US2621716A

US2621716A - Combination oil and gas burner

Info

Publication number: US2621716A
Application number: US90967A
Authority: US
Inventors: Young Cyril Charles
Original assignee: Individual
Current assignee: Individual
Priority date: 1949-05-02
Filing date: 1949-05-02
Publication date: 1952-12-16
Anticipated expiration: 1969-12-16

Description

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COMBINATION IL AND GAS BURNER Dec. 16, 1952 Filed May 3, 1949 E MMHLL E Patented Dec. 16, 1952 UNITED STATES" PATENT OFFICE 2,621,716 COMBINATION OIL AND W GAS BURNER Cyril Charles Young, Kansas City, Mo. Application May 2, 1949, Serial No. 90,967

This invention relates generally to heating units and more particularly relates to an improved combination gas and oil burner which 6 Claims. (Cl. 158-11) type of fuel. In any event, burner units adapted for the utilization of a vaporizable fuel such'as oil are frequently provided with a structure which effects the conditioning of fuel oil for proper combustion by vaporizing the fuel in a high temperature zone produced by a gas burner;

An object of this invention is to provide a vaporizer burner unit with a thermally conductive booster arranged to contact the fuel to be vaporized and extending therefrom so as to transfer heat by conduction from a high temperature I zone into the fuel to increase the efficiency of vaporization.

Another object of this invention is to provide a method of operating a vaporizer burner whereby I heat may be introduced into a fuel to be vaporized from a high temperature zone by means of a thermally conductive booster.

A further object of this invention is to provide a burner unit structure whereby oil vapor arising from a pool of fuel may be pre-heated or superheated for more eflicient combustion.

Another object of this invention is to provide a novel and improved method of operating a V vaporizer burner unit by arranging a segmented booster in the bottom of a fuel carrying vaporizer pan, whereby movement of the segments relative to the pan in response to temperature variations will break up residual solids precipitated in the a high temperature zone produced by jets of flame emanating from a vaporizer burner. T Since each spiralcoil of the booster is adjacent to the inner bottom contour of the vaporizer pan, the bottom of-each coil section will dip into the fuel to be vaporized, thereby providing a multiplicity of conductors to transfer heat from the high temperature zone directly into the fuel medium for greatly increased rate of vaporization thereof.

Vapors rising from the liquid fuel in the vaporizer pan will then pass through and around the upper sections of the booster thereby becoming preheated suificiently to greatly improve the combustion of these vapors with a clear and smokeless fiame.

Furthermore, the arrangement of the booster coil provides a plurality of heated surfaces which assist in the combustion of the gases burned for vaporizing purposes in accordance with the principles of surface combustion.

It is believed that the methods practiced and claimed as a part of this invention will be best understood from the explanation of the appa ratus provided for practicing same.

Many other features, advantages and additional objects of the present invention will become manifest to those versed in the art upon making reference to the detailed description which follows and the accompanying sheets of drawings, in which: v p a Figure l is a vertical cross-sectional view of a combination oil and gas burner unit embodying the principles of my invention; and

Figure 2 is a cross-sectional view taken on line a volatile fuel, such as oil orthe like, I have chosen to describe the application of my invention to a combination oil and gas burnerunit which has found wide application in the heating and ventilating trade. I

The exemplary construction shown on the drawing is particularly adaptable for installation in connection with a furnace having a combustion chamber I0 supported in a relatively elevated position on a hollow cylindrical casing H. The combination oil and gas burner unit l2 embodying the principles of my invention may then be conveniently mounted within the confines of the casing II and is generally cylindrical with respect to the vertical axis'of a fire box aperture f [3 provided in the bottom of the combustion chamber III of the furnace.

The combination burner unit l2 embodiesa base casting I4 having an annular base portion [4a which supports a generally cylindrical shell l6 and a housing l1.

The base casting I4 is provided with an upstanding cylindrical hub l4b defining a central bore for positioning a gas nozzle or conduit l8.

The nozzle or conduit H3, at its bottom portion, forms a horizontal leg which extends radi ally outward of the casin H.

Although not a specific part of the present invention, it Will be understood that a suitable structure may be provided in communication with the nozzle or conduit l8 such as a motor driven blower adapted to direct a stream of combustion supporting air through the nozzle or conduit I8.

It will further be understood that the nozzle or conduit l8 may be employed to conduct a combustible mixture of gas and air to supply a main burner gas flame when the combination burner unit I2 is operated on a gas cycle. Such combustible mixture of gas and air may be produced by a, conventional inspirator nozzle which projects into the lower housing. Such structure is not disclosed herein, however, and further information regarding the details of construction of a combination gas and oil burner unit of this type is contained in my co-pending application entitled Combination Gas and Oil Burner and Control Therefor, Serial No. 47,319, filed September 1, 1948, now Patent 2,547,611, April 3, 1951.

As may be seen in dotted lines on Figure 1 and in Figure 2, a conventional pilot flame unit l9 may be provided adjacent the nozzle or conduit l8 having a pilot flame thermal switch unit 20 and operable in a conventional manner to maintain a pair of switch contacts closed so long as the pilot flame is burning and to open such contacts in the event of failure of the pilot flame produced by the pilot flame unit 26. Fuel gas may be supplied to the pilot flame unit through a conduit 2| connected to a fuel source at any desired point.

Referring further to Figures 1 and 2, an annular gas burner element 22 ofgenerally hollow, torus-like configuration is shown mounted on the top of theshell l6 and in surrounding relationship to the hub Mb of the base casting It.

The burner element 22 is provided with a hollow bore 220, and a plurality'of gas burner jets 23 which are arranged to define t'wo axially spaced sets of jets which extend around the inner periphery of the burner element 22 and are respectively directed angularly upwardly and downwardly and toward the axis of the base casting l4.

Gas fuel is supplied'to th e'burner element 22 through a conduit 24' which may be supplied with a. combustible mixture of gas and air, for example, at a point remote froin'the combination burnerunit l2. Hereinaftentheburner element 22 will be referred to as the vaporizer burner 22.

As may be most clearly seen on Figure '1, the vaporizer burner 22 is provided with a radially inwardly extending ledge 22b'extendin'g around the inner circumference. A ring 26 of suitable heat insulating material rests upon the ledge 22b and, in turn, is utilized to support an annular vaporizing pan or tray 21, which has an outturned edge 21a engaging the ring 26.

The vaporizing tray 21 may be of any desired configuration and preferably is provided with a depressed bottom portion so as to permit a substantial quantity of fuel oil to be collected in the tray without spilling.

Inasmuch as the tray 2'! is supported intermediate the two'rings of names" produced'by" the vaporizer burner 22 in operationpthe tray will be rapidly heated to a hightemperature. The insulating ring 26 sealingly mounts the tray 21 without substantial transfer of heat from the hot vaporizer tray to the relatively cool vaporizer burn er 22.

To further amplify the heating effect of the gas jets of the vaporizer burner 22, a radiant is provided below the vaporizer pan 21. Although the radiant could conceivably take alternative structural forms, the embodiment shown in the drawing includes a ring of refractory material 28 which is mounted in axially spaced relationship below the vaporizer tray 27 and is conveniently supported upon the top surface of the base casting l4 concentric with the hub lb. To further facilitate the heating of the vaporizing tray 2'l,'the surface of the refractory material 28 may be provided with a plurality of spaced refractory points 28a.

By way of illustrative example, it may be noted that the radiant could also be provided in the form of a lower coil (not shown) made of thermally conductive heat resistant -metal which could be located on the upper surface of the base casting M in spaced relation to the vaporizer tray 2'! so as to present a surface to be heated by the downwardly projecting jets of fiame emanating from the ports 23 for radiant heating of the vaporizer tray 21.

The combination burner unit 12 is further provided with a mixing nozzle 29 which is of such a configuration as to describe a Venturi throat in registry with the fire box opening it. The mixing nozzle 29 is preferably an annulus of refractory material suitably adapted to be supported in the upper portion of the housing I? in spaced relation to the nozzle or conduit [8 and to the vaporizer tray 21' so as to serve as an upper radiant and further defining the high temperature zone proximate the pan or tray 21.

The mixing nozzle 29 is provided with an aperture or passage 29a having one leg thereof directly overlying the vaporizing tray 2'! and positioning a conventional drip mechanism 30 which may be employed to supply a limited flow of fuel such as oil or the like to the vaporizer tray 21 when it is desired to burn a Volatile fuelinthe combined burner unit [2.

To protect the'drip nozzle mechanism 30 from the high temperatures developed within the burner unit 12 and to effect the feedingof the fuel to the vaporizing tray 2'? without carbonization, the mechanism 30 and the supply pipe leading thereto are preferably encased within a sheet metal conduit 3| which extends radially outwardly through the casing II and which is open to the atmosphere so as to permit a flow of cooling air to be continuously inducted through such conduit. Therefore, the conduit 3| not only provides additional air for combustion of the gas and oil within the burner unit I2, 'but also effectively maintains the drip nozzle mechanism '30 at a sufficiently low temperature to preclude carbonization of the fuel fed therethrough.

According to this invention, a booster 32 is provided which preferably takes the form of a coil consisting of a helix of stainless or other heat resisting wire capable of transferring heat by means of conduction. It may be noted'that material to be used in the composition of a booster 32 may be any conductor of heat which is resistant to deterioration at high temperatures including such metals as are normally used under similar conditions, for example, alloys such as stainless steels and rustlessirons, nichrome steel, which .is a ferrous alloy containing-about 60% 5 nickel, 24% iron, 16% chromium and 0.1% carboii, and'inconel, which is a non-magnetic alloy containing approximately 80% nickel, 13% chromium and 6.5% iron.

The booster 32 in the form of a helix of wire or rod is arranged in a circular form so that it may rest loosely within the vaporizer pan 2'! and conform along its bottom section roughly with the innerbottom contour of the vaporizer pan 21,

The booster 32 is preferably arranged so as to have its upper section extend into the high temperature zone proximate to the vaporizer tray 27. As herein embodied, it will be seen that the u per sections of the booster 32 are quickly heated to a high temperature by the flame jets emanating from the upper row of ports 23 of the vaporizer burner 22. Since each coil of the helix rests on, oris adjacent to, the inner bottom contour of the vaporizer pan, the bottom of each coil section will dip into any pool of fuel or oil collected at the bottom of the vaporizer tray 21.

In this manner, there is provided a multiplicity of conductors, each section being heated at the top by the burning gas and the heat being transferred through the conductors into the oil itself by the thermally conductive booster 32, thereby increasing the efficiency of vaporization. Heat'which would otherwise pass quickly above the oil and out through the Venturi throat of the mixing nozzle 29 is thereby transferred through the conductor into the oil itself permitting a more efficient vaporization of 'fuel'and requiring less fuel consumption in the vaporizer burner 22.

One of the features resultingfrom the employment of the booster 32 lies in the fact that the vapor rising from the pool of fuel collected at the bottom of the vaporizer tray 21 pass through and around the upper sections of the booster 32,

thereby becoming pre-heated suificiently to greatly improve the combustion of these vapors.

The helical coil shape of the booster 32, as shown, is desirable in that no substantial restriction is presented in and above the vaporizer tray 21 to the flow of burning gases emanating from the upper row of ports 23 of the vaporizer burner 22. As a practical matter, the presence of the heated surfaces presented by the upper sections of the booster'32 actually assists in the combustion of the gases burned for vaporizing purposes in accordance with the principles of surface combustion.

The booster 32 develops an additional function which makes it uniquely suitable for adaptation to a burner unit of the type which burns a-vaporized fuel such as oil or the like. In the burning of certain fuel oils by means of a vaporizing type burner there are certain solids precipitated out of the burning liquid which are comparatively difficult to burn and which, if not disposed of, interfere with the eificient operation of the burner unit.

It will be readily understood that in normal automatic operation of a unit l2, the booster 32 will be alternately heated and cooled thereby causing a slight movement of the individual segments of the coil relative to the bottom of the vaporizer tray 21 within which the booster 32 is resting. The relative movement of the segments effectively breaks up any residual solids resulting from the combustion of the fuel and prevents such coagulated masses from interfering with the normal operation of the burner unit.

It will be understood, that if the booster 32 is employed in a single oil burner unit, alternate heating and cooling of the booster 32 could be 6. accomplished by temporarily securing operation of the burner unit.

From the foregoing description, it is. apparent that whenever fuel oil is supplied to the vaporizer tray 21 and the vaporizer burner 22 is operated to produce a high temperature zone in the locale of the vaporizer tray 21, the fuel .oil in the tray will be rapidly vaporized. Air supplied through the central opening in the annular vaporizer tray 21 as well as through the passages above and below the vaporizer tray 21 andabove the mixing nozzle 29 adequately supports combustion of the vaporized fuel. The temperature of the vaporizing zone is maintained sufficiently high to insure the rapid vaporization of fuel oil supplied thereto and, while some cracking of fuel oil occurs, and resulting combustibles are completely consumed, due to the high temperature in the vaporization zone and the presence of adequate combustion supporting air.

It may be noted that the induced air flow produced around the upper and lower faces of the porting air in the throat portion of the mixing nozzle 29. Thus, the burning of the combustible mixture is initiated before such mixture passes out of the end of the mixing nozzle 29 and into the combustion chamber III. A target or flame spreader 33 may be mounted within the chamber ID in such a manner as to lie in registry with a novel and improved burner unit which effects improved combustion of a vaporized fuel.

It is contemplated that various modifications may be suggested to those versed in the art which will not mark a departure from the essential spirit of my invention. It is to be understood, therefore, that I do not wish to be specifically limited to the preferred embodiment herein shown and described by way of illustrative example only.

I claim as my invention:

1. A heating unit comprising an annular gas burner, an annular tray disposed within and adjacent said burner so as to be heated thereby, a booster element arranged in said tray and having a. portion extending out of said tray and arranged to be heated by said gas burner, means for supplying a vaporizable fuel to said tray, means for guiding an air stream through the central opening in said tray, and a Venturi nozzle disposed in alignment with the central opening of said tray, whereby said fuel may be vaporized by the heat surrounding said tray and by the heat conducted into said fuel by said booster to produce a combustible mixture of said fuel in the air stream at the locale of the throat of said Venturl nozzle.

'2. In a vaporizing type oil burner, an annular radiant, a mixing nozzle, means for supporting said radiant and said mixing'nozzle in aligned axially spaced relationship, an annular gas burner disposed between said radiant and said mixing nozzle and arranged to produce a'high temperature zone therebetween, a vaporizing pan suspended in said zone, a thermally conductive booster in said pan to conduct additional heat from said zone into fuel supplied to said pan, means for supplying a limited flow of fuel oil to said pan, whereby the fuel oil is continuously vaporized, and means to'supply a flow of combustion supporting air in the locale of said high temperature zone t o'burn the vapor emanating from said pan."

3. Ina'vaporizing type oil burner, an annular radiant, a mixing nozzle, means for supporting said radiant and said mixing nozzle in aligned axially spaced relationship, an annular gas burner disposed between said radiant and said mixing nozzle and arranged to produce a high temperature zone therebetween, a vaporizing pan suspended in said zone, a thermally conductive booster in said pan to conduct additional heat from said zone'into fuel supplied to saidpan, means for supplying alimited flow of fuel oil to said pan for vaporization, and means to supply a flow of combustion supporting air inthe locale of said-high temperature zoneto burn the vapor emanating from said pan, said booster comprising i a coil consisting of a helix of heat resistant metal.

4. In a vaporizing type oil burner, an annular radiant, a mixing nozzle, meansfor supporting said radiant and said mixing nozzle in aligned axially spaced relationship, an annular gas burner disposed between said radiant and said mixing nozzle and arranged to produce a high temperature zone therebetween, a vaporizing pan suspended in said zone, a thermally conductive booster in said pan to conduct heat from said zone into fuel supplied to said pan, means for supplying a limited vflow of fuel oil to said pan for vaporization, and means to supply a flow of combustion supporting air inthe locale of said high temperature zone to burnthevapor emanating from said pan, said booster comprising a segmented element movable relatively to the bottom of said pan in response to temperature variations in said zone whereby residual solids precipitated in said pan maybe broken up.

5. In a vaporizing type oil burner, a vaporizing pan, means for supplying a vaporizable'iuel' to said pan, a gas burner disposed adjacent said pan, said burner having a first series of flame jetsdisposed relatively above saidpan and a second series of flame'jets disposed relatively beneath saidpan', a radiant spaced below said pan'in thepath of said second series of flame jetsand a booster coil of a thermal conductive material carried in said pan and extending therefrom to have'its upper portions in the path of said first series 'of flame jets, whereby said pan is disposedin 'a "zone maintained at a suificiently high temperature to vaporize said fuel in said pan and additional heatfrom said zone is conducted into said fuel 'by said booster.

6; A'heating unit comprising an annular gas burner, an annular oil vaporizer tray"disposed within and adj acentsaid burner "so as to be heated thereby for the vaporization of oi'lin said tray, means to supply oil to said tray, a booster element arranged'in' said tray andhaving a portion extendingoutof said tray and arranged to be "heated by said gas burner to conduct additional heat into the oil in said tray, and means for guiding'a combustion supporting air stream through the central'opening in sai'd tray toburn the oil vapors arising from said tray.

YRI CHARLES YOUNG.

REFERENCES CITED The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 553,993 Land Feb. 4, 1896 1,072,976 Nichols Sept. 9, 1913 1,262,502 'Japhet "Apr/9, 1918 1,583,025 'Sturgis May 4, 1926 1,735,658 'Sc'hreier Nov. 12, 1929 1,775,772 Marion Sept. 16, 1930 1,938,346 Neumann "lDec. 5, 1933 2,064,914 Heinzel "Dec. 22, 1936 2,250,304 Ke'ating et al. July 22, 1941 2,370,172 Kaufman "Feb. 27,1945 2,432,143 DeLancey .Dec. 9, 1947 FOREIGN PATENTS Number Country Date 20,592 Great Britain of 1905 794,972 France 'D ec.l26, 1935