US2259299A - Heating apparatus - Google Patents
Heating apparatus Download PDFInfo
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- US2259299A US2259299A US202679A US20267938A US2259299A US 2259299 A US2259299 A US 2259299A US 202679 A US202679 A US 202679A US 20267938 A US20267938 A US 20267938A US 2259299 A US2259299 A US 2259299A
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- burner
- switch
- diaphragm
- combustion chamber
- chamber
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H3/00—Air heaters
- F24H3/002—Air heaters using electric energy supply
- F24H3/004—Air heaters using electric energy supply with a closed circuit for a heat transfer liquid
Definitions
- My invention relates to heating apparatus and control for the same, and an object is to secure safety, efllciency and accurate and reliable control.
- FIG. 1 is a sectional elevation of an apparatus embodying my invention, the control being shown diagrammatically;
- Figure 2 is a section on the line IIII, Figure 1;
- Figure 3 is a detail section, to an enlarged scale, of the burner and adjacent and cooperating parts;
- Figure 4 is a detail plan view of a portion of the apparatus shown in Figure 3;
- Figure 5 is adetail elevation showing the delivery end of the burner looking from the left of Figure 3.
- A indicates the furnace as a whole, which I will assume for convenience in description is using gas as a fuel, including the horizontal cylindrical combustion chamber 2 at the top, and the horizontal manifold 3 at the bottom connected by parallel spaced tubular columns I.
- the chamber 2 is preferably provided with heatradiating ribs 20.
- 5 is a tubular burner the casing 5a of which I have shown as rectangular in cross-section, smaller at its receiving end and gradually enlarging to its delivery end.
- Said casing is provided with an outwardly extending flange 5b by which it is secured to the end of the chamber 2 coaxially therewith and having its delivery end extending into said chamber.
- 50 indicates holes for the passage of air which may be formed through the flange 51).
- 5d is an inlet aperture through which gaseous fuel is projected into the casing 5a.
- 5e indicates sheets of metal lying against each other throughout the breadth of the delivery opening from the casing 5a. These sheets are alternately corrugated and plane the corrugations running in the direction of the length of the casing.
- 6 is the fuel manifold and 6a is the supply pipe.
- '1 are small delivery nozzles leading from the manifold 6 coaxially with the openings or ports id in the casing 5a. These nozzles are smaller than said ports and are screw-threaded in their outer surfaces.
- Ia are discs upon the nozzles having interior screw-threads engaging the screw-threads of the nozzles I. Said discs may be adjusted along said nozzles to vary the area of opening for air entering the ports 5d.
- FIG. 1 is an observation window in the chamber 2, through which the flame from the burner 5 may be observed. This opening is covered air-tight with a transparent substance.
- B is an exhaust fan adapted to draw air from the interior of the furnace A.
- 8 is a sparking plug extending through the wall of the chamber 2, its lead wires extending into a position to produce an ignition spark for the burner 5;
- 9 is a rod extending through the wall of the chamber 2, and adapted to turn about its axis.
- 9a is a mercury switch on the outer end of the rod 9, and 9b is a bimetal thermostatic coil in the chamber 2 adapted to turn the rod 9 for a purpose hereinafter described.
- I0 is an electrically controlled valve in the gas supply pipe Sa.
- H is a pressure regulating valve in said pipe.
- I2 is an enclosure divided into upper and lower compartments by the weighted diaphragm I2a, the lower one of said chambers is open to the atmosphere and the upper one is connected to the interior of the chamber ,2 by a pipe l3 through a small metering aperture ll in the wall of the enclosure l2.
- I5 is a lever pivoted below the enclosure I 2, having one arm connected at the center of the diaphragm l2a.
- I6 is a mercury switch secured upon the lever I5.
- I 'l is a transformer, or sparking-coil, having its secondary winding connected to energize the leads of the plug 8 to produce an igniting spark to light the burner 5.
- l8-l8a indicate the electric mains which operate the fan B.
- I9 is a room-thermostat. 20 is a transformer having its primary coil connected across the 'mains
- H is an electric switch adapted to make and break the circuit through the mains l8-l8a.
- is operated by a coil in the circuit of the secondary of the transformer 20 and the room-thermostat I9.
- 22 is a lead wire connected to the main l8a leading through the operating coil of the valve l0 and through the switch- I 6 to the extension of the main i 8 beyond the switch 2!.
- 23 is a lead wire passing through the primary of the transformer i1 and the switch 9a and connecting with the lead wire 22 between the valve l0 and the switch It.
- the metering aperture ll in the wall of the enclosure i2 is of such a size that the vacuum necessary to raise the diaphragm I2a shall not 25 occur until after the termination of a predetermined time so that all residual gases in the furnace shall be removed before an igniting spark occurs and before new gas and air is admitted.
- thermostat 9b is actuated thereby and the switch 9a is turned to break the circuit through the transformer l1 and an igniting spark no longer occurs in the furnace.
- the switch 9 : being in a branch from the wire affect the current in the latter.
- the motor 3 runs at a constant speed andthe regulating valve ii maintains a constant pressure of gas at the nozzles I.
- the area of air passage to the burner may be adjusted so that a constant and uniform mixture of air and gas is maintained in the burner.
- any other suitable form of switch may be used.
- the diaphragms area is sufilcient to supply abundant actuating force to the switch, andthe action is directly controlled by the static preschange in said pressure due to an abnormal working or disarrangement of the apparatus is immediately and effectively responded to by the diaphragm and connected switch.
- the diaphragm would fall and the gas supply and ignition would be discontinued.
- a gust of wind may obstruct the passage of the gases in the stack, or cause a down draft
- the metered passage between the combustion 22 does not 5 is supplied under constant pressure through the burner.
- a heating system the combination of a combustion chamber, a burner communicating with a source of fuel supply and extending into the combustion chamber, an electrically operated ignition means located in said chamber adjacent the delivery end of the burner and included in an electric circuit, a valve controlling the flow of fuel to the burner, means for circulating air through the combustion chamber, a pressure operated device comprising a closed casing having a flexible diaphragm at one side thereof and communicating with the interior of the combustion chamber through the medium of a passage, the end of the passage communicating with the combustion chamber being so located with respect to the air stream circulated through the combustion chamber by the means aforesaid that a suction is created in the passage and the pressure in said casing is reduced to effect an operation of the diaphragm, and means operated by the diaphragm in response to the reduction in pressure aforesaid for closing the circuit to the ignition means and for opening said valve, said passage also having a restriction predetermined to insure operation of the air circulating means for a definite period before the diaphrag
- a heating system the combination of a combustion chamber, a burner communicating with a source of fuel supply and extending into the combustion chamber, an electrically operated ignition means located in said chamber adjacent the delivery end of the burner and included in an electric circuit, a valve controlling the flow of fuel to the burner, a pressure oper- Should the vacuum in the combustion cham- 55: tial pressures at opposite sldes of the diaphragm to operate the latter, said passage communicating with the chamber at a point immediately addiaphragm to open said valve and to close the circuit to the ignition 'means.
- a heating system the combination of a combustion chamber, a burner communicating with a source of fuel supply and extendi'ng'into the combustion chamber, an electrically operchamber and the diaphragm enclosure obviates '75 ated igniter located in the combustion chamber in proximity to the delivery end of the burner and included in an electric circuit, an electrically operated valve controlling the flow of fuel to the burner and alsoincluded in an electric circuit, a switch controlling both circuits, a closed casing having a flexible diaphragm at one side communicating v with the combustion chamber through the medium of a passage, a blower having the discharge side communicating with the combustion chamber for drawing air from the combustion chamber in a manner to create a suction in said 'passage and thereby produce a differential pressure at opposite sides 01' the dia-' phragm to operate the latter, said passage being in communication withthe combustion chamber at a point so located with respect to the delivery end 0!
- the burner that complete evacuation of any combustible gases that may be present in the chamber is accomplished by the time a suction is created in said passage, and means operated by the diaphragm in response to the movement of the latter caused by the suction in said passage ior closing said switch to openthe valve and to close the circuit to the igniter, said passage also being restricted to cause a predetermined delay in the movement of the diaphragm to operate said switch and to also prevent fluttering of the diaphragm by minor pressure variations in the combustion chamber.
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Feeding And Controlling Fuel (AREA)
Description
0d. 14, 1941. J DEWEY 2,259,299
HEATING APPARATUS Filed April 18, 1958 2 Sheets-Sheet 1 1N VENTOR. Maw 5x QEWEX ATTORNEY.
Oct. 14, 1941. J, DEWEY HEATING APPARATUS Filed April 18, 1958 2 Sheets-Sheet 2 IN VENTOR. fl/flucvcf J flan/ex ATTORNEY.
Patented Oct. 14,1941
UNITED STATES PATENT OFFICE HEATING APPARATUS Maurice J. Dewey, Detroit, Mich.
Application April 18, 1938, Serial No. 202,679
3 Claims.
My invention relates to heating apparatus and control for the same, and an object is to secure safety, efllciency and accurate and reliable control.
I secure this object in the apparatus shown in the accompanying drawings in which:
Figure 1 is a sectional elevation of an apparatus embodying my invention, the control being shown diagrammatically;
Figure 2 is a section on the line IIII, Figure 1;
Figure 3 is a detail section, to an enlarged scale, of the burner and adjacent and cooperating parts;
Figure 4 is a detail plan view of a portion of the apparatus shown in Figure 3;
Figure 5 is adetail elevation showing the delivery end of the burner looking from the left of Figure 3.
This application may be considered a continuation in part of my copending application Serial Number 91,063.
A indicates the furnace as a whole, which I will assume for convenience in description is using gas as a fuel, including the horizontal cylindrical combustion chamber 2 at the top, and the horizontal manifold 3 at the bottom connected by parallel spaced tubular columns I. The chamber 2 is preferably provided with heatradiating ribs 20.
5 is a tubular burner the casing 5a of which I have shown as rectangular in cross-section, smaller at its receiving end and gradually enlarging to its delivery end. Said casing is provided with an outwardly extending flange 5b by which it is secured to the end of the chamber 2 coaxially therewith and having its delivery end extending into said chamber. 50 indicates holes for the passage of air which may be formed through the flange 51). 5d is an inlet aperture through which gaseous fuel is projected into the casing 5a. 5e indicates sheets of metal lying against each other throughout the breadth of the delivery opening from the casing 5a. These sheets are alternately corrugated and plane the corrugations running in the direction of the length of the casing.
6 is the fuel manifold and 6a is the supply pipe. '1 are small delivery nozzles leading from the manifold 6 coaxially with the openings or ports id in the casing 5a. These nozzles are smaller than said ports and are screw-threaded in their outer surfaces. Ia are discs upon the nozzles having interior screw-threads engaging the screw-threads of the nozzles I. Said discs may be adjusted along said nozzles to vary the area of opening for air entering the ports 5d.
2b (Fig. 1) is an observation window in the chamber 2, through which the flame from the burner 5 may be observed. This opening is covered air-tight with a transparent substance.
B is an exhaust fan adapted to draw air from the interior of the furnace A. 8 is a sparking plug extending through the wall of the chamber 2, its lead wires extending into a position to produce an ignition spark for the burner 5; 9 is a rod extending through the wall of the chamber 2, and adapted to turn about its axis. 9a is a mercury switch on the outer end of the rod 9, and 9b is a bimetal thermostatic coil in the chamber 2 adapted to turn the rod 9 for a purpose hereinafter described.
I0 is an electrically controlled valve in the gas supply pipe Sa. H is a pressure regulating valve in said pipe.
I2 is an enclosure divided into upper and lower compartments by the weighted diaphragm I2a, the lower one of said chambers is open to the atmosphere and the upper one is connected to the interior of the chamber ,2 by a pipe l3 through a small metering aperture ll in the wall of the enclosure l2.
I5 is a lever pivoted below the enclosure I 2, having one arm connected at the center of the diaphragm l2a. I6 is a mercury switch secured upon the lever I5.
I 'l is a transformer, or sparking-coil, having its secondary winding connected to energize the leads of the plug 8 to produce an igniting spark to light the burner 5. l8-l8a indicate the electric mains which operate the fan B.
I9 is a room-thermostat. 20 is a transformer having its primary coil connected across the 'mains |8l8a.
H is an electric switch adapted to make and break the circuit through the mains l8-l8a.
The switch 2| is operated by a coil in the circuit of the secondary of the transformer 20 and the room-thermostat I9. 22 is a lead wire connected to the main l8a leading through the operating coil of the valve l0 and through the switch- I 6 to the extension of the main i 8 beyond the switch 2!. 23 is a lead wire passing through the primary of the transformer i1 and the switch 9a and connecting with the lead wire 22 between the valve l0 and the switch It.
J The operation of the above described apparatus is as follows:
When the switch of the room-thermostat I9 is open, the circuit through the mains |8-|8a is sure in the combustion chamber so that any a, through the coil of the switch 2|, closing the 6 same and completing the circuit through the mains ll-lla. This sets the fan B in operation drawing a vacuum in the furnace A. This vacuum is gradually communicated through the pipe I! and metering aperture M to the upper, 10
compartment of the enclosure II. In the apparatus shown this time is about six seconds. The preponderating pressure below the diaphragm raises the same, turning the lever ll about its pivot and completing the circuit through the wire 22 and actuating coil of the valve i0, thus opening the gas supply to the burner 5. The closing of the switch It also completes the circuit through the lead wire 23 and primary coil of the transformer i1 causing an ignition spark to light the gas and air mixture at the delivery end of the burner 5.
The metering aperture ll in the wall of the enclosure i2 is of such a size that the vacuum necessary to raise the diaphragm I2a shall not 25 occur until after the termination of a predetermined time so that all residual gases in the furnace shall be removed before an igniting spark occurs and before new gas and air is admitted.
When the temperature in the chamber 2 rises,
the thermostat 9b is actuated thereby and the switch 9a is turned to break the circuit through the transformer l1 and an igniting spark no longer occurs in the furnace. The switch 9:: being in a branch from the wire affect the current in the latter.
The motor 3 runs at a constant speed andthe regulating valve ii maintains a constant pressure of gas at the nozzles I. By adjusting the discs la, the area of air passage to the burner may be adjusted so that a constant and uniform mixture of air and gas is maintained in the burner. I I
While a mercury switch has been above described any other suitable form of switch may be used. The diaphragms area is sufilcient to supply abundant actuating force to the switch, andthe action is directly controlled by the static preschange in said pressure due to an abnormal working or disarrangement of the apparatus is immediately and effectively responded to by the diaphragm and connected switch.
ber be destroyed as, for instance, by an obstruction in the stack, or the breaking of a part, the diaphragm would fall and the gas supply and ignition would be discontinued.
Hitherto the regular operation has been inter- '50 fered with by causes acting only momentarily, as when. the ignition takes place after the vacuum has been formed, the flame heating and expanding the air, restoring the pressure and causing the diaphragm to fall which again rises when the effect of theimpulsive pressure has passed,
thus actuating the control. This action is automatically repeated and is called hunting."
Also a gust of wind may obstruct the passage of the gases in the stack, or cause a down draft,
which acts to restore the pressure and operate the control.
The metered passage between the combustion 22 does not 5 is supplied under constant pressure through the burner.
I claim:
1. In a heating system, the combination of a combustion chamber, a burner communicating with a source of fuel supply and extending into the combustion chamber, an electrically operated ignition means located in said chamber adjacent the delivery end of the burner and included in an electric circuit, a valve controlling the flow of fuel to the burner, means for circulating air through the combustion chamber, a pressure operated device comprising a closed casing having a flexible diaphragm at one side thereof and communicating with the interior of the combustion chamber through the medium of a passage, the end of the passage communicating with the combustion chamber being so located with respect to the air stream circulated through the combustion chamber by the means aforesaid that a suction is created in the passage and the pressure in said casing is reduced to effect an operation of the diaphragm, and means operated by the diaphragm in response to the reduction in pressure aforesaid for closing the circuit to the ignition means and for opening said valve, said passage also having a restriction predetermined to insure operation of the air circulating means for a definite period before the diaphragm operates to close the circuit to the ignition means and to open said valve.
2. In' a heating system, the combination of a combustion chamber, a burner communicating with a source of fuel supply and extending into the combustion chamber, an electrically operated ignition means located in said chamber adjacent the delivery end of the burner and included in an electric circuit, a valve controlling the flow of fuel to the burner, a pressure oper- Should the vacuum in the combustion cham- 55: tial pressures at opposite sldes of the diaphragm to operate the latter, said passage communicating with the chamber at a point immediately addiaphragm to open said valve and to close the circuit to the ignition 'means.
3. In a heating system, the combination of a combustion chamber, a burner communicating with a source of fuel supply and extendi'ng'into the combustion chamber, an electrically operchamber and the diaphragm enclosure obviates '75 ated igniter located in the combustion chamber in proximity to the delivery end of the burner and included in an electric circuit, an electrically operated valve controlling the flow of fuel to the burner and alsoincluded in an electric circuit, a switch controlling both circuits, a closed casing having a flexible diaphragm at one side communicating v with the combustion chamber through the medium of a passage, a blower having the discharge side communicating with the combustion chamber for drawing air from the combustion chamber in a manner to create a suction in said 'passage and thereby produce a differential pressure at opposite sides 01' the dia-' phragm to operate the latter, said passage being in communication withthe combustion chamber at a point so located with respect to the delivery end 0! the burner that complete evacuation of any combustible gases that may be present in the chamber is accomplished by the time a suction is created in said passage, and means operated by the diaphragm in response to the movement of the latter caused by the suction in said passage ior closing said switch to openthe valve and to close the circuit to the igniter, said passage also being restricted to cause a predetermined delay in the movement of the diaphragm to operate said switch and to also prevent fluttering of the diaphragm by minor pressure variations in the combustion chamber.
MAURICE J. DEWEY.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US202679A US2259299A (en) | 1938-04-18 | 1938-04-18 | Heating apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US202679A US2259299A (en) | 1938-04-18 | 1938-04-18 | Heating apparatus |
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US2259299A true US2259299A (en) | 1941-10-14 |
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US202679A Expired - Lifetime US2259299A (en) | 1938-04-18 | 1938-04-18 | Heating apparatus |
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Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2418566A (en) * | 1942-05-11 | 1947-04-08 | Solar Aircraft Co | Fuel-air mixture control for aircraft heaters |
US2543033A (en) * | 1944-06-12 | 1951-02-27 | Harry C Little | Oil burning downdraft floor furnace |
US2603208A (en) * | 1952-07-15 | Downdraft hot-air furnace | ||
US2622669A (en) * | 1950-11-03 | 1952-12-23 | Comb Eng Superheater Inc | Control and indicating means for burner igniter torches |
US2642128A (en) * | 1946-09-13 | 1953-06-16 | Union Fork & Hoe Co | Pressure responsive combustion control apparatus |
US2704571A (en) * | 1955-03-22 | Safety control circuit for forced draft | ||
US3269450A (en) * | 1963-12-12 | 1966-08-30 | Gen Motors Corp | Gas furnace control system |
US3280774A (en) * | 1965-02-12 | 1966-10-25 | Robert M English | Combustion apparatus and controlled draft inducer |
US4299555A (en) * | 1979-04-30 | 1981-11-10 | New Super Laundry Machine Co. | Control circuit for combustion systems |
US4842510A (en) * | 1987-09-10 | 1989-06-27 | Hamilton Standard Controls, Inc. | Integrated furnace control having ignition and pressure switch diagnostics |
US5186386A (en) * | 1990-02-09 | 1993-02-16 | Inter-City Products Corporation (Usa) | Two stage furnace control |
-
1938
- 1938-04-18 US US202679A patent/US2259299A/en not_active Expired - Lifetime
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2603208A (en) * | 1952-07-15 | Downdraft hot-air furnace | ||
US2704571A (en) * | 1955-03-22 | Safety control circuit for forced draft | ||
US2418566A (en) * | 1942-05-11 | 1947-04-08 | Solar Aircraft Co | Fuel-air mixture control for aircraft heaters |
US2543033A (en) * | 1944-06-12 | 1951-02-27 | Harry C Little | Oil burning downdraft floor furnace |
US2642128A (en) * | 1946-09-13 | 1953-06-16 | Union Fork & Hoe Co | Pressure responsive combustion control apparatus |
US2622669A (en) * | 1950-11-03 | 1952-12-23 | Comb Eng Superheater Inc | Control and indicating means for burner igniter torches |
US3269450A (en) * | 1963-12-12 | 1966-08-30 | Gen Motors Corp | Gas furnace control system |
US3280774A (en) * | 1965-02-12 | 1966-10-25 | Robert M English | Combustion apparatus and controlled draft inducer |
US4299555A (en) * | 1979-04-30 | 1981-11-10 | New Super Laundry Machine Co. | Control circuit for combustion systems |
US4842510A (en) * | 1987-09-10 | 1989-06-27 | Hamilton Standard Controls, Inc. | Integrated furnace control having ignition and pressure switch diagnostics |
US5186386A (en) * | 1990-02-09 | 1993-02-16 | Inter-City Products Corporation (Usa) | Two stage furnace control |
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