US1742732A - Oil burner - Google Patents

Oil burner Download PDF

Info

Publication number
US1742732A
US1742732A US113645A US11364526A US1742732A US 1742732 A US1742732 A US 1742732A US 113645 A US113645 A US 113645A US 11364526 A US11364526 A US 11364526A US 1742732 A US1742732 A US 1742732A
Authority
US
United States
Prior art keywords
openings
plates
plate
casing
head
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
US113645A
Inventor
Carl A Stenvig
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.)
Individual
Original Assignee
Individual
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 Individual filed Critical Individual
Priority to US113645A priority Critical patent/US1742732A/en
Application granted granted Critical
Publication of US1742732A publication Critical patent/US1742732A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • 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
    • F23D11/10Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space the spraying being induced by a gaseous medium, e.g. water vapour
    • F23D11/101Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space the spraying being induced by a gaseous medium, e.g. water vapour medium and fuel meeting before the burner outlet
    • F23D11/102Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space the spraying being induced by a gaseous medium, e.g. water vapour medium and fuel meeting before the burner outlet in an internal mixing chamber
    • F23D11/103Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space the spraying being induced by a gaseous medium, e.g. water vapour medium and fuel meeting before the burner outlet in an internal mixing chamber with means creating a swirl inside the mixing chamber

Definitions

  • Figure 1 is a longitudinal section of an apparatus embodying'the invention
  • Figure 2 is an elevation of the structure whereby the spiral paths are formed
  • Figure 3 is a detached view of the spreader end plate
  • Figure 4 is a view of one ofthe path-forming plates
  • Figures 5 and 6 are views showing the plate rings separated, and' Figures 7 and 8 are views of the nozzle.
  • the main body of the device is a cylinder 1 provided with annular flanges 2, 3, at its ends.
  • a head 4 is bolted to the flange 2-is bolted a head 4, as shown, said head having an opening 5 in its inner end establishing communication between the interior of the cylinder and a chamher 6 in the head.
  • a pipe 7 which is equipped with a cut-off and regulating valve'8 and de-' livers an atomizing agent or pressure fluid, as steam or compressed air, to the chamber 6.
  • the lateral nipple or branch 9 of an elbow or coupling '10 through which fuel under pressure is delivered to the cylinder 1 from a fuel supply pipe 11, amt-off valve l2'beingprovided in said pipe,-as will be understood.
  • the branch 9 is provided with a reduced extension 13 which extends through the chamber 6 and terminateswithin theoutlet opening 5 of the ed on head which; is in-the form ofa large thimble Lpp1ication filed June 4, 1926.
  • a disk valve 14 and the stem 15 of this valve extends through the extension 13, the branch 9, the'outer side of the coupling 10, and a stuffing box 16 on the outer side of the coupling the stem having threaded engagement with the bore of the stufling box and being equipped with a handle 17 on its outer end whereby it may be rotated.
  • the stem when the stem is rotated, its threaded mounting will cause it to move longitudinally and thereby set the valve 14 closer to or farther from the end of the fuel inlet extension 13 to control the volume of oil passing to the cylinder, it being noted that the diameter of the valve is substantially equal to the external diameter of the fuel inlet 13'so that the fuel is discharged radially and the steam or air, flowing along the inlet will meet the oil at a right angle to break it up and blow it into the cylinder.
  • the fuel will emerge from'between the disk valve 14 and the end of the inlet 13 in a thin stream so that it may be readily atomized, and, that the adjustment of the valve may be known, a graduated collar 18 is securedupon the stem in position to cooperate with a pointer 19 secured to and projecting from the coupling 10 or other convenient fixed support.
  • a ring 20 having its bore flared inwardly and alined axially with the open ing 5, and arranged-concentric with the ring is a, tapered spreader or deflector 21 which projects centrally from a plate 22 which fits snugly within the cylinder against the inner edge of the ring 20.
  • a rod 23 which con'stitutesa support for the pathforming platesiand has its free end 24 reduced and externally threaded.
  • the pathforming plates 25 may be provided in any desired number and are held upon the rod and clamped against the plate 22 by a washer 26 and a nut 27 mounted on the rod, as shown.
  • a central smooth-bored openin 28 in a head-29'and a nut 30 is mountthe rod to-beturned home against said fio axes at a right angle to the axes of the reor circular shell bearing at its open end against the end plate so that when the nut is turned home, the head will be driven against the plates which will then be clamped between the head and the plate 22.
  • a cap plate 31 is bolted to the flange 3 and extends over the end of the cylinder. Long cap bolts 32 are mounted in the cap plate 31 and bear against the head 29 so as to secure the latter in the cylinder and maintain the plates 25 and 22 firmly clamped against the ring 20 and said ring against the head 4.
  • Each path-forming plate consists of an inner thin flat disk 33 having a central opening 34 whereby it may be fitted on the rod 23, and an outer flat-sided ring 35 fitting snugly around the disk and within the cylinder.
  • the plates, each consisting of an inner disk and an outer ring are arranged side'by side upon the rod 23 and in contact so that leakage between them will be avoided, and they are kept in axial alinement by a rod 36 inserted through openings 37 in the rings 35 into a socket 38 in the plate 22, and by a similar rod 39 inserted through openings 40 in the disks 34 into a socket 41 in the plate 22.
  • the washer 26 projects over the end of the rod 39 and the edge of the head 29 covers the end of the rod 36 so that accidental release of the rods cannot occur.
  • cap nuts 42 are fitted to bosses 43 on the plate 31 and cover the heads of said bolts.
  • the plates have openings 44 and 45 formed therethrough and 'so disposed that when the plates are assembled spiral passages will b'ezforme'd extending from the plate 22 to the head 29. All the spiral passages open at one end into the interior of the head 29 and at the opposite end register with the openings 46, '47 in the plate 22.
  • the openings 44 are formed in the inner peripheral edge of the ring 35 by boring, the bit being so disposed that the bore will be formed diagonally with gs' respect to the faces of the ring, but at a right angle to the radius, and will break through the inner periphery of the ring.
  • the openings 45 are formed through the edge of the disk 3-3 in the same manner but with their spectively adjacent openings 44.
  • the edges of the collars and disks are filed out, as indicated at 48 and 49, so that the openings will have a truecircu'lar outline in cross sec tion. "The openings 44 and 45 may be provi'cl 'ed in any desired number but, of course,
  • the head 29 is provided with openings 50 to permit the fuel to pass to the discharge outlet.
  • the plate 31 is formed with acentral boss or nipple 51 in which is secured one end of a discharge pipe or burner tube 52, and on the opposite end of said tube is secured the burner tip or discharge nozzle 53.
  • the said nozzle is a substantially cylindrical body externally tapered to form a flat tip 54 having a diametrical slot 55 therein, the bore of the tip flaring toward the ends of the slot, as shown at :56. j
  • the oil is supplied through the pipe '11 and coupling 10 under pressure, and the escape from the inlet is easily and nicely regulated by setting the valve '14.
  • the atomizing agent meets the escaping oil at the valve 14 at a right angle and immediately effects an initial atomization, blowing the fuel through the opening 5 and mixing therewith.
  • the fluid is deflected by the cone or spreader 21 to the openings 46, '47 and passes through the .sa-me'to enter the spiral passages.
  • the pressure of the atomizing agent will cause the mixed fuel and agent to flow at a high speed through the spiral passages and the centrifugal action will force the hea-vierp'articles of the fuel to the sides of the spirals so that there is a constant atomizing action.
  • the inner and outer spirals intersect or overlap at intervals and the intermingling which occurs at the crossing points causes the overlapping streams to effectually break up the particles of the fuel so that the fluid entering the head 29 will be thoroughly atomized. From “the head '29 the mixture flows through the tube 52 ⁇ to the tip or nozzle 53 where it is ignited.
  • the fuel and atomizing agent in the outer passages is revolved "at high speed by the force of the mixed fuel atomizing agent in the inner passages.
  • the mixed fuel and agent in I the inner passages is likewise revolved at high speed the force of the mixed fuel and agent in the outer passages.
  • the contact of the portions of the two streams at high speed tends to maintain the speed and rotating travel of both. It is obvious that some of the mixture in the outer passages will, at every point of contact with the mixture in the inner passages, be transferred to the inner passages, and vice versa, which means that there is a sudden and violent change of direction of the particles of fuelan important factor in atomization.
  • a cylindrical casing and a plurality of plates secured snugly in the casing with their sides in contact, each plate having reversely arranged oblique openings therethrough and the openings in the series of assembled plates defining a plurality of oppositely disposed spiral passages.
  • a cylindrical'casing a plurality of plates secured snugly in the casing with their adjacent sides in contact, each plate having obliquely disposed openings therethrough and the openings in the series of assembled plates defining a plurality of spiral passages, and means for maintaining the plates in axial alinement and the openings through adjacent plates in register.
  • a cylindrical casing a plurality of plates secured snugly in the casing with their adjacent sides in contact, each plate having obliquely disposed openings therethrough and the openings in the series of assembled plates defining a plurality of spiral passages, and means to prevent rela tive turning movement of the plates.
  • a cylindrical casing a plurality of plates secured snugly in the casing with their adjacent sides in contact, each plate having obliquely disposed openings therethrough and the openings through the series of assembled plates defining a plurality of spiral passages, means to maintain axial alinement of the plates, and means to prevent relative turning movement of the plates.
  • a cylindrical casing a plurality of plates secured snugly in the casing with their opposed sides in contact, each plate having obliquely disposed openings therethrough and the openings in the series of assembled plates defining a plurality of spiral passages, and retaining rods extending longitudinally through all the plates.
  • each plate consisting of a thin flat disk and a thin fiat-sided ring having its inner periphery fitting snugly to the outer periphery of the disk, the disk having oblique openings therethrough at its periphery and the ring having similar openings therethrough at its inner periphery, the openings in the ring being at an angle to the openings in the disk, and theopenings in the series of assembled plates defining a plurality of spiral passages.
  • a cylindrical casing a plate secured in one end of the cylinder and having openings therethrough, means for ad-- mitting oil and an atomizing agent to said end of the casing, a supporting arm extending from the plate axially in the casing, and a plurality of plates fitted on said arm and fitting snugly in the casing, each plate having openings therethrough and the openings in the series of assembled plates defining a plurality of spiral passages leading from the openings in the end plate.
  • a cylindrical casing a plate secured in one end of the casing and having openings therethrough, means for admitting oil and an atomizing agent to said end of the casing, a supporting arm extending from the plate axially in the casing, a plurality of plates fitted on said arm and fitting snugly in the casing, each plate having openings therethrough and the openings in the series of assembled plates defining a plurality of spiral passages leading from the openings in the end plate, the end plate having sockets in its inner side and the other plates having longitudinally disposed openings therethrough alined with said socket, aligning rods inserted through. the longitudinal opening into the sockets, and means to prevent withdrawal of said rods.
  • a cylindrical casing a head closing one end of the casing, means carried by said head to admit oil and an atomizing agent to the casing, a ring in the ends of the casing abutting the head and having an inwardly flared bore, a conical defiector in the casing extending concentrically into the ring in the path of the entering fluid, a mixer body in the casing at the back of said deflector having a plurality of spiral passages therethrough, and means at the opposite end of the casing to secure said body.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Nozzles For Spraying Of Liquid Fuel (AREA)

Description

Jan. 7, 1930. c; A. STENVIG OIL BURNER Filed June 4. 1926 2 Shets-Sheet 2 Patented Jan; 7, 1930 CARL A. STENVIG, OF BELLINGHAM, WASHINGTON OIL BURNER This invention relates to means for utilizlng crude 011 as fuel in heating apparatus and has special reference to the means for atomizingthe fuel. as it flows to the point of ignition. The object of the invention is to provide a novel construction and arrangement whereby the oiland an atomizing agent will be caused to'flow 'in opposed spiral paths to emerge in a fine vapor which readily ignites 0 and will burn Without forming smoke and depositing soot or carbon. The invention also seeks toprovide a burner which will be compact and in which the parts may be easily assembled'or disassembled. The invention is illustrated in the accompanying'drawing and. will be hereinafter fully described, the novel features being particularly defined in the appended claims.
In the drawings, Figure 1 is a longitudinal section of an apparatus embodying'the invention;
Figure 2 is an elevation of the structure whereby the spiral paths are formed;
Figure 3 is a detached view of the spreader end plate;
Figure 4 is a view of one ofthe path-forming plates;
Figures 5 and 6 are views showing the plate rings separated, and' Figures 7 and 8 are views of the nozzle. The main body of the device is a cylinder 1 provided with annular flanges 2, 3, at its ends. To the flange 2-is bolted a head 4, as shown, said head having an opening 5 in its inner end establishing communication between the interior of the cylinder and a chamher 6 in the head. In one side of the head is secured an end of a pipe 7 which is equipped with a cut-off and regulating valve'8 and de-' livers an atomizing agent or pressure fluid, as steam or compressed air, to the chamber 6. In the outer end of the head is secured the lateral nipple or branch 9 of an elbow or coupling '10 through which fuel under pressure is delivered to the cylinder 1 from a fuel supply pipe 11, amt-off valve l2'beingprovided in said pipe,-as will be understood. -The branch 9 is provided with a reduced extension 13 which extends through the chamber 6 and terminateswithin theoutlet opening 5 of the ed on head which; is in-the form ofa large thimble Lpp1ication filed June 4, 1926. Serial No. 113,645.
head, as shown. Over the terminal of the extension 13 is arranged a disk valve 14 and the stem 15 of this valve extends through the extension 13, the branch 9, the'outer side of the coupling 10, and a stuffing box 16 on the outer side of the coupling the stem having threaded engagement with the bore of the stufling box and being equipped with a handle 17 on its outer end whereby it may be rotated. Obviously, when the stem is rotated, its threaded mounting will cause it to move longitudinally and thereby set the valve 14 closer to or farther from the end of the fuel inlet extension 13 to control the volume of oil passing to the cylinder, it being noted that the diameter of the valve is substantially equal to the external diameter of the fuel inlet 13'so that the fuel is discharged radially and the steam or air, flowing along the inlet will meet the oil at a right angle to break it up and blow it into the cylinder. The fuel will emerge from'between the disk valve 14 and the end of the inlet 13 in a thin stream so that it may be readily atomized, and, that the adjustment of the valve may be known, a graduated collar 18 is securedupon the stem in position to cooperate with a pointer 19 secured to and projecting from the coupling 10 or other convenient fixed support. 1
In the end of the cylinder 1 presented-to the head 4 is a ring 20 having its bore flared inwardly and alined axially with the open ing 5, and arranged-concentric with the ring is a, tapered spreader or deflector 21 which projects centrally from a plate 22 which fits snugly within the cylinder against the inner edge of the ring 20. Extending centrally from the inner side of the plate 22 is a rod 23which con'stitutesa support for the pathforming platesiand has its free end 24 reduced and externally threaded. The pathforming plates 25 may be provided in any desired number and are held upon the rod and clamped against the plate 22 by a washer 26 and a nut 27 mounted on the rod, as shown.
Beyond the nut 27, the threaded end of the rod passes through, a central smooth-bored openin 28 in a head-29'and a nut 30 is mountthe rod to-beturned home against said fio axes at a right angle to the axes of the reor circular shell bearing at its open end against the end plate so that when the nut is turned home, the head will be driven against the plates which will then be clamped between the head and the plate 22. A cap plate 31 is bolted to the flange 3 and extends over the end of the cylinder. Long cap bolts 32 are mounted in the cap plate 31 and bear against the head 29 so as to secure the latter in the cylinder and maintain the plates 25 and 22 firmly clamped against the ring 20 and said ring against the head 4.
Each path-forming plate consists of an inner thin flat disk 33 having a central opening 34 whereby it may be fitted on the rod 23, and an outer flat-sided ring 35 fitting snugly around the disk and within the cylinder. The plates, each consisting of an inner disk and an outer ring are arranged side'by side upon the rod 23 and in contact so that leakage between them will be avoided, and they are kept in axial alinement by a rod 36 inserted through openings 37 in the rings 35 into a socket 38 in the plate 22, and by a similar rod 39 inserted through openings 40 in the disks 34 into a socket 41 in the plate 22. It .will be noted that the washer 26 projects over the end of the rod 39 and the edge of the head 29 covers the end of the rod 36 so that accidental release of the rods cannot occur. To protect the bolts 32 from accidental displacement, cap nuts 42 are fitted to bosses 43 on the plate 31 and cover the heads of said bolts. The plates have openings 44 and 45 formed therethrough and 'so disposed that when the plates are assembled spiral passages will b'ezforme'd extending from the plate 22 to the head 29. All the spiral passages open at one end into the interior of the head 29 and at the opposite end register with the openings 46, '47 in the plate 22. The openings 44 are formed in the inner peripheral edge of the ring 35 by boring, the bit being so disposed that the bore will be formed diagonally with gs' respect to the faces of the ring, but at a right angle to the radius, and will break through the inner periphery of the ring. The openings 45 are formed through the edge of the disk 3-3 in the same manner but with their spectively adjacent openings 44. The edges of the collars and disks are filed out, as indicated at 48 and 49, so that the openings will have a truecircu'lar outline in cross sec tion. "The openings 44 and 45 may be provi'cl 'ed in any desired number but, of course,
the number must be the same in all plates and the openings 46, 47 must be provided in the same number and arrangement. 60 J The head 29 is provided with openings 50 to permit the fuel to pass to the discharge outlet.
The plate 31 is formed with acentral boss or nipple 51 in which is secured one end of a discharge pipe or burner tube 52, and on the opposite end of said tube is secured the burner tip or discharge nozzle 53. The said nozzle is a substantially cylindrical body externally tapered to form a flat tip 54 having a diametrical slot 55 therein, the bore of the tip flaring toward the ends of the slot, as shown at :56. j
The oil is supplied through the pipe '11 and coupling 10 under pressure, and the escape from the inlet is easily and nicely regulated by setting the valve '14. The atomizing agent meets the escaping oil at the valve 14 at a right angle and immediately effects an initial atomization, blowing the fuel through the opening 5 and mixing therewith. The fluidis deflected by the cone or spreader 21 to the openings 46, '47 and passes through the .sa-me'to enter the spiral passages. The pressure of the atomizing agent will cause the mixed fuel and agent to flow at a high speed through the spiral passages and the centrifugal action will force the hea-vierp'articles of the fuel to the sides of the spirals so that there is a constant atomizing action. It will be noted that the inner and outer spirals intersect or overlap at intervals and the intermingling which occurs at the crossing points causes the overlapping streams to effectually break up the particles of the fuel so that the fluid entering the head 29 will be thoroughly atomized. From "the head '29 the mixture flows through the tube 52 {to the tip or nozzle 53 where it is ignited.
Because of the slight overlapping or intersecting ofthe inner and'outer spiral passages, the fuel and atomizing agent in the outer passages is revolved "at high speed by the force of the mixed fuel atomizing agent in the inner passages. The mixed fuel and agent in I the inner passages is likewise revolved at high speed the force of the mixed fuel and agent in the outer passages. In other words, the contact of the portions of the two streams at high speed tends to maintain the speed and rotating travel of both. It is obvious that some of the mixture in the outer passages will, at every point of contact with the mixture in the inner passages, be transferred to the inner passages, and vice versa, which means that there is a sudden and violent change of direction of the particles of fuelan important factor in atomization.
It will be seen from the foregoing description, taken in connection with the accompanying drawing, that I have provided a compact and simple device which may be easily set up and will very effectually atomize crude oil so that it will burn without smoke and without depositing soot. The opposed edges of the ring 35 and disk 33 are machine finished and form a ground joint when fitted together. Inasmuch as the oblique openings may be more easily and accurately formed through the edge of a ring or disk then through the body portion of a plate, the cost of production is minimized and efliciency in the product is attained, loss due to spoilt material being practically eliminated. It will be noted that spiral mixin paths of any desired length may be provi ed by simply using a greater or less number of the plates and the sectional construction of the plates facilitates cleaning should such attention be necessary. 7
Having fully described my invention what I claim as new and desire to secure by Letters-Patent, is
1. In an atomizer, a cylindrical casing, and a series of plates secured snugly in the casing with their sides in contact, the plates 7 each having a plurality of obliquely disposed openings therethrough and the openings in the series of assembled plates defining a plurality of spiral passages.
2. In an atomizer, a cylindrical casing, and a plurality of plates secured snugly in the casing with their sides in contact, each plate having reversely arranged oblique openings therethrough and the openings in the series of assembled plates defining a plurality of oppositely disposed spiral passages.
3. In an atomizer, a cylindrical casing, and a series of plates secured snugly in the casing with their sides in contact,each plate having reversed oblique openings therethrough and the openings in the series of assembled plates defining a plurality of spiral passages which intersect at intervals.
4. In an atomizer, a cylindrical'casing, a plurality of plates secured snugly in the casing with their adjacent sides in contact, each plate having obliquely disposed openings therethrough and the openings in the series of assembled plates defining a plurality of spiral passages, and means for maintaining the plates in axial alinement and the openings through adjacent plates in register.
5. In an atomizer, a cylindrical casing, a plurality of plates secured snugly in the casing with their adjacent sides in contact, each plate having obliquely disposed openings therethrough and the openings in the series of assembled plates defining a plurality of spiral passages, and means to prevent rela tive turning movement of the plates.
6. In an atomizer, a cylindrical casing, a plurality of plates secured snugly in the casing with their adjacent sides in contact, each plate having obliquely disposed openings therethrough and the openings through the series of assembled plates defining a plurality of spiral passages, means to maintain axial alinement of the plates, and means to prevent relative turning movement of the plates.
7. In an atomizer, a cylindrical casing, a plurality of plates secured snugly in the casing with their opposed sides in contact, each plate having obliquely disposed openings therethrough and the openings in the series of assembled plates defining a plurality of spiral passages, and retaining rods extending longitudinally through all the plates.
8. In an atomizer, a cylindrical casing, and a plurality of plates secured snugly in the casing with their adjacent sides in contact, each plate consisting of a thin flat disk and a thin fiat-sided ring having its inner periphery fitting snugly to the outer periphery of the disk, the disk having oblique openings therethrough at its periphery and the ring having similar openings therethrough at its inner periphery, the openings in the ring being at an angle to the openings in the disk, and theopenings in the series of assembled plates defining a plurality of spiral passages.
9. In an atomizer, a cylindrical casing, a plate secured in one end of the cylinder and having openings therethrough, means for ad-- mitting oil and an atomizing agent to said end of the casing, a supporting arm extending from the plate axially in the casing, and a plurality of plates fitted on said arm and fitting snugly in the casing, each plate having openings therethrough and the openings in the series of assembled plates defining a plurality of spiral passages leading from the openings in the end plate.
10. In an atomizer, a cylindrical casing, a plate secured in one end of the casing and having openings therethrough, means for admitting oil and an atomizing agent to said end of the casing, a supporting arm extending from the plate axially in the casing, a plurality of plates fitted on said arm and fitting snugly in the casing, each plate having openings therethrough and the openings in the series of assembled plates defining a plurality of spiral passages leading from the openings in the end plate, the end plate having sockets in its inner side and the other plates having longitudinally disposed openings therethrough alined with said socket, aligning rods inserted through. the longitudinal opening into the sockets, and means to prevent withdrawal of said rods.
11. In an atomizer, a cylindrical casing, a head closing one end of the casing, means carried by said head to admit oil and an atomizing agent to the casing, a ring in the ends of the casing abutting the head and having an inwardly flared bore, a conical defiector in the casing extending concentrically into the ring in the path of the entering fluid, a mixer body in the casing at the back of said deflector having a plurality of spiral passages therethrough, and means at the opposite end of the casing to secure said body.
In testimony whereof, I have signed this specification.
CARL A. STENVIG.
US113645A 1926-06-04 1926-06-04 Oil burner Expired - Lifetime US1742732A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US113645A US1742732A (en) 1926-06-04 1926-06-04 Oil burner

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US113645A US1742732A (en) 1926-06-04 1926-06-04 Oil burner

Publications (1)

Publication Number Publication Date
US1742732A true US1742732A (en) 1930-01-07

Family

ID=22350692

Family Applications (1)

Application Number Title Priority Date Filing Date
US113645A Expired - Lifetime US1742732A (en) 1926-06-04 1926-06-04 Oil burner

Country Status (1)

Country Link
US (1) US1742732A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2650582A (en) * 1949-12-01 1953-09-01 Carl J Green Carburetor

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2650582A (en) * 1949-12-01 1953-09-01 Carl J Green Carburetor

Similar Documents

Publication Publication Date Title
US2595759A (en) Atomizing nozzle for spraying viscous liquids
US2259011A (en) Atomizer for liquid fuels
US1474603A (en) Liquid and gas mixer
US2532851A (en) Liquid fuel atomizer
US1396086A (en) Fuel-oil burner
US1742732A (en) Oil burner
US1241135A (en) Burner.
US1593186A (en) Atomizer for liquid fuel and the like
US1790927A (en) kreager
US2289494A (en) Vaporizer
US1641581A (en) Oil burner
US1659573A (en) Oil burner
US2042034A (en) Oil burner
US2514581A (en) Method and atomizer for atomizing fuel oil
US2801134A (en) Nozzle
US1874848A (en) Atomizing oil burner
US1213817A (en) Carbureter.
GB303226A (en) Improvements in or relating to the burning of pulverised fuel
US1554788A (en) Vacuum fluid burner
US1460130A (en) Liquid-fuel burner
US1478370A (en) Burner nozzle
US1071875A (en) Gas-purifying apparatus.
US2511755A (en) Atomizing burner for fluid fuels
US1685108A (en) Oil burner for furnaces
US715044A (en) Oil-burner.