US1875388A - Assiqnob to minneapoijs-honeywml - Google Patents
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- US1875388A US1875388A US1875388DA US1875388A US 1875388 A US1875388 A US 1875388A US 1875388D A US1875388D A US 1875388DA US 1875388 A US1875388 A US 1875388A
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- Prior art keywords
- valve
- burner
- conduit
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- main
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- 239000000446 fuel Substances 0.000 description 29
- 239000012530 fluid Substances 0.000 description 17
- 238000010168 coupling process Methods 0.000 description 11
- 238000005859 coupling reaction Methods 0.000 description 11
- 230000001276 controlling effect Effects 0.000 description 10
- 230000008878 coupling Effects 0.000 description 4
- 238000002485 combustion reaction Methods 0.000 description 2
- 241001289435 Astragalus brachycalyx Species 0.000 description 1
- 235000002917 Fraxinus ornus Nutrition 0.000 description 1
- 230000001419 dependent effect Effects 0.000 description 1
- 239000002737 fuel gas Substances 0.000 description 1
- VKYKSIONXSXAKP-UHFFFAOYSA-N hexamethylenetetramine Chemical compound C1N(C2)CN3CN1CN2C3 VKYKSIONXSXAKP-UHFFFAOYSA-N 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000005192 partition Methods 0.000 description 1
Images
Classifications
-
- G—PHYSICS
- G05—CONTROLLING; REGULATING
- G05D—SYSTEMS FOR CONTROLLING OR REGULATING NON-ELECTRIC VARIABLES
- G05D23/00—Control of temperature
- G05D23/01—Control of temperature without auxiliary power
- G05D23/02—Control of temperature without auxiliary power with sensing element expanding and contracting in response to changes of temperature
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23N—REGULATING OR CONTROLLING COMBUSTION
- F23N1/00—Regulating fuel supply
- F23N1/02—Regulating fuel supply conjointly with air supply
- F23N1/027—Regulating fuel supply conjointly with air supply using mechanical means
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23N—REGULATING OR CONTROLLING COMBUSTION
- F23N2235/00—Valves, nozzles or pumps
- F23N2235/12—Fuel valves
- F23N2235/20—Membrane valves
Definitions
- INDIANA ASSIGNOB 1'0 MINNEAPOLIS-HON YWELL REGULATOR COMPANY, OF WABABH, INDIANA, A CORPORATION 01' DELAWARE 3113mm c'om'nor.
- the present application relates to a burner under the control of the room thermostat, for controlling the operation of a fluid-fuel heatburner.
- the objects of the invention are to provide mechanism of the class described which shall be absolutely reliable to respond to the demands of the room thermostat, and to prevent a supply of fuel to the main burner in the event of failure of,
- the single figure is a more or less diagrammatic view of an installation in accordance with the present invention.
- a main burner 10 adapted to be supplied with a fluidfuel, such as fuel gas, through a main supply line 11.
- Said supply line 11 is connected to one branch of a four-way coupling 12, to the opposite branch of which is connected a pipe 13 leading into a valve casing 14.
- a second pipe 15 leads from said valve casing 14 to said burner 10.
- a valve seat member 16 provides a passageway through the partition 17 in said casing 14, and a flexible diaphragm 18 is clamped to said casing through the medium of a cover member 19, said diaphragm carrying a valve member 20 adapted to cooperate with said valve seat member 16 to control flow from the inlet chamber 21 of said casing to the outlet chamber 22 thereof.
- the cover member 19 is formed with a port 23 leading into 23 in the cover member 19.
- valve 31 to a pipe 32 connected to the shank of a T-coupling 33 to one arm of which is connected a conduit 34 threaded into the port valve 31 is normally open and, as will be obvious, so long as said valve is open, fuel under pressure is supplied to the chamber formed by the cover member 19 and the flexible diaphragm 18, the pressure s0 built up in said chamber :9 hold the valve member 20 in closed posiion.
- a pipe 36 leading to the inlet diaphragm 39 carries a valve 40 adapted .to control flow from said inlet chamber 37 to the outlet. chamber 41 of said casing 38.
- a pipe 42 connected to said outlet chamber 41 is coupled through aT-coupling 43 to a pipe "44 which% in turn, is coupled to the op osite the T-coupling 33.
- a conduit 45 leading through a branch 0 valve 46 and a T-coupling 47 to a check pilot 8 burner 48.
- dSaid burner 48 is so disposed and constructe fuel which may be supplied to the burner 10.
- the valve 31 is PIOVI ed, with an operatin stem 50 extending into operative relation witfi the movable portion'of a thermostat bar 51, and said bar 51 is disposed to be afi'ected by the flame 49 in a manner later to be described.
- the valve 46 is opened, flow is permitted through the pipe 52 to build up a pressure tending valve casing 38.
- the valve 46 is provided with an actuating stem, 46' adapted to be affected by a solenoid 55.
- a solenoid 55 To the terminals 56 and 57 of said solenoid are connected leads 58 and 59 terminating in contact posts 60 and 61 adapted to be selectively contacted b the movable bar 62 of a room thermostat, 1t being understood that a suitable source of electrical energy is connected into the circuit.
- the arran ement is such that, when the temperature of t e room in which the thermostat is mounted falls below a predetermined minimum, the bar 62 contacts the post 60 to open the valve 46, and when the temperature of the room rises above a predetermined maximum, the bar62' contacts the post 61 to close the valve 46.
- To theshank of the T-coupling 43 there is connected a bleed pipe 63 leading through a valve casing 64 provided with a needle valve 65, said conduit terminating in a burner 66.
- the burner 66 ' is disposed in cooperative relation with the constantly burning pilot flame 28 so that any fuel discharged through said burner 66 will be ignited by said flame 28.
- the bleed pipe 63 might be connected into the conduit 27 wherebyuel drained through said bleed pipe would be consumed in the pilot flame 28.
- valve 31 In the operation of the device, it is to be understood that, under normal circumstances, the valve 31 is open, the valve 46 is closed, and the pilot flame 28 is burning. With the valve 46 closed, there is no pressure in the chamber 54 tending to hold the valve 40 closed, and consequently flow is permitted through the conduit 36 and the valve casing .38 to maintain a valve-closing pressure'in the diaphragm chamber of the valve casing 14. The pressure so established is supplemented by a flow through the conduits 27, 30, the valve 31 and the conduit 32 to said chamber. A small bleed flow through the conduit 63 will also be established, the fuel thus bled from the system being consumed at the burner 66. s
- the arm 62 will contact the post to energize the solenoid 55 to open the valve 46. Flow is thus established through the conduit 45 to the burner 48, and, the pilot burner 28 igniting the stream of fuel issuing from said burner, the long flame 49 is established. Since the passage through the valve 46 is materially larger than the opening through the burner 48, a pressure will be built up in the conduit 52-and the chamber 54 to close the valve 40. The valve 20, however, will be maintained in closed position by the pressure built up in the diaphragm chamber of the casing 14 through the valve 31 and the conduit 32. As the flame 49 heats the thermostat member 51, the arm thereof moves toward the right as' viewed in the drawin to close the valve 31.
- the thermostat 51 is so disposed as not to be affected by the heat of the pilot flame 28.
- the valve 31 can be closed to permit opening of the valve 20 only if the flame 49 is ignited.
- the flame 49 and the thermostatic member 51 thus comprise a check on the pilot flame 28, whereby flow of fuel to the mainburner is prevented in case the pilot flame 28 has, in any manner, been extinguished.
- the demand of the room thermostate will, after a period be satisfied.
- the arm 62 contacts the post 61 to close the valve 46.
- the flame 49 is thus extinguished, and the thermostatic element 61 will slowly cool down sufliciently to open the valve 31. It is desirable, however, to shut off the main burner flame as quickly as possible after the demand of the room thermostat has been satisfied.
- the response of the thermostatic element 51 is much too slow, and consequently there is provided means for closing down the valve 20 long prior to the opening of the valve 31.
- Such means comprises the valve 38.
- valve 46 closes, the supply of fuel through the conduit 52 is cut off and the pressure built up in said conduit and in the chamber 54 is immediately drained through said conduit and the pipe 45 to the burner 48, thus permitting the valve 40 to be Opened to build up a pressure in the pipes fl'exible diaphragm in 42 and 44 and in the diaphragm chamber of the valve casing 14, such pressure closing the valve 20.
- the mechanism illustrated would be utterly inoperative in the absence of the bleed pipe 63. Opening of the valve 20 is dependent upon the draining of pressure from the chamber of which one wall is formed by the diaphragm 18.
- the valve 40 1s 1mmediately closed, thus, in the absence of the bleed pipe 63, trapping any fuel remammg between the valve member 40 and the coupling 33. Almost immediatel upon the ignition of the flames 49 the va ve 31 1s closed.
- a closed chamber comprising the conduit 32, the coupling 33 the pipe 44, the plpe 42, the outlet chamber 41 of the valve casing 38, the pipe 34, and the diaphragm chamber of the valve casing 14. Since there is a valve closing pressure in said diaphragm chamber at the time the'valve 31 is closed by the action of the thermostatic member 51, it becomes obvious that thevalve 20 could not be opened, except as the result of leakage past the valve 31, or past one or the other of the dlaphragms 18 and 39.
- means for controlling sai burner comprising a valve casing connected in said line, a flexible diaphragm in said casing, and movable by differential pressures 1n said casing to control flow through said casing, a pilot conduit by-passing said valve and terminating adjacent said main burner but operatively disassociated therefrom, an ignition conduit by-passing said main valve and terminatin in a burner positioned in operative relation to the terminus of said pilot conduit and to said main burner, a valve in said ignition conduit, means for operating said last-mentioned valve, a branch connected to said main supply line in advance of said main valve and connected to said main valve casing to supply valve-closing pressure fluid to said main valve diaphragm, an auxiliary valve casing in said last-mentioned conduit, a said auxiliary valve casing and movable by difierential pressures in said casing to control flow through said casing, a bleed
- thermo-responsive means controlling said last-mentioned valve, a constantly-burning pilot burner, a conduit by-passing said main valve for supplying fuel tosaid pilot burner, an ignition burner, a conduit by-passing said main valve for supplying fuel to said i nition burner, said ignition burner being posltioned to direct a stream of fuel across said
- Means for controlling the supply of fluid fuel to a burner comprising a supply line, a main valve in said line, pressure-actuated means for closingsaid valve, a conduit connected to said line in advance of said valve and supplying valve-closing pressure fluid to said main valve, a normally open valve in said conduit, a second conduit connected to said line in advance of said valve and supplying valve-closing pressure fluid to said main valve, an auxiliary valve in said second conduit, pressure-actuated means for closing said auxiliary valve, a constantly-burning pilot burner connected to said line in advance of said main valve, 9. check pilot burner, a conduit connecting said check pilot burner to said line in advance of said main valve, a
- thermo-sensitive means adapted, when heated, to closesaid normally open valve, said means being positioned to beinfluenced by the flame from said check pilot burner, and a bleed pipe for draining fluid entrapped in the system between said auxiliary va saidnormally open valve upon concurrent closure of said valves.
- Means for controlling the supply of fluid fuel to a burner comprising a supply line, a main valve in said line, pressure-actuated means for closing said valve, a conduit connected to said line in advance of said valve and supplying valve-closin pressure fluid to said mam valve, a norma ly open valve in said conduit, a second conduit connected to said line in advance of said valve and supplying valve-closing pressure fluid to said main valve, an auxiliary valve in said second conduit, pressure-actuated means for closing said auxiliary valve, a constantlyburning pilot burner connected to said line in advance of said main valve, a check pilot e burner, a conduit connecting said check pilot burner to said line in advance of said main valve, a valve connected to control flow to said check pilot burner, a room thermostat controlling said last-mentioned valve, a conduit connected to said last-mentioned conduit beyond said last-mentioned valve for supplying valve-closing pressure fluid to said auxiliary valve, thermo-sensitive means adapted, when heated, to close said normally open valve, said
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Automation & Control Theory (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Control Of Combustion (AREA)
Description
P. G. MAGNER BURNER CONTROL Sept. 6, 1932.
Filed 001;. 23, 1930 INVENTOR. Phi/1}: Mag/var,
yewwaaz A TTORNEYS Patented Sept: e, 1932 UNlTED STA Tes PATENT OFF-ICE 21:11.12 a. manna, or wanasn,
INDIANA, ASSIGNOB 1'0 MINNEAPOLIS-HON YWELL REGULATOR COMPANY, OF WABABH, INDIANA, A CORPORATION 01' DELAWARE 3113mm c'om'nor.
Application fled October 83, 1980. Serial No. 400,578.
The present application relates to a burner under the control of the room thermostat, for controlling the operation of a fluid-fuel heatburner. Amon the objects of the invention are to provide mechanism of the class described which shall be absolutely reliable to respond to the demands of the room thermostat, and to prevent a supply of fuel to the main burner in the event of failure of,
the ignition mechanism, and to cut off. the supply of fuel to said main burner in the event of accidental cessation of combustion. Further objects of the invention will appear as the description proceeds.
the single figure is a more or less diagrammatic view of an installation in accordance with the present invention.
In said figure, I have illustrated a main burner 10 adapted to be supplied with a fluidfuel, such as fuel gas, through a main supply line 11. Said supply line 11 is connected to one branch of a four-way coupling 12, to the opposite branch of which is connected a pipe 13 leading into a valve casing 14. A second pipe 15 leads from said valve casing 14 to said burner 10.
A valve seat member 16 provides a passageway through the partition 17 in said casing 14, and a flexible diaphragm 18 is clamped to said casing through the medium of a cover member 19, said diaphragm carrying a valve member 20 adapted to cooperate with said valve seat member 16 to control flow from the inlet chamber 21 of said casing to the outlet chamber 22 thereof. The cover member 19 is formed with a port 23 leading into 23 in the cover member 19. The
chamber 37 of a a valve 31 to a pipe 32 connected to the shank of a T-coupling 33 to one arm of which is connected a conduit 34 threaded into the port valve 31 is normally open and, as will be obvious, so long as said valve is open, fuel under pressure is supplied to the chamber formed by the cover member 19 and the flexible diaphragm 18, the pressure s0 built up in said chamber :9 hold the valve member 20 in closed posiion.
To the opposite branch 35 of the coupling 12 is connected a pipe 36 leading to the inlet diaphragm 39 carries a valve 40 adapted .to control flow from said inlet chamber 37 to the outlet. chamber 41 of said casing 38. A pipe 42 connected to said outlet chamber 41 is coupled through aT-coupling 43 to a pipe "44 which% in turn, is coupled to the op osite the T-coupling 33. As will e obvious, when the valve 40 is in open position, flow through the valve casing 38 to the chamber formed by the cover member 19 and'the flexible diaphragm 18 is permitted, to tend to hold the valve 20 in closed position.
To the shank of the T-coupling 26 there is connected a conduit 45. leading through a branch 0 valve 46 and a T-coupling 47 to a check pilot 8 burner 48.
dSaid burner 48 is so disposed and constructe fuel which may be supplied to the burner 10.
The valve 31 is PIOVI ed, with an operatin stem 50 extending into operative relation witfi the movable portion'of a thermostat bar 51, and said bar 51 is disposed to be afi'ected by the flame 49 in a manner later to be described.
To the shank of the T-coupling 47 isv connected a conduit 52 leading to the port 53 formed in the cover member of the valve casing 38 and opening into the chamber 54 of which one wall is formed by the flexible diaphragm 39. As will be obvious, when the valve 46 is opened, flow is permitted through the pipe 52 to build up a pressure tending valve casing 38. A flexible that, when the valve 46 is open, a stream. of fuel emerges from said burner 48 and is in the chamber 54 to hold the valve member 40 in a closed position.
The valve 46 is provided with an actuating stem, 46' adapted to be affected by a solenoid 55. To the terminals 56 and 57 of said solenoid are connected leads 58 and 59 terminating in contact posts 60 and 61 adapted to be selectively contacted b the movable bar 62 of a room thermostat, 1t being understood that a suitable source of electrical energy is connected into the circuit. The arran ement is such that, when the temperature of t e room in which the thermostat is mounted falls below a predetermined minimum, the bar 62 contacts the post 60 to open the valve 46, and when the temperature of the room rises above a predetermined maximum, the bar62' contacts the post 61 to close the valve 46. To theshank of the T-coupling 43 there is connected a bleed pipe 63 leading through a valve casing 64 provided with a needle valve 65, said conduit terminating in a burner 66.
-. In the illustrated embodiment, the burner 66 'is disposed in cooperative relation with the constantly burning pilot flame 28 so that any fuel discharged through said burner 66 will be ignited by said flame 28. Of course it is to be understood that the bleed pipe 63 might be connected into the conduit 27 wherebyuel drained through said bleed pipe would be consumed in the pilot flame 28.
In the operation of the device, it is to be understood that, under normal circumstances, the valve 31 is open, the valve 46 is closed, and the pilot flame 28 is burning. With the valve 46 closed, there is no pressure in the chamber 54 tending to hold the valve 40 closed, and consequently flow is permitted through the conduit 36 and the valve casing .38 to maintaina valve-closing pressure'in the diaphragm chamber of the valve casing 14. The pressure so established is supplemented by a flow through the conduits 27, 30, the valve 31 and the conduit 32 to said chamber. A small bleed flow through the conduit 63 will also be established, the fuel thus bled from the system being consumed at the burner 66. s
If, now, there is a call for heat, the arm 62 will contact the post to energize the solenoid 55 to open the valve 46. Flow is thus established through the conduit 45 to the burner 48, and, the pilot burner 28 igniting the stream of fuel issuing from said burner, the long flame 49 is established. Since the passage through the valve 46 is materially larger than the opening through the burner 48, a pressure will be built up in the conduit 52-and the chamber 54 to close the valve 40. The valve 20, however, will be maintained in closed position by the pressure built up in the diaphragm chamber of the casing 14 through the valve 31 and the conduit 32. As the flame 49 heats the thermostat member 51, the arm thereof moves toward the right as' viewed in the drawin to close the valve 31. It being remembere that there is a bleed flow through the pipe 63, it will be seen that the pressure in the diaphragm chamber of the casing 14 will be reduced immediately upon the closing of the valve 31 to permit opening of the valve 20, whereb fuel flow to the main burner 10 is established. The fuel discharged from the burner 10 is ignited by the flame 49 and, in the case of an accidental momentary extinguishment of the main burner flame, the flame 49 will again ignite the fuel from the main burner.
If there should be, for any reason, an interruption for any considerable period, of the flow of the fuel, the flames 49 and 28 would be extinguished with the extinguishment of the main burner flame. Shortly after the extinguishment bf the flame 49, the thermostatic element 51 will become suffic-iently cool to reopen the valve 31. If, now, the supply of fuel should be resumed, a valve closing pressure will immediately be built up through the valve 31 and conduit 32 in the diaphragm chamber of the valve casing 14, to prevent a supply of fuel to the main burner 10, and the supply of fuel to said burner cannot be reinitiated, even though the room thermostat is still calling for heat, Without first igniting the fuel issuing from the burner 48 and the pilot flame 28.
It is to be noted that the thermostat 51 is so disposed as not to be affected by the heat of the pilot flame 28. Thus, the valve 31 can be closed to permit opening of the valve 20 only if the flame 49 is ignited. The flame 49 and the thermostatic member 51 thus comprise a check on the pilot flame 28, whereby flow of fuel to the mainburner is prevented in case the pilot flame 28 has, in any manner, been extinguished.
Presuming that the mechanism has functioned properly and that the burner 10 has been ignited, the demand of the room thermostate will, after a period be satisfied. Thereupon, the arm 62 contacts the post 61 to close the valve 46. The flame 49 is thus extinguished, and the thermostatic element 61 will slowly cool down sufliciently to open the valve 31. It is desirable, however, to shut off the main burner flame as quickly as possible after the demand of the room thermostat has been satisfied. The response of the thermostatic element 51 is much too slow, and consequently there is provided means for closing down the valve 20 long prior to the opening of the valve 31. Such means comprises the valve 38. Then the valve 46 closes, the supply of fuel through the conduit 52 is cut off and the pressure built up in said conduit and in the chamber 54 is immediately drained through said conduit and the pipe 45 to the burner 48, thus permitting the valve 40 to be Opened to build up a pressure in the pipes fl'exible diaphragm in 42 and 44 and in the diaphragm chamber of the valve casing 14, such pressure closing the valve 20.
As will be obvious, the mechanism illustrated would be utterly inoperative in the absence of the bleed pipe 63. Opening of the valve 20 is dependent upon the draining of pressure from the chamber of which one wall is formed by the diaphragm 18. In the normal operation of the device, when the room thermostat calls for heat, the valve 40 1s 1mmediately closed, thus, in the absence of the bleed pipe 63, trapping any fuel remammg between the valve member 40 and the coupling 33. Almost immediatel upon the ignition of the flames 49 the va ve 31 1s closed. With the valves 40 and 31 closed, and supposing the bleed pipe 63 not to be present, a closed chamber is formed comprising the conduit 32, the coupling 33 the pipe 44, the plpe 42, the outlet chamber 41 of the valve casing 38, the pipe 34, and the diaphragm chamber of the valve casing 14. Since there is a valve closing pressure in said diaphragm chamber at the time the'valve 31 is closed by the action of the thermostatic member 51, it becomes obvious that thevalve 20 could not be opened, except as the result of leakage past the valve 31, or past one or the other of the dlaphragms 18 and 39.
I claim as my invention:
1. The combination with a main fluid-fuel burner and a main supply line for supplying fuel thereto, of means for controlling sai burner comprising a valve casing connected in said line, a flexible diaphragm in said casing, and movable by differential pressures 1n said casing to control flow through said casing, a pilot conduit by-passing said valve and terminating adjacent said main burner but operatively disassociated therefrom, an ignition conduit by-passing said main valve and terminatin in a burner positioned in operative relation to the terminus of said pilot conduit and to said main burner, a valve in said ignition conduit, means for operating said last-mentioned valve, a branch connected to said main supply line in advance of said main valve and connected to said main valve casing to supply valve-closing pressure fluid to said main valve diaphragm, an auxiliary valve casing in said last-mentioned conduit, a said auxiliary valve casing and movable by difierential pressures in said casing to control flow through said casing, a bleed pipe connected to said branch between said auxiliary valve casing and said main valve casing, a pipe by-passing said main valve and connected to supply valveclosing ressure fluid to said auxiliary valve casing, ow through said last-mentioned pipe being controlled by said ignition conduit valve, a pipe connected to said pilot conduit and connected to said branch between said bleed-pipe connection and said main valve casing, avalve in said last-mentioned pipe, and thermo-responsive means fpositioned to be afiected by flame issuing rom said ignition burner for controlling said last-mentioned valve.
2. The combination with a main fluid-fuel burner and a main suppl line for supplyin fuel thereto, of means 3hr controlling said burner comprisin a valve casing connected in said line, a flgaxible diaphragm in said casing, and movable by diflerential pressures in said casin to control flow through said casing, said iaphragm formin one wall of an actuator chamber, a conduit or supplying valve-closing pressure fluid to phragm, a pressure-actuated auxiliary valve in said conduit, a second conduit for su plying valve-closing pressure fluid to said diaphragm, a valve in said second conduit, thermo-responsive means controlling said last-mentioned valve, a constantly-burning pilot burner, a conduit by-passing said main valve for supplying fuel tosaid pilot burner, an ignition burner, a conduit by-passing said main valve for supplying fuel to said i nition burner, said ignition burner being posltioned to direct a stream of fuel across said pilot burner, across said thermo-responsive means, and toward said main burner whereby said stream will be ignited by and will project a flame to ignite said main burner, a valve controlling said last-named conduit, means responsive to temperature conditions at a point remote from said burners for controllin said last-named valve, a conduit controlle by said last-named valve for supplying valve-closing pressure fluid to said auxiliary valve, and a bleed-pipe. connected to drain fluid entrapped in said main valve casing actuator chamber and those valves and conduits communicating with said chamber, upon concurrent closure of said auxiliary valve and said first-mentioned temperature-controlled valve.
Means for controlling the supply of fluid fuel to a burner comprising a supply line, a main valve in said line, pressure-actuated means for closingsaid valve, a conduit connected to said line in advance of said valve and supplying valve-closing pressure fluid to said main valve, a normally open valve in said conduit, a second conduit connected to said line in advance of said valve and supplying valve-closing pressure fluid to said main valve, an auxiliary valve in said second conduit, pressure-actuated means for closing said auxiliary valve, a constantly-burning pilot burner connected to said line in advance of said main valve, 9. check pilot burner, a conduit connecting said check pilot burner to said line in advance of said main valve, a
valve connected to control said last-mentioned conduit, a room thermostat control ling said last-mentionedvalve, a conduit connected to said last-mentioned conduit beyond said diasaid pilot burner said last-mentioned valve for supplying valve-closing pressure fluid to said auxiliary valve, thermo-sensitive means adapted, when heated, to closesaid normally open valve, said means being positioned to beinfluenced by the flame from said check pilot burner, and a bleed pipe for draining fluid entrapped in the system between said auxiliary va saidnormally open valve upon concurrent closure of said valves.
4. Means for controlling the supply of fluid fuel to a burner comprising a supply line, a main valve in said line, pressure-actuated means for closing said valve, a conduit connected to said line in advance of said valve and supplying valve-closin pressure fluid to said mam valve, a norma ly open valve in said conduit, a second conduit connected to said line in advance of said valve and supplying valve-closing pressure fluid to said main valve, an auxiliary valve in said second conduit, pressure-actuated means for closing said auxiliary valve, a constantlyburning pilot burner connected to said line in advance of said main valve, a check pilot e burner, a conduit connecting said check pilot burner to said line in advance of said main valve, a valve connected to control flow to said check pilot burner, a room thermostat controlling said last-mentioned valve, a conduit connected to said last-mentioned conduit beyond said last-mentioned valve for supplying valve-closing pressure fluid to said auxiliary valve, thermo-sensitive means adapted, when heated, to close said normally open valve, said means being positioned to be influenced by the flame from said check pilot burner, and a bleed pipe for draining fluid entrapped in the system'between said auxiliary valve and said normallyfopen valve upon concurrent closure of said valves, said bleed pipe being positioned and connected to permit combustion of the fluid drained there through by the constantly-burning pilot flame.
In witness whereof, I have hereunto set my hand at Wabash, Indiana, this 17th day of October, A. D. one thousand nine hundred and thirty. 3
. PHILIP G. MAGNER.
ve and.
Publications (1)
Publication Number | Publication Date |
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US1875388A true US1875388A (en) | 1932-09-06 |
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US1875388D Expired - Lifetime US1875388A (en) | Assiqnob to minneapoijs-honeywml |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2688364A (en) * | 1947-08-09 | 1954-09-07 | Robert A Wittmann | Safety control system for gas burners employing single point ignition |
US2939523A (en) * | 1951-07-20 | 1960-06-07 | Gen Controls Co | Safety valve and system for gaseous fuel burners |
US3138194A (en) * | 1962-02-09 | 1964-06-23 | Robertshaw Controls Co | Multiple burner heating system |
US3374952A (en) * | 1965-01-13 | 1968-03-26 | Servotomic Ltd | Controls for gas-burning systems |
US3458269A (en) * | 1967-07-11 | 1969-07-29 | Robertshaw Controls Co | Pneumatic control system and parts therefor or the like |
-
0
- US US1875388D patent/US1875388A/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2688364A (en) * | 1947-08-09 | 1954-09-07 | Robert A Wittmann | Safety control system for gas burners employing single point ignition |
US2939523A (en) * | 1951-07-20 | 1960-06-07 | Gen Controls Co | Safety valve and system for gaseous fuel burners |
US3138194A (en) * | 1962-02-09 | 1964-06-23 | Robertshaw Controls Co | Multiple burner heating system |
US3374952A (en) * | 1965-01-13 | 1968-03-26 | Servotomic Ltd | Controls for gas-burning systems |
US3458269A (en) * | 1967-07-11 | 1969-07-29 | Robertshaw Controls Co | Pneumatic control system and parts therefor or the like |
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