US1675002A - Fuel burner - Google Patents

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US1675002A
US1675002A US184512A US18451227A US1675002A US 1675002 A US1675002 A US 1675002A US 184512 A US184512 A US 184512A US 18451227 A US18451227 A US 18451227A US 1675002 A US1675002 A US 1675002A
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fuel
spray
chamber
plate
nozzle
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US184512A
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Philip H Steiner
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23DBURNERS
    • F23D11/00Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space
    • F23D11/24Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space by pressurisation of the fuel before a nozzle through which it is sprayed by a substantial pressure reduction into a space
    • F23D11/26Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space by pressurisation of the fuel before a nozzle through which it is sprayed by a substantial pressure reduction into a space with provision for varying the rate at which the fuel is sprayed
    • F23D11/28Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space by pressurisation of the fuel before a nozzle through which it is sprayed by a substantial pressure reduction into a space with provision for varying the rate at which the fuel is sprayed with flow-back of fuel at the burner, e.g. using by-pass
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23DBURNERS
    • F23D11/00Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space
    • F23D11/24Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space by pressurisation of the fuel before a nozzle through which it is sprayed by a substantial pressure reduction into a space
    • F23D11/26Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space by pressurisation of the fuel before a nozzle through which it is sprayed by a substantial pressure reduction into a space with provision for varying the rate at which the fuel is sprayed
    • F23D11/30Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space by pressurisation of the fuel before a nozzle through which it is sprayed by a substantial pressure reduction into a space with provision for varying the rate at which the fuel is sprayed with return feed of uncombusted sprayed fuel to reservoir

Definitions

  • My invention has for its object the atomization, and the selection of the most finely divided portion of the atomized vapor for combustion, and the collection and the return of the coarser or heavier constituents of the vaporized fuel to be again passed through the atomizing means of the burner.
  • the burner of my invention is particularly adapted' to the burning of hydrocarbon oils but may also be used with Huid or colloidal fuels.
  • Another object is a device of the character described wherein the atomizing nozzle is adjustable with respect to the selecting plate through which thel vapor to be burned is allowed to pass.
  • Another object is a heat screen for the said selecting plate to screen the latter from high radiant heat occasioned by the burning vapor.
  • Another object is the employment of suitable drain means from between the selecting plate and'v the heat screen and from the atomizing chamber for returning the coarser constituents of the atomized fuel to the fuel sump or reservoir.
  • rlhe said plate is spaced fromthe said nozzle and the rotary movement of the issuing vapor and the consequent action of centrifugal force on the vapor particles causes the heavier particles thereof to travel outward more rapidly than the lighter particles of the said vapor. rlhere will therefore be retained in the central portion of the atomized stream the finer divided particles of fuel and these only are selected and passed through the opening of the aforesaid plate, all of the heavier particles being returned to the 'sump or fuel supply reservoir to be again passed through the atomizing nozzle.
  • Fig. 1 is a longitudinal cross section through one form of a burner employing my invention.
  • Fig. 2 is a cross section through a portionl of Fig. 1 and on the/line Ill-lll thereof.
  • Fig. 3 is a rear view of Fig. 1.
  • F ig. 4 is a plan of the ratchet for holding the adjusting means of the ⁇ burner of Fig. 1.
  • Fig. 5 is a diagrammatic assembly ofthe burner of Fig. 1 with a reservoir and pump.
  • rllhe body portion of the burner is shown by the numeral 1 adapted to be supplied with fluid or colloidal fuel through the tube 2 in the direction of the arrow 3 from any conventional source, as lthe reservoir 40 and pump45.
  • 'fuel nipple is shown at 4, slidable in the body 1, and having at its outer end any form of atomizing nozzle adapted to give a whirling or rotary movement to the issuing atomized fuel.
  • the nozzle 5 provided with the atomizing outlet 6 receives fuel from the nipple et through the channel ways 7, 8 positioned od center to cause the fuel in the passage 9 to rotate and to continue to rotate as it issues through the atomizing outlet 6 forming the-fuel vapor cone between .the lines 10, 11.
  • a burner plate having a central opening 15 through which only the finer portions of the-atomized fuel are admitted to pass, all other portions of the atomized fuel collecting within the chamber 16 and being returned through the passage 17 in the direc ⁇ tion of the arrow 18 to the fuel sump or reservoir 40 or supply not shown but well known.
  • At 22 is a disc having an opening 23 permitting the finer fuel stream which passes through the opening 'to proceed through the plate and form the burning fuel stream 24.
  • This disc 22 forms a heat screen for the plate 14. There is thus provided an air space 25 between the heat screen 22 and the plate 14'within which more or less condensation will from time to time occur and this is also drained back into the fuel sump 17 through the passageway 26.
  • Adjustment of the size of the issuing vapor jet 24 is effected by moving the nipple 4 and therefore the nozzle 5 with respect to the plate 14; and the means whichI have shown for accomplishin this in the selected type of burner here set orth, consists of adjusting' the screw actuated by the hand wheel 31 whereby the nipple is withdrawn further from or advanced into the chamber 16; issuing fuel vapor 24 being in greater quantity as the nozzle 5 is moved towards the plate 14 and of lesser quantity as it is separated In Fig. 1 the parts are shown ⁇ in their extreme position for the smaller vapor stream 24. f
  • V The heavier particles lcollect on the walls of the chamber 16 and are prevented by the dividing edge 20 and gutter 21 from becoming entrained in the stream 24 and are returned to the sumpthrough the discharge port 17.
  • Such fuel as condenses within the space 25 is likewise returned through the ports 26 and 17, to the sump.
  • the plate 14 is shielded from the high radiant heat of the burning jet 24 by the heat screen 22.
  • the nozzle is adjusted to give a larger or smaller.
  • j-et 24 by shifting it either by the pilot adjustment of the hand wheel 31 and screw 30 or by the hand lever 32 actuating lected from the ⁇ said spray the more finely atomized portion and therefore that ortion which will burn with the greatest eiiiciency.
  • Thevadjustment of the nozzle 5 with respect to the plate 14 being withdrawn therefrom or advanced towards the said plate but retaining the openings 6, 15 and 23 in axial alignment at all times enables an adjustment of the size of the issuing 'jet 24 to be regulated with the utmost precision at any time during the operation of the burner.
  • a burner comprising a body having a chamber therein,
  • a plate having an aperture substantially aXio an. atomizlng nozzlev adapted to project fuel witha rotary mo the slide 37 and carrying with it the screw j lll) ally aligned with said nozzle whereby the center portion of said spray is passed through said aperture and the remainder of said fuel spray is collected in said chamber, a passage from said chamber by which said collected .fuel spray is drained, a fuel supply reservoir into which said passage discharges.
  • a burner comprising a body having a Vchamber therein, an atomizing nozzle adapted to project fuel with a rotary motion and as a conical shaped spray into said chamber,
  • torneos a plate having an aperture substantially axially aligned with said nozzle whereby the center portion of said spray is passed through said aperture and the remainder of said fuel spray is collected in said chamber, a assage from said chamber by which said co lected fuel spray is drained, a fuel supply reservoir into which said passage discharges and a pump interposed between said reservoir and said nozzle ada ted to establish pressure to project the sai spray.
  • a burner comprising a body having a chamber therein. an atomizing nozzle adapted to project fuel with a rotary motion and as a conical shaped spray into said chamber, a plate having an aperture substantially axially aligned with said nozzle whereby the center portion of said spray is passed through said aperture and the remainder of said fuel spray is collected in said chamber, a passage from said chanil r by which said collected fuel spray is dra Qd, a heat screen beyond and spaced from said plate and having an aperture in said axial alignment to admit the projection of said center portion of said spray and a discharge duct from the space between the plate and the heat screen to return condensed spray therein to a reservoir, a fuel reservoir into which said passage and said duct are adapted to drain and means constructed and adapted to abstract fuel from said reservoir and project the same through said nozzle.
  • a burner comprising a body having a chamber therein, an atomizing nozzle adapted to project fuel with a rotary motion and as a conical shapedV spray into said chamber, a plate ⁇ having an aperture substantially axially aligned with said nozzle whereby the center portion of said spray is passed through said aperture and the remainder of said fuel spray is collected in said chamber, a passage from said chamber by which said center )ortion of said sra assinv' through said aperture.
  • a burner comprising a body having a chamber therein, an atoinizing nozzle adapted to project fuel with a rotary motion and as a conical shaped spray into said chamber, a plate having an aperture substantially axially aligned with said nozzle whereby the center portion of said spray is passed through said aperture and the remrainder of said fuel spray is collected in said chamber, a passage from said chamber by which said collected fuel spray is drained, a fuel supply reservoir into which said passage discharges, and means for varying the distance between the plate and the nozzle to vary the volume of said center portion of 'said spray passing through said aperture.
  • a burner comprising a body having a chamber therein, an atoniizing nozzle adapted to project. fuel with a rotary motion and as a conical shaped spray into said chainber, a plate having an aperture substantially axially aligned with said nozzle whereby the center portion of said spray is passed through said aperture and theremainder of said fuel .sprai is collected in said chamber. a passage from said chamber by which said collected fuel spray is drained, a fuel supply reservoir into which said passage discharges and a pump interposed between said reservoir and said nozzle adapt-ed to establish pressure to project the said spray, and means for varying the distance between the plate and the nozzle to 'vary the volume of said center portion of said spray passing through said aperture.
  • l2. l burner comprising a body khaving a chamber therein, an atoinizing nozzle adapted to project fuel with aA rotary motion and as a conical shaped spray into said chamber, a plate having an aperture substantially axially aligned with said nozzle whereby the center portion of said spray is passed through said aperture and the remainder of said fuel spray is collected in said chamber, a passage from said chamber by which said collected fuel spray is drained, a heat screen beyond and spaced from said plate and having an aperturein said axial alignment to admit the projection of said center portion of said spray and a discharge duct from the space between the plate and the-heat screen to return condensed spray therein to a reservoir, a fuel reservoir into which said passage and said duct are adapted to drain and means constructed and adapted to abstract fuel from said reservoir and project the same through said nozzle, and means for varying the distance between the plate and the nozzle to vary the volume of said center portion of said spray passing through said aperture.
  • the methol of producing a selected fuel spray from a burner which consists of causing the fuel to be atoniized as a conical spray and then selecting from said conical sprayl the center portion to be burned and collecting lthe other portion of said spray fuel spray from a burner which consists of causing the fuel to he aloinizcd as a conical spray and thcn selecting from said conical spray the ccntcr portion to he lin-ned and collectingl thc other portion of said spi-a5 and again passing said collected portion through said nozzle with additional fuel.

Description

Patented June 2d, 1928.
NETE@ STATES PHILIP E. STEINER, OIF SAN FRANCISCO, CALEORNIA.
rezar. Brianna.
application mea 'april is, raar. serial no. 184,512.
My invention has for its object the atomization, and the selection of the most finely divided portion of the atomized vapor for combustion, and the collection and the return of the coarser or heavier constituents of the vaporized fuel to be again passed through the atomizing means of the burner.
The burner of my invention is particularly adapted' to the burning of hydrocarbon oils but may also be used with Huid or colloidal fuels.
Another object is a device of the character described wherein the atomizing nozzle is adjustable with respect to the selecting plate through which thel vapor to be burned is allowed to pass.
Another object is a heat screen for the said selecting plate to screen the latter from high radiant heat occasioned by the burning vapor.
Another object is the employment of suitable drain means from between the selecting plate and'v the heat screen and from the atomizing chamber for returning the coarser constituents of the atomized fuel to the fuel sump or reservoir.
@ther objects will appear from the drawings and specifications which follow rllhese objects ll accomplish by atomizing the oil or .other fuel in a chamber while projecting the vapor with considerable velocity towards and portions of it throu h, an opening axially aligned therewith, an causing the said vapor to take on a rotary movement to facilitate the dividin of the vapor stream into relatively ner an coarser vapor or liquid particles by centrifugal force.
rlhe said plate is spaced fromthe said nozzle and the rotary movement of the issuing vapor and the consequent action of centrifugal force on the vapor particles causes the heavier particles thereof to travel outward more rapidly than the lighter particles of the said vapor. rlhere will therefore be retained in the central portion of the atomized stream the finer divided particles of fuel and these only are selected and passed through the opening of the aforesaid plate, all of the heavier particles being returned to the 'sump or fuel supply reservoir to be again passed through the atomizing nozzle.
Fig. 1 is a longitudinal cross section through one form of a burner employing my invention.
Fig. 2 is a cross section through a portionl of Fig. 1 and on the/line Ill-lll thereof.
Fig. 3 is a rear view of Fig. 1.
F ig. 4 is a plan of the ratchet for holding the adjusting means of the `burner of Fig. 1.
Fig. 5 is a diagrammatic assembly ofthe burner of Fig. 1 with a reservoir and pump.
Throughout the figures similar numerals refer to identical parts.
rllhe body portion of the burner is shown by the numeral 1 adapted to be supplied with fluid or colloidal fuel through the tube 2 in the direction of the arrow 3 from any conventional source, as lthe reservoir 40 and pump45.
'fuel nipple is shown at 4, slidable in the body 1, and having at its outer end any form of atomizing nozzle adapted to give a whirling or rotary movement to the issuing atomized fuel.
ln the form here selected the nozzle 5 provided with the atomizing outlet 6 receives fuel from the nipple et through the channel ways 7, 8 positioned od center to cause the fuel in the passage 9 to rotate and to continue to rotate as it issues through the atomizing outlet 6 forming the-fuel vapor cone between .the lines 10, 11.
Due to this rotation of the vapor cone the heavier particles will be thrown out adjacent the lines 10 and 11 and the finer particles or more perfectly atomized portions will be found between the limits indicated by the lines 12, 13, the vapor being finest on the axial center and having progressively coarser portions as the lines 10 and 11 are approached. At 14 is a burner plate having a central opening 15 through which only the finer portions of the-atomized fuel are admitted to pass, all other portions of the atomized fuel collecting within the chamber 16 and being returned through the passage 17 in the direc` tion of the arrow 18 to the fuel sump or reservoir 40 or supply not shown but well known.
To prevent the heavier fuel which has .once been separated from the path 12, 13
from returning down the sloping surface 19 of the plate 14 and becoming entrained by the selectedispray passing through the opening 15, l introduce the bale 20which diverts the heavier portions to each side of the chamber 16 above the plate 14 and I also introduce a gutter edge 21 to prevent such oil as collects on the surface 19 from flowing down farther from the plate 14.
and becoming entrained in the finer selected vapor.
At 22 is a disc having an opening 23 permitting the finer fuel stream which passes through the opening 'to proceed through the plate and form the burning fuel stream 24. This disc 22 formsa heat screen for the plate 14. There is thus provided an air space 25 between the heat screen 22 and the plate 14'within which more or less condensation will from time to time occur and this is also drained back into the fuel sump 17 through the passageway 26.
Adjustment of the size of the issuing vapor jet 24 is effected by moving the nipple 4 and therefore the nozzle 5 with respect to the plate 14; and the means whichI have shown for accomplishin this in the selected type of burner here set orth, consists of adjusting' the screw actuated by the hand wheel 31 whereby the nipple is withdrawn further from or advanced into the chamber 16; issuing fuel vapor 24 being in greater quantity as the nozzle 5 is moved towards the plate 14 and of lesser quantity as it is separated In Fig. 1 the parts are shown `in their extreme position for the smaller vapor stream 24. f
The pilot adjustment by thehand wheel 31 above described, after having once been made is not disturbed except under abnormal conditions, the more frequent adjustment being effected by the hand lever 32 fulcrumed at 33 and held in any adjusted position for the desired size of fiame by the latch 34 and ratchet teeth 35.
rlhe operation isv as follows:
Fuel enters in the direction of the arrow 3 passing through the nipple 4 thence through the oiset passages 7 and 8 into the nozzle passage 9, where it is now whirling with considerable velocity due to the offset of the openings 7 and 8. lt now issues from the nozzle 6 as a line spray which spray consists of relatively finer particles and relatively coarser particles.
Due to fthe rotation of the spray the heavier particles are thrown out and the finer particles are confined as'between the lines 12,
13. The latter therefore pass freely through the openings 15, 23 forming the fuel jet 24 which burns with the highest degree of eilic iency because of its fine division or atomizat1on.
V The heavier particles lcollect on the walls of the chamber 16 and are prevented by the dividing edge 20 and gutter 21 from becoming entrained in the stream 24 and are returned to the sumpthrough the discharge port 17.
Such fuel as condenses within the space 25 is likewise returned through the ports 26 and 17, to the sump.
The plate 14 is shielded from the high radiant heat of the burning jet 24 by the heat screen 22.
The nozzle is adjusted to give a larger or smaller. j-et 24 by shifting it either by the pilot adjustment of the hand wheel 31 and screw 30 or by the hand lever 32 actuating lected from the`said spray the more finely atomized portion and therefore that ortion which will burn with the greatest eiiiciency.
Thevadjustment of the nozzle 5 with respect to the plate 14 being withdrawn therefrom or advanced towards the said plate but retaining the openings 6, 15 and 23 in axial alignment at all times enables an adjustment of the size of the issuing 'jet 24 to be regulated with the utmost precision at any time during the operation of the burner.
Other forms of nozzle giving a rotary projected spray may be employed, as for eX- ample one in which the nozzle itself is rotated, without departing from the spirit of my invention. I
l claim: 1. A burner comprising a body having a chamber therein,
as a conical shaped spray into said chamber,v
a plate having an aperture substantially aXio an. atomizlng nozzlev adapted to project fuel witha rotary mo the slide 37 and carrying with it the screw j lll) ally aligned with said nozzle whereby the center portion of said spray is passed through said aperture and the remainder of said fuel spray is collected in said chamber, a passage from said chamber by which said collected .fuel spray is drained, a fuel supply reservoir into which said passage discharges.
3. A burner comprising a body having a Vchamber therein, an atomizing nozzle adapted to project fuel with a rotary motion and as a conical shaped spray into said chamber,
torneos a plate having an aperture substantially axially aligned with said nozzle whereby the center portion of said spray is passed through said aperture and the remainder of said fuel spray is collected in said chamber, a assage from said chamber by which said co lected fuel spray is drained, a fuel supply reservoir into which said passage discharges and a pump interposed between said reservoir and said nozzle ada ted to establish pressure to project the sai spray.
4. A burner comprising a body having a chamber therein. an atomizing nozzle adapted to project fuel with a rotary motion and as a conical shaped spray into said chamber, a plate having an aperture substantially axially aligned with said nozzle whereby the center portion of said spray is passed through said aperture and the remainder of said fuel spray is collected in said chamber, a passage from said chanil r by which said collected fuel spray is dra Qd, a heat screen beyond and spaced from said plate and having an aperture in said axial alignment to admit the projection of said center portion of said spray and a discharge duct from the space between the plate and the heat screen to return condensed spray therein to a reservoir, a fuel reservoir into which said passage and said duct are adapted to drain and means constructed and adapted to abstract fuel from said reservoir and project the same through said nozzle.
5. Apparatus as set forth in claim l wherein said plate is of conical shape and is provided with means preventing the fuel collected within the chamber 'from entrainment with the said center portion of said spray.
o. Apparatus as set forth in claim 2 wherein said plate is of conical shape and is provided with means preventing the fuel collected within the chamber from entrainnient with the said center portion of said spray.
7. Apparatus as set forth in claim .3 wherein said plate is of conical shape and is provided with means preventing the fuel collected within the chamber from entrainment with the said center portion of said spray.
8. Apparatus as set forth in claim d wherein said plate is of conical shape and is provided with means preventing the fuel collected within the chamber from entrainment with the said center portion of said spray.
9. A burner comprising a body having a chamber therein, an atomizing nozzle adapted to project fuel with a rotary motion and as a conical shapedV spray into said chamber, a plate` having an aperture substantially axially aligned with said nozzle whereby the center portion of said spray is passed through said aperture and the remainder of said fuel spray is collected in said chamber, a passage from said chamber by which said center )ortion of said sra assinv' through said aperture.
lll. A burner comprising a body having a chamber therein, an atoinizing nozzle adapted to project fuel with a rotary motion and as a conical shaped spray into said chamber, a plate having an aperture substantially axially aligned with said nozzle whereby the center portion of said spray is passed through said aperture and the remrainder of said fuel spray is collected in said chamber, a passage from said chamber by which said collected fuel spray is drained, a fuel supply reservoir into which said passage discharges, and means for varying the distance between the plate and the nozzle to vary the volume of said center portion of 'said spray passing through said aperture.
ll. A burner comprising a body having a chamber therein, an atoniizing nozzle adapted to project. fuel with a rotary motion and as a conical shaped spray into said chainber, a plate having an aperture substantially axially aligned with said nozzle whereby the center portion of said spray is passed through said aperture and theremainder of said fuel .sprai is collected in said chamber. a passage from said chamber by which said collected fuel spray is drained, a fuel supply reservoir into which said passage discharges and a pump interposed between said reservoir and said nozzle adapt-ed to establish pressure to project the said spray, and means for varying the distance between the plate and the nozzle to 'vary the volume of said center portion of said spray passing through said aperture. l
l2. l burner comprising a body khaving a chamber therein, an atoinizing nozzle adapted to project fuel with aA rotary motion and as a conical shaped spray into said chamber, a plate having an aperture substantially axially aligned with said nozzle whereby the center portion of said spray is passed through said aperture and the remainder of said fuel spray is collected in said chamber, a passage from said chamber by which said collected fuel spray is drained, a heat screen beyond and spaced from said plate and having an aperturein said axial alignment to admit the projection of said center portion of said spray and a discharge duct from the space between the plate and the-heat screen to return condensed spray therein to a reservoir, a fuel reservoir into which said passage and said duct are adapted to drain and means constructed and adapted to abstract fuel from said reservoir and project the same through said nozzle, and means for varying the distance between the plate and the nozzle to vary the volume of said center portion of said spray passing through said aperture.
13. Apparatus as set forth in claim 9 wherein said plate is ot conical shape and is provided with means preventingany of the fuel collected Within the chamber from entrainnicnt with the ccnter portion of said spray.
14. Apparatus as set forth in claim Al() wherein said plaie is of conical shape and is provided with means preventing any of the fuel collected within the chamber from entrainnient with the center portion of said spray.
15. Apparatus as sct forth in claim 11 wherein said plate is of conical shape and is provided with means preventing any of the fuel collected within the chamber from entrainment with the `center portion of said spray.
16. Apparatus as set forth in claim 12 wherein said plate is of conical shape and is provided with means preventing` any of the fuel collected within the chamber from entrainment With the center portion of said spray. p
17. The methol of producing a selected fuel spray from a burner which consists of causing the fuel to be atoniized as a conical spray and then selecting from said conical sprayl the center portion to be burned and collecting lthe other portion of said spray fuel spray from a burner which consists of causing the fuel to he aloinizcd as a conical spray and thcn selecting from said conical spray the ccntcr portion to he lin-ned and collectingl thc other portion of said spi-a5 and again passing said collected portion through said nozzle with additional fuel.
19. The method of producing` a selected fuel spray from a burner which consists of causing the .fuel to hc. atomized as a conical spray and thcn selecting from said conical spray the centcr portion to be burned and collecting the other portion of said spray and again passing said collected portion through said nozzle and varying the relative quantity of said central portion to suit the load requirement-s of said burner.
20. The method of producing a selected fuel spray from a burner which consists of causing the fuel to' be atoniized as a conical spray and then selecting from said conical spray the center portion to be burned and collecting the other portion of said spray and again passing said -collected portion through said nozzle With additional lfuel and varying the relative quantity of said central portion to suit the load requirements of said burner.
' 'PHlLlP H. STEINER.
US184512A 1927-04-18 1927-04-18 Fuel burner Expired - Lifetime US1675002A (en)

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Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2440084A (en) * 1944-02-04 1948-04-20 Sr Lawrence B Goda Lithograph spray device
US2464089A (en) * 1944-10-11 1949-03-08 Internat Carbonic Engineering Method and apparatus for producing composite solid carbon dioxide
US2484037A (en) * 1945-05-29 1949-10-11 Westinghouse Electric Corp Atomizing structure
US2577238A (en) * 1951-12-04 Oil burner
US2586480A (en) * 1947-10-17 1952-02-19 Ras Max Water atomizer for damping the cylinders in offset printing machines
US2717506A (en) * 1952-12-10 1955-09-13 Servel Inc Ice maker
US2958636A (en) * 1956-09-10 1960-11-01 Philco Corp Method of the application of liquids to solids
US4911267A (en) * 1987-08-31 1990-03-27 Yohwa Trading Co., Ltd. Oiler with drippage preventing device
US5536315A (en) * 1994-07-01 1996-07-16 Fanuc Robotics North America, Inc. Method and system for spraying material in a spray pattern having a variable form and collecting excess material

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2577238A (en) * 1951-12-04 Oil burner
US2440084A (en) * 1944-02-04 1948-04-20 Sr Lawrence B Goda Lithograph spray device
US2464089A (en) * 1944-10-11 1949-03-08 Internat Carbonic Engineering Method and apparatus for producing composite solid carbon dioxide
US2484037A (en) * 1945-05-29 1949-10-11 Westinghouse Electric Corp Atomizing structure
US2586480A (en) * 1947-10-17 1952-02-19 Ras Max Water atomizer for damping the cylinders in offset printing machines
US2717506A (en) * 1952-12-10 1955-09-13 Servel Inc Ice maker
US2958636A (en) * 1956-09-10 1960-11-01 Philco Corp Method of the application of liquids to solids
US4911267A (en) * 1987-08-31 1990-03-27 Yohwa Trading Co., Ltd. Oiler with drippage preventing device
US5536315A (en) * 1994-07-01 1996-07-16 Fanuc Robotics North America, Inc. Method and system for spraying material in a spray pattern having a variable form and collecting excess material

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