US1743081A - Oil-burning apparatus - Google Patents

Description

Jan. 7. 1930. J BREESE JR 1,743,081

OIL BURNING APPARATUS Filed Nov. 9, 1926 affotmq Patented Jan. 7, 1930 UNITED STATES PATENT OFFICE JAMES L. BREESE, JR., OF CHICAGO, ILLINOIS, ASSIGNOR TO OIL DEVICES CORPORATION, OF CHICAGO, ILLINOIS, A CORPORATION OF ILLINOIS OIL-BURNING APPARATUS Application filed November 9, 1926. Serial No. 147,217.

My invention relates to a device for burning hydrocarbons, which is particularly adapted for the burning, in heating plants, of a liquid hydrocarbon. One object of my invention is to provide a simple and easily manufactured burning device with a minimum number of moving parts. Another object is the provision of a device of the type described in which the fuel flow C may he made responsive to the flow of air to the combustion zone. Another object is the provision of efiicient means tion member generally indicated as B. It

for cutting off the flow of fuel when necessary. Another object is the rovision of a simple and efficient device for t e carrying out of the method of combustion described and claimed in my copending application N 0. 133,798, filed on the 7th day of September, 1926. Other objects will appear from time to time in the course of the specification and claims. 7

I illustrate my invention more or less diagrammatically in the accompanying drawings, wherein Figure 1 indicates a plan View with parts in section and parts broken away; Figure 2 is a section on the line 22 of Figure 1; and Figure 3 is a section on the line 33 of Figure 1.

Like parts are indicated by like symbols throughout the specification and drawings. V It Wlll be realized that I describev and illustrate a burner which is adaptedto be used with any suitable furnace, the combustion chamber of the burner being preferably placed within the furnace. Since the furnace forms no part of the present invention and since the mode of application of burners of like class to furnaces is well known, I do not illustrate the furnace. v

A indicates any suitable support, herein shown as a column consisting of a plurality of bricks, upon which is mounted the combusincludes a bottom portion B resting on the support A and provided with the upwardly. projecting generally cylindrical wall B in communication with which is the longitudinal air inlet passage B with the reduced terminal portion B Resting upon the upper edgeof the wall able lid G B is a mixing chamber having the bottom' portion G, and the cylindrical side wall C Exteriorly projectingfrom the said side wall is the flange C provided with a plurality of apertures C The flange C seats upon the upper edge of the wall B The bottom C is apertured as at C, the aperture being surrounded by the upwardly projecting tube Itesting upon or surrounding the top of said tube is a hood consisting of thetop D, the side wall D and the bottom portion 1), the side wall having a plurality of apertures D E indicates a cover member having the cylind-rical side wall E and the upper wall E with the central aperture E It will be observed from Figure 1 that the wall E is upwardly and inwardly inclined over thewall C of the mixing chamber. The upper edge of the wall C may, if desired, be inclined as at (3 to conform to the inclination of the overhanging wall E The member B and the cover or upper member E with its inclined upward and inward extension E form in'efi'ect an outer housing member surrounding the inner mixing chamber C, C.

G is any suitable pedestal or support upon which is mounted the motor G with the associatedfan housing G in which rotates a motor actuated fan not illustrated in the drawin s. Gr is theoutlet paxage of the casing 2 and is in communication with the reduced passage member 13. G is any suitable outer casing or housing with the remov- H indicates a. fuel line suitable filter member H above w ich is a float chamber H the details of which form no partof the present invention. It will be understood, however, that a valve is provided, controlled for example by the valve stem H the end of which projects upwardly through the top of the float chamber H as shown in Figure 2. The stem is secured to the trip bucket lever H which is pivoted to the upwardly projecting support H and is provided. with any suitable bucket -H is any suitable run off pipe from the upper portion of the float chamber through which'the surextendin to any plus oil can escape to the trip bucket H in case the float chamber is flooded. H is any suitable yielding means normally opposing the weight of the trip bucket and tending to hold the member H unseated.

J indicates a fuel line extending from the float chamber H to the combustion chamber, to the bottom of which it is connected as at J. J indicates any suitable valve member or housing in which any valve may be positioned, the details of the valve forming no part of the present invention. I may employ, however, any suitable valve stem J passing through the bushing J screwthreacL ed into the top of the housing. J 5 indicates a stop member, for example a transverse pin.

adapted to limit the closing movement of the valve stem J 3 to a predetermined minimum. Any desired adjustment may .be offected by rotation-of the screwthreaded bushing J which serves as an abutment for said stop member. The upward movement of the valve stem J 3 may be limited by any suitable stop member, herein illustrated as the set screw 'J in screwthreaded relation with the supporting arm J 7 and vertically aligned with the valve stem.

In order to actuate the valve stem in response to air pressure conditions I provide a flexible diaphragm K with the opposed rigid member K K indicates an air inlet pipe which preferably terminates within the reduced air passage portion B. K is a lever pivoted as at K to the upwardly projecting support K? and connected, intermediate its ends, to the diaphragm, by the connecting member K. Its opposite end engages the valve stem J ,'which moves-up or down in response to rotation of the lever K It will be realized that whereas I have shown a practical and operative device, nevertheless many changes might'be made in size, shape, number and distribution of parts without departing from the spirit of my invention. I therefore wish my drawings and description to be taken as in a broad sense illustrative or diagrammatic rather thanas limiting me to my specific description and showing.

The use and operation of my invention are as follows;

I have described,'-in my copending appli-' cation No. 133,798, above referred to, a method of combustion in which a hydrocarbon, for example a liquid hydrocarbon, is burned with great efiiciency and with a minimum of carbon separation and deposit. The present device is adaptedfor the efficient carrying out of the same process. The mainsteps or characteristics of the process are the supply of the I hydrocarbon, for example in liquid form, to

the lower portlon of a mixing and gasifymg zdne. The hydrocarbon is preferably gaslfiedby the radiant heat of the combustion gomg on m the upper portions or above the top of the mixing and gasifying zone. It will be understood that any suitable means may be employed for initiating-the combustion.

s the gasified hydrocarbon rises from the bottom of the member C, it is mixed with the primary air laterally flowing through the apertures D The air is preferably supplied in sufiicient quantities to mingle freely with the gasified hydrocarbon to form a mixture which is preferably not quite combustible; The extent of this primary air supply depends upon the number and cross section of the apertures D It will be observed that the jets of air flowing through these apertures are sufficient to cause a very complete mingling or mixture of the air and the hydrocarbon, the air supply being suflicient for substantial or complete hydroxylation of the hydrocarbon.

As the mixture so formed rises upwardlypast the upper, edgeof the wall C it is met by the secondary air supply which flows inwardly and upwardly along the wall E. This secondary air holds the form of a cone until it reaches the central aperture E when it is upwardly bent and flows into whatever combustion chamber my device is employed to heat. It will be understood that as the secondary air pursues its conic path the mixed primary air and hydrocarbon flows up into the center of the cone so formed and a mixture begins which is preferably completed above to the practical operation of my device that the mixture of the hydrocarbon and the relatively sparse supply of primary air be completed before the mingling of the mixture so formed with the secondary supply of air takes place. Otherwise the balance whereby hydroxylation of the fuel takes place is disturbed and carbon deposit and inefiicient combustion results. 7

In the practical operation of my device I prefer to control the flow of fuel in response to changes in the flow of air. In employing an electric motor I may provide an} suitable thermostatic or control means, which forms no part of the present invention, in orderto control the rotation of the motor. I provide air responsivemeans, for instance the diaphragm shown in Figure 3, whereby an increase in air pressure in the passage B or-B, in response. to actuation of the fan, lifts the needle valve J 3 to open position. A decrease in air pressure permits the valve to drop. I preferably but not necessarily provide a limit ;to the valve movement which permits a predetermined minimum flow of fuel, the combustion of the small amount of fuel so provided being maintained by natural draft The maximum and minimum settings of the needle J are adjustably controlled, as forexa'mple by rotation of the bushing 'J and the set screw J 0 respectively.

In case the flow chamber H becomes flooded, or an excess supply of fuel is being provided, oil runs through the run oil passage H and fills the bucket H until the spring H is compressed and the valve H is closed.

I claim: I,

1. In a hydrocarbon burner, a housing, an open-topped mixing chamber positioned within said housing, the side walls of said chamber being spaced from the walls of said housing, a fuel line extending to said mixing chamber, an axial air inlet passage extending upwardly from the bottom of said mixing chamber, an air distribution member associated with said passage means for delivering air into the space between the mixing chamber and thehousing, and means for directing the air from the said space across the upper edge of said mixing chamber.

2. In a hydrocarbon burner, a housing, an air inlet passage in communication with said housing, an open-topped mixing chamber positioned within said housing, the side walls of said chamber being spaced from the walls of said housing, a fuel line extending to said mixing chamber, an axial air inlet passage extending upwardly from the bottom of said mixing chamber, an air distribution member line leading into the mixing chamber, an air distributor surrounding the o ening from the housing into the mixing c amber, arranged to disperse the air and deliver it radially into the mixing chamber intermediate the top and bottom thereof, and means for directing the air from the space between the walls of the housing and mixing chamber upwardly about the edge of the'latter to commingle with the fuel mixture issuing from the mixing chamber.

Signedat \Vashington, in the District of Columbia, this 8th day of November, 1926. JAMES L. BREESE, JR.

associated with the last said passage and situated above the bottom of the mixing chamber and below the top thereof, saiddistribution member being provided with a plurality of apertures adapted to direct air outwardly toward the side wall of the mixing chamber.

3. In a hydrocarbon burner, a housing, an open-topped cylindrical mixing chamber positioned within said housing, the side walls of said chamber being spaced from the walls of said housing, a fuel line extending to said mixing chamber, an axial air inlet passage extending upwardly from the bottom of said mixingchamber, an air distribution member associated with said passage, and means for delivering air into the space between the walls of the housing and the mixing chamber, means for directing air from the said space across the upper edge of the wall of the mixing chamber, and a connecting partition intermediate the cylindrical wall of the mixing chamber and the surrounding wall of the housing, said partition being provided with a plurality of apertures for the passage of air upwardly. v

4. In a hydrocarbon burner a housing into which air is delivered, an open-topped mixing chamber located within the housing having side walls spaced from the side walls of the housing, means whereby air is delivered from the housing into the mixing chamber through an opening of restricted area, a fuel

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