US2743137A - Oil burner with spill return duct controllable by flow reversal - Google Patents
Oil burner with spill return duct controllable by flow reversal Download PDFInfo
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- US2743137A US2743137A US299611A US29961152A US2743137A US 2743137 A US2743137 A US 2743137A US 299611 A US299611 A US 299611A US 29961152 A US29961152 A US 29961152A US 2743137 A US2743137 A US 2743137A
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23D—BURNERS
- F23D11/00—Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space
- F23D11/24—Burners 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
- F23D11/26—Burners 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
- F23D11/28—Burners 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
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- This invention relates to apparatus for burning liquid fuel of the type comprising a reservoir for liquid fuel such as oil and a pump for supplying fuel from this reservoir under pressure to one or more liquid fuelatomizing burners of the kind which comprises a prechamber, such as a vortex chamber, communicating with a fuel supply duct through one or' more ports, such as tangential ports, and with a spill return duct for returning a variable amount of excess fuel from the vortex chamber to the reservoir, the vortex chamber having a final outlet orifice through which the fuel emerges as a spray.
- Apparatus of this type is hereinafter referred to as apparatus of the type specified.
- the invention relates further to an improved liquid fuel-atomizing burner proper, suitable for use in the apparatus of-thetype specified- It is frequently necessary or desirable to circulate the liquid fuel through the body of the burner to a point adjacent to the burner tip when the burner is not in operation, i. e., before the tip or orifice valve thereof is opened up, in order, for example, when heavy or highly viscous fuel is 'used, to displace viscous cold fuel which is' left in the vortex chamber and associated parts from a previous operation and to replace it by heated fuel which has a lower viscosity and is adapted to be discharged through the orifice as a well-formed spray. It
- a combustion chamber is provided with a plurality of atomizing burners, some of which may be shut down under conditions of light load while others are in operation, it ,is advantageous to circulate fuel throughthe burners that are shut down in order to cool them and thereby avoid damage to them from the intense radiationof the flames from the other burners or of the refractory in the combustion chamber.
- the rating orstiffness of the spring must be such that the maximum differential pressure at which the fuel can be circulated when the tip valve is closed is less than the minimum pressure differential when" the burner is in operation. Since the latter'dilferential is quite low when the burner is operating at maximum load, with the spill return duct closed or nearly closed,
- the main object of the present invention is to provide an improved construction for controlling the tip valve in a manner which avoids the above-mentioned disadvantages of the previous proposals.
- a specific object is to provide an improved liquid fuelatomizing burner having a tip valve the position of which can be controlled by controlling the direction of flow of fuel through the burner.
- Another specific object is to provide an improved apparatus of the type specified wherein provision is made for reversing the direction of flow of fuel from the pump through the atomizing burner and back to the reservoir.
- each liquid fuel-atomizing burner of the apparatus of the type specified with a tip which may be integral with the valve or a diaphragm,
- the vortex chamber being connected to the fuel supply duct and to the spill return duct by the passageways which inherently create a pressure differential whereby the downstream pressure is lower than the upstream pressure.
- the composite apparatus which may include one or a plurality of liquid fuel-atomizing burners as described in the foregoing paragraph, has a flow-diverting valve for each burner connected to the outlet of the fuel pump to permit the fuel under pressure to be directed at will eitherto the fuel supply duct or to the spill return duct of the respective burners; further, valve means (which may be a part of the aforesaid valve or an additional valve connected for synchronous operation therewith) are provided for each burner to selectively connect either the spill return duct or the fuel supply'duct (whichever is not receiving fuel from the pump) of the respective burner to an oil reservoir so as to maintain a complete circuit.
- a simple four-way valve may serve both of the foregoing purposes.
- the valve thus permits the flow of fuel through the burner to be reversed.
- the flow is in the normal direction, that is from the fuel supply duct through the vortex chamber to the spill return duct, even a slight diiferential pressure serves to open the tip valve.
- differential pressure acts in the opposite direction and closes the valve.
- the tip valve may be advantageously provided with a light spring which is capable of holding the valve closed in these conditions.
- a spring will, of course, be considerably weaker than would be necessary to close the valve under any differential pressure encountered during operation of the burner.
- the invention has the advantage that it lends itself to remote control of the burner, and to individual or simultaneous control of a number of burners. For simultaneous control, it is only necessary to arrange that the valve means shall be common to all the burners served by the same pump, or to one or more groups of such burners, while for individual control separate valve means are provided for each burner.
- Figure l is a longitudinal section through a burner connected with a valve for reversing the flow therethrough;
- Figures 2 and 3 are flow diagrams showing the complete apparatus and illustrating, respectively, normal and reversed fuel flows.
- the liquid fuel-atomizing burner comprises an outer casing or hollow body 1 having a threaded cap nut 2 which retains a flanged sleeve 3 and an orifice wall or jet plate 4 within and in front of the body 1, respectively.
- a valve member 5, disposed within the body 1, comprises a tip valve 6, a hollow stem 7 and a hollow, enlarged piston 8, the tip valve 6 being formed on the end of a rod 9 of reduced diameter which is integral with the stem 7.
- the piston 8 has a close sliding fit in the cylindrical bore of the body 1 and the forward part of the stem 7 has a similar fit within the cylindrical bore of the sleeve 3, so that the valve member is capable of sliding axially within the burner.
- a conical swirl or vortex chamber or prechamber 12 which has a final orifice 13 and communicates with the fuel supply duct 10 by way of tangential swirl ports 14.
- the outer ends of these ports communicate with an annular groove 15 formed in the rear face of the plate 4 so as to be always in communication with holes 16 formed in the flange of the sleeve 3 and arranged along a circle. projecting flange 17 forming the rear wall of the swirl or vortex chamber 12 and providing a central opening through which the rod 9 of the tip valve projects with an annular clearance 18.
- the interior of the stem 7 and the piston 8 constitute the spill return duct 19 of the burner, which communicates with the vortex chamber 12 by way of the annular clearance 18 and a plurality of holes 20 extending through the shoulder formed by the junction of the rod 9 and the stem 7.
- the rear end of the spill duct 19 communicates with a discharge pipe 21 by way of holes 22 in a cap 23 which closes the rear of the body 1 and a groove 22a formed in the body 1.
- the pipes 11 and 21 lead to ports in a rotary, four-v way valve 24 comprising a cylindrical body in which is rotatably mounted a valve member 25.
- the latter has recesses 26 to 29, inclusive. Recesses 26 and 27 are inter-connected by a bore 30 formed in the member 25, and recesses 28 and 29 are inter-connected by a separate bore 31 also formed in member 25.
- the valve member can be rotated by a lever 32 between two portions limited by stops not shown in the drawings.
- discharge pipe 21 is connected by recess 26 with a return pipe 33 which is provided with a spill control valve 34; and supply pipe 11 is connected by recess 28, bore 31 and recess 29 with a pipe 35 through which fuel under pressure is supplied from a pump.
- valve member 25 is connected by recess 28, bore 31 and recess 29 with
- rotation of the valve member 25 has the effect of reversing the connections of pipes 11 and 21 on the one hand with pipes 33 and 35 on the other, and the valve is seen to be of the type adapted to connect the pipes 35 and 33 to the pipes 11 and 21 selectively either in corresponding or reversed relation.
- the fuel-burning apparatus comprises in addition to the liquid-atomizing burner indicated as a whole by number 36, a reservoir 37 containing liquid fuel, the spill control valve 34, a, fuel pump 38 having the usual relief valve 39, and the four-way valve 24.
- FIG. 2 shows the direction of fuel flow when the lever 32 of the four-way valve 24 is in the position for operation of the burner.
- the fuel flows from the reservoir through a pipe 40 to the pump 38 and thence through the pipes 35 and 11 to the fuel supply duct 10 of the burner 36. From this duct, it enters the vortex chamber 12 and a part of the swirling fuel emerges from the final orifice 13 as a spray 41, while the remaining part flows out through the clearance 18, holes 20 and spill return duct 19.
- This spill fuel the proportion of which is controlled by the spill control valve 34, flows by way of pipes 21 and 33 back to the reservoir 37.
- FIG 3 shows the direction of fuel flow when the lever 32 is in the position for circulation of fuel flow when the burner is out of operation.
- the fuel flows from the pump 38 through pipes 35 and 21 into the spill return duct 19 and thence forwardly into the vortex chamber 12.
- the tip valve 6 being now closed, the whole of the fuel flows through the swirl ports 14 into the fuel supply duct 10 and thence through the pipes 11 and 33 back to the reservoir 37.
- a weak compression spring 42 is provided which urges the valve member 5 into the forward or closed position.
- the tip valve is held firmly open at any operating fuel pressure, even at full burner output when the spill control valve 34 is nearly or fully closed, since the opening of the valve is opposed only by the spring 42, which is rated to exert a pressure substantially below that due to the minimum operating differential pressure between ducts 10 and 19.
- the spring 42 may be situated in the duct 10 or in any other convenient posi' tron.
- a liquid fuel-atomizing burner for spill return systems that have means for reversing the flow of fuel comprising: a housing having a fuel supply duct; a prechamber communicating with said duct; an orifice wall forming a wall of said pre-chamber and containing a final orifice for said pre-chamber; a tip valve adapted to close said orifice; a spill return duct communicating with said preschamber and open for fuel flow in both directions; and means responsive to the direction of fuel flow through said open spill return duct for closing said tip valve upon flow of fuel in one direction and opening the tip valve upon flow of fuel in the opposite direction, said means including a differential pressure-responsive device having movable surfaces disposed to act in opposition to each other and exposed to fluid pressures substantially at the pressures of liquid fuel in said fuel supply duct and spill return duct, respectively.
- a burner according to claim 1 wherein said surfaces have substantially equal areas and the tip valve is provided with a weak spring biasing said valve to closed position, whereby said valve is closed when said pressures in the fuel supply duct and in the spill return duct are substantially equal.
- a liquid fuel-atomizing burner for spill return systems that have means for reversing the flow of fuel comprising: a housing having a fuel supply duct; a vortex chamber communicating with said fuel supply duct through one or more ports tangential to the axis of said chamber; an orifice wall forming a wall of said chamber and containing a final orifice for said chamber; a reciprocable tip valve having a closed position for closing said orifice and an open position; a spill return duct communicating with said vortex chamber and open for fuel flow in both directions; and means responsive to the direction of fuel fiow through said open spill return duct for closing said tip valve upon flow of fuel in one direction and opening the tip valve upon flow of fuel in the opposite direction, said means including a movable member having opposed surfaces exposed to fluid pressuressubstantially at the pressures of liquid fuel in said fuel supply duct and spill return duct, respectively.
- a liquid fuel-atomizing burner for spill return systems that have means for reversing the flow of fuel comprising: a housing having an axial bore and providing a fuel supply duct; a hollow piston in the rear part of the housing axially reciprocable within said bore having the forwardly facing surfaces thereof exposed to fuel in said fuel supply duct, the interior of said piston defining a spill return duct that is open at the rear of the piston, whereby the rearwardly facing surfaces of the piston are acted upon by fuel in the spill return duct; a wall structure at the front of the housing defining a vortex chamber having one or more ports tangential to the axis of the vortex chamber for admitting fuel from the fuel supply duct tangentially into the vortex chamber; an orifice wall at the front of said vortex chamber having a final orifice; an opening in said wall structure in rear of said vortex chamber, the front of said spill return duct being constantly in communication with said vortex chamber through said opening for fuel flow in both directions; a stem at the front of.
- said hollow piston projecting forwardly into the vortex chamber through said opening with a clearance permitting the flow of fuel; and a tip valve at the front of said stem situated to close said final orifice when the piston is in the forward position and retractable with said piston to open the orifice.
- a burner according to claim 5 having a spring acting between said housing and the piston biasing said piston to forward position.
- Apparatus for burning liquid fuel comprising: a source of liquid fuel under pressure; a liquid fuel-atomizing burner having a fuel supply duct, a pre-chamber with an orifice wall containing a final orifice, a tip valve adapted to close said orifice, a spill return duct communicating with said pre-chamber, and a differential pressure-responsive device having movable surfaces disposed to act in opposition to each other and exposed to fluid pressures substantially at the pressures of liquid fuel in said fuel supply duct and spill return duct, respectively, operatively connected'to said tip valve to close the tip valve when the fuel pressure in the spill return duct' exceeds that in the fuel supply duct and to open the tip valve when the fuel pressure in the fuel supply duct exceeds that in the spill return duct; and a diverting valve adapted to connect said source of fuel under pressure at will either to said fuel supply duct or to the spill return duct;
- valve means associated with said diverting valve for connecting either said fuel supplyduct or the spill return duct, Whichever is not connected to said source of fuel under pressure, to the reservoir to discharge fuel to the reservoir.
- Apparatus for burning liquid fuel comprising: a liquid fuel reservoir; a liquid fuel pump having the intake thereof connected to said reservoir; a fuel return pipe connectedto discharge oil into the reservoir; aliquid fuel burner having fuel supply andspill return ducts communicating with each other within the burner, a wall structure at the front of the burner having a final orifice, a tip valve for said orifice, and differential pressureresponsive means responsive to the pressures of liquid fuel in said ducts adapted to open the tip valve when the fuel pressure in the fuel supply duct exceeds that of the spill return duct and to close the tip valve when the fuel pressure in the spill return duct exceeds that in the fuel supply duct; and valve means adapted to connect the discharge of said pump and the said oil return pipe selectively either to the fuel supply duct and spill return duct, respectively or to the spill return duct and to the fuel supply duct, respectively.
- Apparatus for burning liquid fuel comprising: a diverting valve of the type adapted to connect a first pair of conduits to a second pair of conduits selectively either in corresponding or reversed relation; a liquid fuel reset voir; a liquid fuel pump having the intake thereof connected to said reservoir and the discharge thereof connected to said diverting valve as one of said first pair of conduits; a fuel return pipe connected to said valve as the other of the first pair of conduits and connected to discharge fuel into said reservoir; a spill control valve in said fuel return pipe for regulating the rate of fuel flow to the reservoir; and a liquid fuel-atomizing burner comprising a housing having a fuel supply duct connected to said diverting valve as one of said second pair of conduits, a vortex chamber communicating with said fuel supply duct through one or more ports tangential to the axis of said vortex chamber, an orifice wall for said vortex chamber containing a final orifice for said vortex chamber, a reciprocable tip valve for said orifice having closed and open positions, a spill return duct
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Description
April 24, 1956 A. W. WILSON OIL BURNER WITH SPILL RETURN DUCT CONTROLLABLE BY FLOW REVERSAL Filed July 18, 1952 \nveni'on Nan Mwilson His Nn orneL;
United States Patent OIL BURNER WITH SPILL RETURN DUCT CONTROLLABLE BY FLOW REVERSAL Alan William Wilson, London, England, assignor to Shell Development Company, Emeryville, Califl, a corporation of Delaware Application July 18, 1952, Serial No. 299,611 Claims priority, application Great Britain August 2, 1951 11 Claims. (Cl. 299-118) This invention relates to apparatus for burning liquid fuel of the type comprising a reservoir for liquid fuel such as oil and a pump for supplying fuel from this reservoir under pressure to one or more liquid fuelatomizing burners of the kind which comprises a prechamber, such as a vortex chamber, communicating with a fuel supply duct through one or' more ports, such as tangential ports, and with a spill return duct for returning a variable amount of excess fuel from the vortex chamber to the reservoir, the vortex chamber having a final outlet orifice through which the fuel emerges as a spray. Apparatus of this type is hereinafter referred to as apparatus of the type specified. The invention relates further to an improved liquid fuel-atomizing burner proper, suitable for use in the apparatus of-thetype specified- It is frequently necessary or desirable to circulate the liquid fuel through the body of the burner to a point adjacent to the burner tip when the burner is not in operation, i. e., before the tip or orifice valve thereof is opened up, in order, for example, when heavy or highly viscous fuel is 'used, to displace viscous cold fuel which is' left in the vortex chamber and associated parts from a previous operation and to replace it by heated fuel which has a lower viscosity and is adapted to be discharged through the orifice as a well-formed spray. It
. may also be desirable to circulate fuel through the burner immediately after it has been shut down, inorder to protect it from the heat radiated by the combustion chamber wall. Again, where a combustion chamber is provided with a plurality of atomizing burners, some of which may be shut down under conditions of light load while others are in operation, it ,is advantageous to circulate fuel throughthe burners that are shut down in order to cool them and thereby avoid damage to them from the intense radiationof the flames from the other burners or of the refractory in the combustion chamber.
In order to enable the fuel to be circulated through the atomizing burner when the latter is not in operation, it has heretofore been proposedto provide the burner with a tip or orifice valve which can be operated manually to close the final orifice, thus allowing fuelto be circulated through the, fuel supply duct, vortex chamber and spill return duct in sequence without issuing from the final orifice. Manual operation of the tip valve, however, involves structural complication, especially where the rear end of the burner is enclosed, for example, in the air supply duct of a gas turbine combustion chamber. It has also been proposed to utilize the differential pressure between the fuel supply duct and'the spill return duct to open the tip valve against the pressure of a spring tending to close it. The rating orstiffness of the spring must be such that the maximum differential pressure at which the fuel can be circulated when the tip valve is closed is less than the minimum pressure differential when" the burner is in operation. Since the latter'dilferential is quite low when the burner is operating at maximum load, with the spill return duct closed or nearly closed,
the circulation of the fuel with the tip valve closed must be carried out at a differential pressure which may 2,743,137 Patented Apr. 24, 1956 ice of the space wherein it operates may lead to the opening,
of the tip valve when fuel is circulating under nonoperating conditions, with undesirable and even dangerous results.
The main object of the present invention is to provide an improved construction for controlling the tip valve in a manner which avoids the above-mentioned disadvantages of the previous proposals.
A specific object is to provide an improved liquid fuelatomizing burner having a tip valve the position of which can be controlled by controlling the direction of flow of fuel through the burner. Another specific object is to provide an improved apparatus of the type specified wherein provision is made for reversing the direction of flow of fuel from the pump through the atomizing burner and back to the reservoir.
The foregoing objects are attained in accordance with the invention by providing each liquid fuel-atomizing burner of the apparatus of the type specified with a tip which may be integral with the valve or a diaphragm,
having movable surfaces disposed to act in opposition to each other of which one face is exposed to a fluid, e. g., the fuel itself, substantially at the pressure prevailing in the fuel supply duct and the other to fiuid at substantially the pressure in the spill return duct, the vortex chamber being connected to the fuel supply duct and to the spill return duct by the passageways which inherently create a pressure differential whereby the downstream pressure is lower than the upstream pressure.
The composite apparatus, which may include one or a plurality of liquid fuel-atomizing burners as described in the foregoing paragraph, has a flow-diverting valve for each burner connected to the outlet of the fuel pump to permit the fuel under pressure to be directed at will eitherto the fuel supply duct or to the spill return duct of the respective burners; further, valve means (which may be a part of the aforesaid valve or an additional valve connected for synchronous operation therewith) are provided for each burner to selectively connect either the spill return duct or the fuel supply'duct (whichever is not receiving fuel from the pump) of the respective burner to an oil reservoir so as to maintain a complete circuit. A simple four-way valve may serve both of the foregoing purposes. The valve thus permits the flow of fuel through the burner to be reversed. When the flow is in the normal direction, that is from the fuel supply duct through the vortex chamber to the spill return duct, even a slight diiferential pressure serves to open the tip valve. When the flow is reversed, differential pressure acts in the opposite direction and closes the valve. Hence, the pressure at which the fuel is circulated when the tip valve closes can be as high as desired without incurrin any risk of opening the valve. 7
In order to hold the tip valve closed and prevent dribble from the burner orifice when'the' pump is not operating, the tip valve may be advantageously provided with a light spring which is capable of holding the valve closed in these conditions. Such a spring will, of course, be considerably weaker than would be necessary to close the valve under any differential pressure encountered during operation of the burner.
The invention has the advantage that it lends itself to remote control of the burner, and to individual or simultaneous control of a number of burners. For simultaneous control, it is only necessary to arrange that the valve means shall be common to all the burners served by the same pump, or to one or more groups of such burners, while for individual control separate valve means are provided for each burner.
The invention will be further described with reference to the accompanying drawing forming a part of this specification and showing by way of example a preferred embodiment, wherein:
Figure l is a longitudinal section through a burner connected with a valve for reversing the flow therethrough; and
Figures 2 and 3 are flow diagrams showing the complete apparatus and illustrating, respectively, normal and reversed fuel flows.
Referring to Figure l, the liquid fuel-atomizing burner comprises an outer casing or hollow body 1 having a threaded cap nut 2 which retains a flanged sleeve 3 and an orifice wall or jet plate 4 within and in front of the body 1, respectively. A valve member 5, disposed within the body 1, comprises a tip valve 6, a hollow stem 7 and a hollow, enlarged piston 8, the tip valve 6 being formed on the end of a rod 9 of reduced diameter which is integral with the stem 7. The piston 8 has a close sliding fit in the cylindrical bore of the body 1 and the forward part of the stem 7 has a similar fit within the cylindrical bore of the sleeve 3, so that the valve member is capable of sliding axially within the burner.
The annular space 10 between the body 1, on the one hand, and the stem 7 and sleeve 3, on the other, constitutes thefuel supply duct of the burner; it communicafes with a fuel supply pipe 11. Formed within the jet plate 4 is a conical swirl or vortex chamber or prechamber 12 which has a final orifice 13 and communicates with the fuel supply duct 10 by way of tangential swirl ports 14. The outer ends of these ports communicate with an annular groove 15 formed in the rear face of the plate 4 so as to be always in communication with holes 16 formed in the flange of the sleeve 3 and arranged along a circle. projecting flange 17 forming the rear wall of the swirl or vortex chamber 12 and providing a central opening through which the rod 9 of the tip valve projects with an annular clearance 18.
The interior of the stem 7 and the piston 8 constitute the spill return duct 19 of the burner, which communicates with the vortex chamber 12 by way of the annular clearance 18 and a plurality of holes 20 extending through the shoulder formed by the junction of the rod 9 and the stem 7. The rear end of the spill duct 19 communicates with a discharge pipe 21 by way of holes 22 in a cap 23 which closes the rear of the body 1 and a groove 22a formed in the body 1.
The pipes 11 and 21 lead to ports in a rotary, four-v way valve 24 comprising a cylindrical body in which is rotatably mounted a valve member 25. The latter has recesses 26 to 29, inclusive. Recesses 26 and 27 are inter-connected by a bore 30 formed in the member 25, and recesses 28 and 29 are inter-connected by a separate bore 31 also formed in member 25. The valve member can be rotated by a lever 32 between two portions limited by stops not shown in the drawings. In the position shown in Figure 1, discharge pipe 21 is connected by recess 26 with a return pipe 33 which is provided with a spill control valve 34; and supply pipe 11 is connected by recess 28, bore 31 and recess 29 with a pipe 35 through which fuel under pressure is supplied from a pump. When the valve member 25 is rotated clock-wise to its other position,in which the lever 32 occupies the position shown in chain lines in Figure 1, supply pipe 11 is connected by recess 27, bore and recess 26 with the return pipe 33; and discharge pipe 21 The sleeve 3 has an inwardly a the pipe 35.
is connected by recess 28, bore 31 and recess 29 with Thus, rotation of the valve member 25 has the effect of reversing the connections of pipes 11 and 21 on the one hand with pipes 33 and 35 on the other, and the valve is seen to be of the type adapted to connect the pipes 35 and 33 to the pipes 11 and 21 selectively either in corresponding or reversed relation.
As shown diagrammatically in Figures 2 and 3, the fuel-burning apparatus comprises in addition to the liquid-atomizing burner indicated as a whole by number 36, a reservoir 37 containing liquid fuel, the spill control valve 34, a, fuel pump 38 having the usual relief valve 39, and the four-way valve 24.
Figure 2 shows the direction of fuel flow when the lever 32 of the four-way valve 24 is in the position for operation of the burner. In this position, the fuel flows from the reservoir through a pipe 40 to the pump 38 and thence through the pipes 35 and 11 to the fuel supply duct 10 of the burner 36. From this duct, it enters the vortex chamber 12 and a part of the swirling fuel emerges from the final orifice 13 as a spray 41, while the remaining part flows out through the clearance 18, holes 20 and spill return duct 19. This spill fuel, the proportion of which is controlled by the spill control valve 34, flows by way of pipes 21 and 33 back to the reservoir 37.
Figure 3 shows the direction of fuel flow when the lever 32 is in the position for circulation of fuel flow when the burner is out of operation. In this position, the fuel flows from the pump 38 through pipes 35 and 21 into the spill return duct 19 and thence forwardly into the vortex chamber 12. The tip valve 6 being now closed, the whole of the fuel flows through the swirl ports 14 into the fuel supply duct 10 and thence through the pipes 11 and 33 back to the reservoir 37.
With the fuel flow as shown in Figure 2, the differential pressure between the fuel supply duct 10 and the spill return duct 19, acting on the piston 8, serves to hold the tip valve 6 in the withdrawn or open position. When the fuel flow through the burner is reversed, as shown in Figure 3, the differential pressure, again acting on the piston 8, serves to hold the tip valve in the forward or closed position in which it seats on the wall of the final orifice 13. Thus, with the lever 32 in the Figure 3 position, as long as the pump 38 is operating the tip valve is held closed and fuel can be circulated freely at any desired pressure, the latter being controlled jointly by the pump and the valve 34. In order, however, to prevent dribble from the final orifice 13 when the pump 38 is not in operation, a weak compression spring 42 is provided which urges the valve member 5 into the forward or closed position. When the lever 32 is in the Figure 2 position, the tip valve is held firmly open at any operating fuel pressure, even at full burner output when the spill control valve 34 is nearly or fully closed, since the opening of the valve is opposed only by the spring 42, which is rated to exert a pressure substantially below that due to the minimum operating differential pressure between ducts 10 and 19. Instead of placing the spring 42, as shown in Figure 1, in an enlargement of the duct within the hollow piston 38, the spring may be situated in the duct 10 or in any other convenient posi' tron.
I claim as my invention:
1. A liquid fuel-atomizing burner for spill return systems that have means for reversing the flow of fuel comprising: a housing having a fuel supply duct; a prechamber communicating with said duct; an orifice wall forming a wall of said pre-chamber and containing a final orifice for said pre-chamber; a tip valve adapted to close said orifice; a spill return duct communicating with said preschamber and open for fuel flow in both directions; and means responsive to the direction of fuel flow through said open spill return duct for closing said tip valve upon flow of fuel in one direction and opening the tip valve upon flow of fuel in the opposite direction, said means including a differential pressure-responsive device having movable surfaces disposed to act in opposition to each other and exposed to fluid pressures substantially at the pressures of liquid fuel in said fuel supply duct and spill return duct, respectively.
2. A burner according to claim 1 wherein said surfaces have substantially equal areas and the tip valve is provided with a weak spring biasing said valve to closed position, whereby said valve is closed when said pressures in the fuel supply duct and in the spill return duct are substantially equal.
3. A liquid fuel-atomizing burner for spill return systems that have means for reversing the flow of fuel comprising: a housing having a fuel supply duct; a vortex chamber communicating with said fuel supply duct through one or more ports tangential to the axis of said chamber; an orifice wall forming a wall of said chamber and containing a final orifice for said chamber; a reciprocable tip valve having a closed position for closing said orifice and an open position; a spill return duct communicating with said vortex chamber and open for fuel flow in both directions; and means responsive to the direction of fuel fiow through said open spill return duct for closing said tip valve upon flow of fuel in one direction and opening the tip valve upon flow of fuel in the opposite direction, said means including a movable member having opposed surfaces exposed to fluid pressuressubstantially at the pressures of liquid fuel in said fuel supply duct and spill return duct, respectively.
4. A burner according to claim 3 wherein said housing has a cylindrical bore and said movable member is a piston reciprocable within said bore.
5. A liquid fuel-atomizing burner for spill return systems that have means for reversing the flow of fuel comprising: a housing having an axial bore and providing a fuel supply duct; a hollow piston in the rear part of the housing axially reciprocable within said bore having the forwardly facing surfaces thereof exposed to fuel in said fuel supply duct, the interior of said piston defining a spill return duct that is open at the rear of the piston, whereby the rearwardly facing surfaces of the piston are acted upon by fuel in the spill return duct; a wall structure at the front of the housing defining a vortex chamber having one or more ports tangential to the axis of the vortex chamber for admitting fuel from the fuel supply duct tangentially into the vortex chamber; an orifice wall at the front of said vortex chamber having a final orifice; an opening in said wall structure in rear of said vortex chamber, the front of said spill return duct being constantly in communication with said vortex chamber through said opening for fuel flow in both directions; a stem at the front of. said hollow piston projecting forwardly into the vortex chamber through said opening with a clearance permitting the flow of fuel; and a tip valve at the front of said stem situated to close said final orifice when the piston is in the forward position and retractable with said piston to open the orifice.
6. A burner according to claim 5 having a spring acting between said housing and the piston biasing said piston to forward position.
7. A burner according to claim 6 wherein the rear part of said spill return duct is enlarged in relation to the forward part and said spring is situated within said enlarged part.
8. Apparatus for burning liquid fuel comprising: a source of liquid fuel under pressure; a liquid fuel-atomizing burner having a fuel supply duct, a pre-chamber with an orifice wall containing a final orifice, a tip valve adapted to close said orifice, a spill return duct communicating with said pre-chamber, and a differential pressure-responsive device having movable surfaces disposed to act in opposition to each other and exposed to fluid pressures substantially at the pressures of liquid fuel in said fuel supply duct and spill return duct, respectively, operatively connected'to said tip valve to close the tip valve when the fuel pressure in the spill return duct' exceeds that in the fuel supply duct and to open the tip valve when the fuel pressure in the fuel supply duct exceeds that in the spill return duct; and a diverting valve adapted to connect said source of fuel under pressure at will either to said fuel supply duct or to the spill return duct;
9. In combination with the apparatus according to claim 8, a liquid fuel reservoir; and valve means associated with said diverting valve for connecting either said fuel supplyduct or the spill return duct, Whichever is not connected to said source of fuel under pressure, to the reservoir to discharge fuel to the reservoir.
10. Apparatus for burning liquid fuel comprising: a liquid fuel reservoir; a liquid fuel pump having the intake thereof connected to said reservoir; a fuel return pipe connectedto discharge oil into the reservoir; aliquid fuel burner having fuel supply andspill return ducts communicating with each other within the burner, a wall structure at the front of the burner having a final orifice, a tip valve for said orifice, and differential pressureresponsive means responsive to the pressures of liquid fuel in said ducts adapted to open the tip valve when the fuel pressure in the fuel supply duct exceeds that of the spill return duct and to close the tip valve when the fuel pressure in the spill return duct exceeds that in the fuel supply duct; and valve means adapted to connect the discharge of said pump and the said oil return pipe selectively either to the fuel supply duct and spill return duct, respectively or to the spill return duct and to the fuel supply duct, respectively.
11. Apparatus for burning liquid fuel comprising: a diverting valve of the type adapted to connect a first pair of conduits to a second pair of conduits selectively either in corresponding or reversed relation; a liquid fuel reset voir; a liquid fuel pump having the intake thereof connected to said reservoir and the discharge thereof connected to said diverting valve as one of said first pair of conduits; a fuel return pipe connected to said valve as the other of the first pair of conduits and connected to discharge fuel into said reservoir; a spill control valve in said fuel return pipe for regulating the rate of fuel flow to the reservoir; and a liquid fuel-atomizing burner comprising a housing having a fuel supply duct connected to said diverting valve as one of said second pair of conduits, a vortex chamber communicating with said fuel supply duct through one or more ports tangential to the axis of said vortex chamber, an orifice wall for said vortex chamber containing a final orifice for said vortex chamber, a reciprocable tip valve for said orifice having closed and open positions, a spill return duct communicating with said vortex chamber and connected to said diverting valve as the other of said second pair of conduits, and a movable member having opposed surfaces exposed to liquid fuel substantially at the pressures of the fuel in said fuel supply and spill return ducts, respectively, operatively connected to said tip valve to move the tip valve to closed position when the fuel pressure in the spill return duct exceeds that in the fuel supply duct and to move the tip valve to open position when the fuel pressure in the fuel supply duct exceeds that in the spill return duct, whereby said tip valve can be opened or closed at will by operation of said diverting valve to flow liquid fuel through the burner in one direction or the other.
References Cited in the file of this patent UNITED STATES PATENTS
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB2743137X | 1951-08-02 |
Publications (1)
Publication Number | Publication Date |
---|---|
US2743137A true US2743137A (en) | 1956-04-24 |
Family
ID=10914480
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US299611A Expired - Lifetime US2743137A (en) | 1951-08-02 | 1952-07-18 | Oil burner with spill return duct controllable by flow reversal |
Country Status (1)
Country | Link |
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US (1) | US2743137A (en) |
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2995185A (en) * | 1957-08-27 | 1961-08-08 | Int Combustion Holdings Ltd | Liquid fuel burning installations |
US3078046A (en) * | 1960-01-01 | 1963-02-19 | Dowty Fuel Syst Ltd | Liquid supply systems |
US3176922A (en) * | 1960-07-14 | 1965-04-06 | Herman W Decker | Spray gun |
US3212715A (en) * | 1963-06-19 | 1965-10-19 | Eric H Cocks | Solenoid airless spray gun |
DE1225672B (en) * | 1961-08-12 | 1966-09-29 | Metallgesellschaft Ag | Device for feeding the flow of liquid to an atomizing nozzle arranged in a hot, dusty gas flow |
DE1230160B (en) * | 1960-01-01 | 1966-12-08 | Dowty Fuel Syst Ltd | Fuel delivery system |
US3669354A (en) * | 1970-09-08 | 1972-06-13 | J & T Eng Ascot Ltd | Fluid injectors |
US3844479A (en) * | 1972-11-30 | 1974-10-29 | Tectron Eng Ltd | Fluid injector |
EP0108929A2 (en) * | 1982-11-11 | 1984-05-23 | Hermann Behr & Sohn GmbH & Co. | Apparatus for dispensing a liquid |
US4726933A (en) * | 1985-10-08 | 1988-02-23 | Admiral Equipment Company | High pressure mixing head and reactive component injection valve |
US6092738A (en) * | 1995-09-29 | 2000-07-25 | Siemens Aktiengesellschaft | Fuel nozzle configuration for a fluid-fuel burner, oil burner using the fuel nozzle configuration and method for regulating the fuel supply of a fluid-fuel burner |
US20140060071A1 (en) * | 2011-05-03 | 2014-03-06 | Siemens Aktiengesellschaft | Cooled pilot fuel lance |
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US1644372A (en) * | 1922-04-21 | 1927-10-04 | James H Gray | Burner for liquid fuel |
US1824952A (en) * | 1929-10-01 | 1931-09-29 | Peabody Engineering Corp | Oil burning system |
GB536331A (en) * | 1939-10-28 | 1941-05-12 | Anglo Saxon Petroleum Co | A new or improved liquid-fuel burner |
US2579004A (en) * | 1947-09-24 | 1951-12-18 | Shell Dev | Liquid fuel burner with nondribble tip valve |
US2579829A (en) * | 1949-01-10 | 1951-12-25 | Shell Dev | Liquid fuel burner with oil precirculation |
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US1644372A (en) * | 1922-04-21 | 1927-10-04 | James H Gray | Burner for liquid fuel |
US1824952A (en) * | 1929-10-01 | 1931-09-29 | Peabody Engineering Corp | Oil burning system |
GB536331A (en) * | 1939-10-28 | 1941-05-12 | Anglo Saxon Petroleum Co | A new or improved liquid-fuel burner |
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Cited By (14)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2995185A (en) * | 1957-08-27 | 1961-08-08 | Int Combustion Holdings Ltd | Liquid fuel burning installations |
US3078046A (en) * | 1960-01-01 | 1963-02-19 | Dowty Fuel Syst Ltd | Liquid supply systems |
DE1230160B (en) * | 1960-01-01 | 1966-12-08 | Dowty Fuel Syst Ltd | Fuel delivery system |
US3176922A (en) * | 1960-07-14 | 1965-04-06 | Herman W Decker | Spray gun |
DE1225672B (en) * | 1961-08-12 | 1966-09-29 | Metallgesellschaft Ag | Device for feeding the flow of liquid to an atomizing nozzle arranged in a hot, dusty gas flow |
US3212715A (en) * | 1963-06-19 | 1965-10-19 | Eric H Cocks | Solenoid airless spray gun |
US3669354A (en) * | 1970-09-08 | 1972-06-13 | J & T Eng Ascot Ltd | Fluid injectors |
US3844479A (en) * | 1972-11-30 | 1974-10-29 | Tectron Eng Ltd | Fluid injector |
EP0108929A2 (en) * | 1982-11-11 | 1984-05-23 | Hermann Behr & Sohn GmbH & Co. | Apparatus for dispensing a liquid |
EP0108929A3 (en) * | 1982-11-11 | 1985-09-25 | Hermann Behr & Sohn Gmbh & Co. | Spraying installation nozzle with coaxial feeding channels |
US4726933A (en) * | 1985-10-08 | 1988-02-23 | Admiral Equipment Company | High pressure mixing head and reactive component injection valve |
US6092738A (en) * | 1995-09-29 | 2000-07-25 | Siemens Aktiengesellschaft | Fuel nozzle configuration for a fluid-fuel burner, oil burner using the fuel nozzle configuration and method for regulating the fuel supply of a fluid-fuel burner |
US20140060071A1 (en) * | 2011-05-03 | 2014-03-06 | Siemens Aktiengesellschaft | Cooled pilot fuel lance |
US8919126B2 (en) * | 2011-05-03 | 2014-12-30 | Siemens Aktiengesellschaft | Cooled pilot fuel lance |
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