head attached to the upper end of the shaft, said shaft havinga portion of reduced diameter intermediate the ends of said sleeve providing an intermediate reservoir space, said shaft having bearing portions above and below said reduced portion, the upper of said bearing portions having an external helical groove that extends the full length thereof, said shaft being formed to provide a passage between said intermediate space and said lower portion of the liquid reservoir and having an axial passage therein extending above said bearing sleeve and opening to said upper and lower portions of the liquid reservoir, said distributor head having laterally extending delivery passages connected to said axial passage for discharging liquid therefrom by centrifugal force, means for continuously delivering liquid fuel into said upper portion of said reservoir during rotation of said rotor, means for driving said rotor in a direction to cause downward flow of liquid in said groove whereby liquid is continuously pumped through said groove from said upper portion of said reser voir to the lower portion thereof during rotation of said rotor, and means for limiting reverse flow of liquid fuel out of said cup to maintain liquidin said groove during idle periods of the rotor,
whereby downward flow of liquid through the groove is started immediately upon rotation of the rotor.
14. A liquid fuel feeder comprising a support, an axially elongated, upright, open top cup rigidly mounted on said support and including means defining a vertically disposed bearing sleeve within the cup, the upper end of said bearing sleeve being disposed below the upper open end of the cup, said cup defining a liquid fuel retaining reservoir having upper and lower portions between which said bearing sleeve extends, a rotor comprising a vertical shaft that is journ'aled in said sleeve and a distributor head attached to the upper end of the shaft, said shaft and sleeve having sufficient clearance between them to at least accommodate a continuous film of said liquid ,therebetween, said shaft having an axial passage therein opening at its lower end to said lower portion of the liquid reservoir and extending to the upper end of the shaft, said passage having an upper end portion that flares upwardly from adjacent the top of said sleeve to the upper end of said shaft, said head having laterally extending delivery passages connected to the flared upper end of said axial passage for discharging liquid therefrom by centrifugal force, means for driving said rotor, means for rendering said driving means inoperative, means for delivering liquid fuel into said cup at a rate sufilcient to maintain a level of liquid in the cup above the lower end of said flared portion of said passage while said rotor is being driven, and means for limiting reverse ilow of liquid fuel out of said cup for maintaining the liquid level within the cup adjacent the upper end of said sleeve when said rotor is stationary.
WILLIAM J. SMITH, JR.
10 REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 1,928,688 Hayward Oct. 3, 1933 1,967,034 Lipman July 17, 1934 2,025,526 Rodler Dec. 24; 1935 2,056,936 Hayward Oct. 13, 1936 2,073,547 Berry Mar. 9, 1937 2,181,249 Powers Nov. 28, 1939 2,207,002 Doeg July 9, 1940 2,310,333 Wilson et al Feb. 9, 1943
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US765665A US2592612A (en) | 1947-08-02 | 1947-08-02 | Rotary fuel feeder for flame ring burners |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US765665A US2592612A (en) | 1947-08-02 | 1947-08-02 | Rotary fuel feeder for flame ring burners |
Publications (1)
Publication Number | Publication Date |
---|---|
US2592612A true US2592612A (en) | 1952-04-15 |
Family
ID=25074165
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US765665A Expired - Lifetime US2592612A (en) | 1947-08-02 | 1947-08-02 | Rotary fuel feeder for flame ring burners |
Country Status (1)
Country | Link |
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US (1) | US2592612A (en) |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2770070A (en) * | 1952-12-24 | 1956-11-13 | Fmc Corp | Agricultural pesticide distributing apparatus |
US2873684A (en) * | 1956-03-27 | 1959-02-17 | Gen Electric | Pump motor assembly |
US3252497A (en) * | 1964-05-15 | 1966-05-24 | Mcgillis Heating Service Inc | Portable space heater employing rotary discharge burner |
US3489469A (en) * | 1967-11-20 | 1970-01-13 | King Of Prussia Research & Dev | Submerged bearing assembly |
US5088899A (en) * | 1989-11-09 | 1992-02-18 | Arthur Pfeiffer Vakuumtechnik Wetzlar Gmbh | Pump with drive motor |
US5624244A (en) * | 1995-07-25 | 1997-04-29 | Daewoo Electronics Co., Ltd. | Circulating pump for cooling water to be forcibly circulated |
US20120017735A1 (en) * | 2010-07-22 | 2012-01-26 | Makita Corporation | Cutting tools having movable cover mounting structures |
US20140050594A1 (en) * | 2009-09-21 | 2014-02-20 | Flowserve Management Company | Radial bearings for deep well submersible pumps |
JP2016130491A (en) * | 2015-01-14 | 2016-07-21 | 三菱重工業株式会社 | Rotary shaft mechanism and pump |
US20200191042A1 (en) * | 2018-12-13 | 2020-06-18 | General Electric Company | Liquid driven thermal module and thermal management system |
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Publication number | Priority date | Publication date | Assignee | Title |
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US1928688A (en) * | 1931-10-08 | 1933-10-03 | Irving M Hayward | Oil burner |
US1967034A (en) * | 1930-05-19 | 1934-07-17 | Lipman Patents Corp | Motor compressor unit |
US2025526A (en) * | 1932-11-02 | 1935-12-24 | Oil Equipment Lab Inc | Oil burning device |
US2056936A (en) * | 1934-06-01 | 1936-10-13 | Irving M Hayward | Motor-pump unit |
US2073547A (en) * | 1935-08-06 | 1937-03-09 | Paul F Berry | Pump |
US2181249A (en) * | 1936-08-11 | 1939-11-28 | Timken Axle Co Detroit | Pump for liquid fuel burning apparatus |
US2207002A (en) * | 1938-06-20 | 1940-07-09 | Nash Kelvinator Corp | Fuel oil pump |
US2310333A (en) * | 1940-10-12 | 1943-02-09 | Timken Axle Co Detroit | Liquid fuel burning apparatus |
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1947
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Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
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US1967034A (en) * | 1930-05-19 | 1934-07-17 | Lipman Patents Corp | Motor compressor unit |
US1928688A (en) * | 1931-10-08 | 1933-10-03 | Irving M Hayward | Oil burner |
US2025526A (en) * | 1932-11-02 | 1935-12-24 | Oil Equipment Lab Inc | Oil burning device |
US2056936A (en) * | 1934-06-01 | 1936-10-13 | Irving M Hayward | Motor-pump unit |
US2073547A (en) * | 1935-08-06 | 1937-03-09 | Paul F Berry | Pump |
US2181249A (en) * | 1936-08-11 | 1939-11-28 | Timken Axle Co Detroit | Pump for liquid fuel burning apparatus |
US2207002A (en) * | 1938-06-20 | 1940-07-09 | Nash Kelvinator Corp | Fuel oil pump |
US2310333A (en) * | 1940-10-12 | 1943-02-09 | Timken Axle Co Detroit | Liquid fuel burning apparatus |
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2770070A (en) * | 1952-12-24 | 1956-11-13 | Fmc Corp | Agricultural pesticide distributing apparatus |
US2873684A (en) * | 1956-03-27 | 1959-02-17 | Gen Electric | Pump motor assembly |
US3252497A (en) * | 1964-05-15 | 1966-05-24 | Mcgillis Heating Service Inc | Portable space heater employing rotary discharge burner |
US3489469A (en) * | 1967-11-20 | 1970-01-13 | King Of Prussia Research & Dev | Submerged bearing assembly |
US5088899A (en) * | 1989-11-09 | 1992-02-18 | Arthur Pfeiffer Vakuumtechnik Wetzlar Gmbh | Pump with drive motor |
US5624244A (en) * | 1995-07-25 | 1997-04-29 | Daewoo Electronics Co., Ltd. | Circulating pump for cooling water to be forcibly circulated |
US20140050594A1 (en) * | 2009-09-21 | 2014-02-20 | Flowserve Management Company | Radial bearings for deep well submersible pumps |
US9011115B2 (en) * | 2009-09-21 | 2015-04-21 | Flowserve Management Company | Radial bearings for deep well submersible pumps |
US20120017735A1 (en) * | 2010-07-22 | 2012-01-26 | Makita Corporation | Cutting tools having movable cover mounting structures |
JP2016130491A (en) * | 2015-01-14 | 2016-07-21 | 三菱重工業株式会社 | Rotary shaft mechanism and pump |
US20200191042A1 (en) * | 2018-12-13 | 2020-06-18 | General Electric Company | Liquid driven thermal module and thermal management system |
US10746084B2 (en) * | 2018-12-13 | 2020-08-18 | General Electric Company | Liquid driven thermal module and thermal management system |
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