US2449185A - Safety control system for fuel burners - Google Patents

Safety control system for fuel burners Download PDF

Info

Publication number
US2449185A
US2449185A US538864A US53886444A US2449185A US 2449185 A US2449185 A US 2449185A US 538864 A US538864 A US 538864A US 53886444 A US53886444 A US 53886444A US 2449185 A US2449185 A US 2449185A
Authority
US
United States
Prior art keywords
fuel
armature
coil
valve
burners
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US538864A
Inventor
Max S Unger
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Robertshaw Controls Co
Original Assignee
Robertshaw Fulton Controls Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Robertshaw Fulton Controls Co filed Critical Robertshaw Fulton Controls Co
Priority to US538864A priority Critical patent/US2449185A/en
Application granted granted Critical
Publication of US2449185A publication Critical patent/US2449185A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23QIGNITION; EXTINGUISHING-DEVICES
    • F23Q9/00Pilot flame igniters
    • F23Q9/08Pilot flame igniters with interlock with main fuel supply
    • F23Q9/12Pilot flame igniters with interlock with main fuel supply to permit the supply to the main burner in dependence upon existence of pilot flame

Definitions

  • This invention relates to safety controls for fuel burners and, more particularly, to thermoelectric controls therefor.
  • thermoelectric safety control apparatus may be arranged so that the thermocouple or thermopile, which is responsive to the heat of a flame at the pilot burner, controls the energization of an electromagnetic safety device for shutting off the fuel supply to the main burner upon extinguishment' of the pilot burner flame,
  • the electric current generated by the thermoelectric device even where this comprises a thermopile, is usually insuilicient to attract the armature of the electromagnet but is suilicient only to hold the armature in attracted position after it has been otherwise moved to such position.
  • Manually operated devices have been employed for the purpose of resetting the armature but are subject to various disadvantages which this invention seeks to overcome.
  • An object of this invention is to eliminate the necessity for a manual reset operation on an electromagnetic device by automatically operated means.
  • Another object of the invention is to continue operation of the automatically operated means until a thermoelectric current is available for controlling the electromagnetic safety device.
  • Another object of the invention is to render the automatically operated means inoperative during the period that the electromagnetic safety means is under thermoelectric control.
  • Another object of the invention is to secure prompt recycling of the control'upon extinguishment of the flame at the pilot burner.
  • a main burner I is supplied with fuel by a main fuel pipe i2 and the flow of fuel therein is under separate control of a main valve l4 which may be manually operated and a safety valve it which may be electrically operated.
  • a pilot burner i8 is positioned adjacent the main burner Ill and is supplied with fuel by a conduit 20 in which the flow of fuel is controlled by the main valve l4 only.
  • the safety valve it may be arranged for electromagnetic operation and, to this end, comprises a valve body 22 containing a valve member 24 intercepting the flow of fuel in the pipe I2 and being biased by a coil spring 28 to closed position.
  • the valve member 24 carries a valve stem 28-which projects from the valve body 22 into a housing 30 which is attached thereto and sealed against entrance of fuel by the gasket II.
  • the housing 30 contains a pair of horseshoe magnets 32 and 34 which may be conveniently nested one within the other with their pole faces lying substantially in the same plane.
  • Surmounting the magnets 32 and 34 and supported by the valve stem 28 is a single armature 3B of sufficient area to extend across the pole faces of both magnets 32 and 34.
  • the valve stem 28 is of such length that when the valve member 24 is biased to the closed position shown, the armature 38 is disengaged from the pole faces of the magnets 32 and 34 leaving the usual air gap therebetween.
  • the valve stem 28 is adapted for reclprocable movement within the valve body 22 and the cover 30 and may be guided in suitably spaced bearings formed in the cover 30 and the valve body 22.
  • the magnets 32 and 34 are provided with windings or coils 38 and 40, respectively. which are separately wound and electrically unconnected with each other.
  • the electromagnetic device in housing 30 is adapted both to attract and hold the armature 36 against the pole faces of the magnets 32 and 34. It is not essential that two such magnets be used as in certain instances a single magnet havin separate coils thereon would serve the purpose. However, where one coil is energized from a thermocouple generating direct current and the other coil is energized from a separate source it is preferable to utilize separate magnets.
  • the coil energized thereby would act as a tripping coil serving to demagnetize the single magnet by producing lines of force opposed to those produced by the thermoelectric current,
  • the provision of two magnets renders the device applicable for use with either direct or alternating current in addition to that generated by the thermocouple.
  • a pressure switch 42 interposed in the fuel supply pipe i2 ahead of the safety valve 22 is a pressure switch 42 comprising a diaphragm housing 44 connected on one side of the diaphragm 45 by the nipple 46 with the fuel supply pipe l2 and on the other side with a movable switch arm 48 by means of a plunger 50. Variations in pressure of the fuel conveyed through nipple 46 to the diaphragm housing 44 will cause corresponding variations in the position of the diaphragm 45 to operate the switch arm 48.
  • thermoelectric means in the form of a thermopile or thermocouple 52 is arranged adjacent the pilot burner I8 in position to be heated by the flame thereof.
  • Time delay means in the form of a thermally operable switch 54 is positioned adjacent the thermocouple 52 and comprises a bimetal strip 56 positioned to be heated by conduction of heat along the thermocouple 52 and carrying a movable switch arm 58.
  • the fuel flowing from the pilot burner I8 is adapted to be ignited by an electrical igniting means 60 of any suitable type including either the incandescent coil or spark plug type.
  • the electrical connections for energizing one coil of the electromagnetic safety valve l6 and also the igniting means 68 are shown as comprising line wires 62 and 64 connected to the primary of transformer 66, a wire 68 connected to one terminal of the secondary of the transformer 66, a contact 16 carried on the movable switch arm 48 of the pressure switch 42, a wire 12 connected at one end to a fixed contact 14 of pressure switch 42, a wire 76 connected with one end of the coil 48, a wire 18 connecting the other end of coil 40 to a fixed contact 80 of the thermally operable switch 54, a movable contact 82 carried by the movable switch arm 58, and wir 84 and 86 connected to the other terminal of the secondary of the transformer 66.
  • the electrical igniter 60 is connected in a parallel circuit with the coil 40 and the contacts 80 and 82 of the thermally operable switch 54 which circuit may be traced by a wire 88 connected at one end to the wire 16, the igniter 66, and a wire 98 connected to the wire 86 at its junction with the wire 84.
  • the thermocouple 52 has one of its leads connected directly to one end of the coil 38 and the other lead grounded on the valve body 22, the other end of the coil 38 being likewise grounded on the valve body 22. This circuit is entirely separate from the secondary circuit of the other coil 40 and the igniter 60.
  • the main valve i4 is closed, the transformer 66 energized by the line wires from an alternating current source and the various elements in the position shown in the drawing.
  • the valve 24 is biased closed, the contacts and 74 of the pressure switch 42 are opened and the contacts 80 and 82 of the thermally operable switch 54 are likewise opened.
  • the armature 36 is disengaged from the pole faces of the magnets 32 and 34 and the electrical igniter 60 is deenergized due to the open condition of the contacts 10 and 14.
  • the system may be placed in operation by opening the main valve i4 which will allow fuel to flow in the main fuel pipe l2 as far as the safety valve i6 and in the conduit 20 to the pilot burner l8.
  • the fuel in the main fuel pipe l2 also enters the nipple 46 and the pressure thereof exerted against the underside of the diaphragm 45 causes the plunger 50 to be raised and move the switch arm 48 to close the contacts 18 and 14.
  • the igniter 60 now becomes energized and serves to ignite the fuel issuing from the pilot burner I8.
  • the heat of the flame at the pilot burner I8 causes the thermocouple 52 to become heated and to generate electric current which is conducted to the coil 38 through the connections previously described.
  • thermocouple 52 The heat conducted along the thermocouple 52 will cause the temperature of the bimetal strip 56 to be raised sufiiciently to flex the strip and cause closure of the contacts 80 and 82 by movement of the switch arm 58.
  • the circuit through the coil 40 of the electromagnet is completed. it being apparent that one coil 40 is energized from the source 62-64 of alternating current and the other coil 38 is energized from the source of direct current from the thermocouple 52.
  • thermocouple 52 the relatively weak current generated by the thermocouple 52 is not relied upon to attract the armature 36 against the pole faces of the magnets 32 and 34 and it may be assumed for the purposes of this invention that such current is insufficient to cause this attracting operation.
  • the alternating current which energizes the coil 48 is of sufficient value to overcome the bias of the spring 26 and to attract the magnet 36 against the pole faces of the magnets 32 and 34.
  • the attracting of the armature 36 is accompanied by opening of the valve 24 as these elements are connected together by the valve stem 28.
  • the fuel in the main fuel pipe l2 now flows from the main burner l0 and is ignited by the flame of the pilot burner 18.
  • the opening of the valve 24 serves to relieve the pressure in the diaphragm housing 44 to cause movement of the plunger 50 downwardly thus separating contacts 10 and 14.
  • the opening of the pressure switch 42 causes deenergization of the igniter 60 and also causes deenergization of the magnet coil 40.
  • the armature 36 is retained against the pole faces of the magnet 32 as the coil 38 thereof remains energized by the thermocouple generated current which is sufilcient for this holding action.
  • thermocouple 52 While the value of the current generated by the thermocouple 52 is insufficient to attract the armature 36 against the pole faces of the magnets 32 and 34 such current value is suflicient to hold the armature 36 in engagement with the magnets when it has once been moved to such position by energization of the coil 40 connected to the source of alternating current. While the pole faces of the magnets are described as being in substantially the same plane it would be entirely feasible to extend the pole face of magnet 32 beyond that of magnet 34 so that close contact between the armature 36 and the magnet 32 would be assured.
  • the magnetizing force arising from the current which energizes the coil 48 can be of suflicient magnitude so that the magnetic flux through an air gap between the pole faces of magnet 34 and the armature 36 will cause retention of the armature whereas the magnetizing force arising from the thermocouple current is generally so weak that close engagement between the pole faces of magnet 32 and the armature is essential in order that the armature be retained.
  • the electromagnet which is energized from the source of alternating current is rendered inoperative after the armature has been attracted and, as previously pointed out, this source could equally well be direct current.
  • the main burner III will continue to operate until the flame of the pilot burner l8 becomes extinguished assuming that the main valve l4 remains open. Such failure at the pilot burner will cause the thermocouple 52 to cool and the current generated thereby will cease or become insuflicient to permit the coil 38 to retain the armature 36 against the pole faces of the magnets 32 and 34.
  • the valve 24 will then close under the bias of the spring 26 and shut off the flow of fuel to the main burner l0.
  • Such action will, however, again create the pressure in the pressure switch 42 causing the contacts 10 and 14 to close to energize the electrical igniter 68 and the coil 48 of the electromagnet.
  • the system is recycling upon failure of the pilot burner and no attention on the part of the operator is required to set the system in operation after flame failure.
  • Safety control apparatus for fuel burners having main and pilot burners comprising in combination, control means operable for controlling the supply of fuel to the main burner and being biased to one controlling position, electromagnetic means including a plurality of coil means and a single armature movable relatively to said coil means between attracted and released positions, said electromagnetic means being operatively associated with said control means for overcoming said bias when at least one of said coil means is energized sufliciently to hold said armature in said attracted position and said control means in another controlling position, means responsive to the presence of a flame at the pilot burner for energizing said one coil means sufflciently to hold said armature in said attracted position but insufficiently to cause said relative movement from released position, a source of current supply, means for energizing another one of said coil means from said source sufficiently to cause said relative movement of said armature from released to said attracted position, and means responsive to the said positioning of said control means and said armature upon said relative movement for rendering said last means inoperative while said armature
  • Safety control apparatus for fuel burners having main and pilot burners comprising in combination, control means operable for controlling the supply of fuel to the main burner and being biased to one controlling position, electromagnetic means positioned on one side of said control means and including coil means and armature means movable relatively between attracted and released positions, said armature means having a stem connected to said control means and being operable for overcoming said bias when said coil means is energized suiiiciently to hold said armature means in said attracted position and said control means in another controlling position, means responsive to the presence of a flame at the pilot burner for energizing said coil means sufficiently to hold said armature means in said attracted position but insufficiently to cause said relative movement from released position, a source of current supply, means for energizing said coil means from said source sufficiently to cause said relative movementof said armature means to said attracted position, and means responsive to the said positioning of said control means and said armature means upon said relative movement for rendering said last means inoperative while said armature. means remains held in said
  • Safety control apparatus for fuel burners having main and pilot burners comprising in combination, means for supplying fuel to the burners, an electromagnet having an armature, a valve connected to said armature and being adapted to control the supply of fuel in said fuel supplying means to the main burner, said valve being biased to closed position for preventing flow ofsaid fuel supply when said armature is disengaged from said magnet and being movable to open position for permitting flow of said fuel supply when said armature is in engagement therewith, means responsive to the presence of a flame at the pilot burner and operable for energizing said electromagnet sufficiently to hold said armature in engagement therewith but being incapable of energizing said electromagnet sumciently to attract said armature into engagement therewith, a source of current supply, an energizing circuit connecting said electromagnet to said source and being effective for attracting said armature into engagement therewith, a pressure switch responsive to pressure in said fuel supplying means and having contacts in said circuit movable between opened.
  • said switch being operable for opening its contacts when said valve is opened and for closing its contacts when said valve is closed, and time delay means operable upon expiration of a predetermined period during which said fiame responsive means has time to become operable for maintaining said circuit deenergized and said valve closed until after said flame responsive means becomes operable.
  • Safety control apparatus for fuel burners having main and pilot burners comprising in combination, means for supplying fuel to the burners, an electromagnet having an armature, a valve connected to said armature and being adapted to control the supply of fuel in said fuel supplying means to the main burner, said valve being biased to closed position for preventing flow of said fuel supply when said armature is disengaged from said magnet and being movable to open position for permitting flow of said fuel supply when said armature is in engagement therewith, thermoelectric means exposed to the heat of a flame at the pilot burner and operable for energizing said electromagnet sufficiently to hold said armature in engagement therewith but being incapable of energizing said electromagnet sufficiently to attract said armature into engagement therewith, a source of current supply, an energizing circuit connecting said electromagnet to said source and being effective for attracting said armature into engagement therewith, a pressure switch responsive to pressure in said fuel supplying means and having contacts in said circuit movable between opened and closed positions for controlling ener
  • Safety control apparatus for fuel burners having main and pilot burners comprising in combination means for supplying fuel to the burners, an electromagnet, means operable upon energization of said electromagnet for controlling supply of fuel from the fuel supply means to the main burner and being biased to a position Where fuel supply is prevented, an electric igniter for the pilot burner, thermoelectric means exposed to the heat of a flame at the pilot burner and operable for energizing said electromagnet but insufficiently to overcome the bias of said fuel controlling means, a source of current supply for said electromagnet separate from that generated by said thermocouple and sumcient to overcome the bias of said fuel controlling means, a pressure switch connected to the fuel supplying means ahead of said fuel controlling means and responsive to pressure in said fuel supplying means for controlling said separate current supply according to the position of said fuel controlling means, and a thermally operable switch connected in series circuit with said pressure switch and responsive to heating of said thermoelectric means for controlling said separate current supply according to the heated or unheated condition of said thermoelectric means, said igniter being connected to be
  • Safety control apparatus for fuel burners having main and pilot burners comprising in combination, means for supplying fuel to the burners, control means operable for controlling the supply of fuel from said fuel supplying means to the main burner and being biased toone controlling position, electromagnetic means including coil means and armature means movable relatively between attracted and released positions, said electromagnetic means being operatively associated with said control means for overcoming said bias when said coil means is energized sufficiently to hold said armature means in said attracted position and said control means in another controlling position, means responsive to the presence of a flame at the pilot burner for energizing said coil means sufficiently to hold said armature means in said attracted position but insui'flciently to cause said relative movement from released position, a source of current supply, a circuit connecting said coil means to said source for energizing the same suillciently to cause said relative movement of said armature means to said attracted position, time delay means operable for maintaining said circuit open until after said flame responsive means becomes responsive, and a pressure switch in said circuit responsive
  • a safety control apparatus for fuel burners comprising control means operable for controlling the fuel supply to a burner and being biased to one controlling position, a pair of electromagnets including a pair of coil means and a single armature movable relatively to said coil means between attracted and released positions, said electromagnets being operatively associated with said control means for overcoming said bias when at least one of said coil means is energized sufficiently to hold said armature in said attracted position and said control means in another controlling position, an electric igniter, a circuit including said igniter and one of said electromagnets in parallel, a source of current supply for energizing said one electromagnet and igniter and effective to cause said armature to assume attracted position relative to said electromagnets, thermoelectric means responsive to operation of said igniter and connected in circuit with the other of said electromagnets, said thermoelectric ling position and said armature assuming said attracted position for opening the first said circult.
  • a safety and ignition system for fuel bumers having main and pilot burners comprising in combination means for supplying fuel to the burners, an electromagnet having a pair of magnet elements and separate coils therefor, a single armature movable relatively to said magnet elements between released and attracted positions, controlling means connected to said armature and biased to a position where fuel supply to the main burner is prevented by said.
  • thermoelectric means exposed to the heat of a flame at the pilot burner and connected for energizing the other of said coils suificiently to hold saidarmature in said attracted position with the associated magnet
  • a pressure switch connected to the fuel supplying means ahead of said controlling means and responsive to pressure in said fuel supplying means to close its contacts in said biased position of said controlling means, said pressure switch contacts being connected in series circuit with said one coil and said igniter for deenergizing said igniter and one coil upon said armature being held in said attracted position by said other coil and magnet, and a thermally operable switch responsive to heating of said thermoelectric means for closing its contacts, said thermal switch contacts being connected in series circuit with said one coil and said pressure switch contacts for delaying en

Description

Sept. 14, 1948. M. s. UNGER O 2,449,185
SAFETY CONTROL SYSTEM FOR FUEL BURNERS Filed June 5, 1944 Patented Sept. 14, 1948 SAFETY CONTROL SYSTEM FOR FUEL BURNERS Max 8. Unger, Greensburg, Pm, asslgnor to Robertshaw-Fulton Controls Company, a corporation of Delaware Application June 5, 1944, Serial No. 538,864
8 Claims. (Cl. 158-117.1)
This invention relates to safety controls for fuel burners and, more particularly, to thermoelectric controls therefor.
Fuel burners employing thermoelectric safety control apparatus may be arranged so that the thermocouple or thermopile, which is responsive to the heat of a flame at the pilot burner, controls the energization of an electromagnetic safety device for shutting off the fuel supply to the main burner upon extinguishment' of the pilot burner flame, In such devices the electric current generated by the thermoelectric device, even where this comprises a thermopile, is usually insuilicient to attract the armature of the electromagnet but is suilicient only to hold the armature in attracted position after it has been otherwise moved to such position. Manually operated devices have been employed for the purpose of resetting the armature but are subject to various disadvantages which this invention seeks to overcome.
An object of this invention is to eliminate the necessity for a manual reset operation on an electromagnetic device by automatically operated means.
Another object of the invention is to continue operation of the automatically operated means until a thermoelectric current is available for controlling the electromagnetic safety device.
Another object of the invention is to render the automatically operated means inoperative during the period that the electromagnetic safety means is under thermoelectric control.
Another object of the invention is to secure prompt recycling of the control'upon extinguishment of the flame at the pilot burner. parent from the following description taken in Other objects and advantages will become apconnection with the accompanying drawing wherein is shown a schematic embodiment of the safety control apparatus of this invention in conjunction with the main and pilot burners of a gaseous fuel burning apparatus.
Referring more particularly to the drawing, a main burner I is supplied with fuel by a main fuel pipe i2 and the flow of fuel therein is under separate control of a main valve l4 which may be manually operated and a safety valve it which may be electrically operated. A pilot burner i8 is positioned adjacent the main burner Ill and is supplied with fuel by a conduit 20 in which the flow of fuel is controlled by the main valve l4 only.
The safety valve it may be arranged for electromagnetic operation and, to this end, comprises a valve body 22 containing a valve member 24 intercepting the flow of fuel in the pipe I2 and being biased by a coil spring 28 to closed position. The valve member 24 carries a valve stem 28-which projects from the valve body 22 into a housing 30 which is attached thereto and sealed against entrance of fuel by the gasket II. The housing 30 contains a pair of horseshoe magnets 32 and 34 which may be conveniently nested one within the other with their pole faces lying substantially in the same plane. Surmounting the magnets 32 and 34 and supported by the valve stem 28 is a single armature 3B of sufficient area to extend across the pole faces of both magnets 32 and 34. The valve stem 28 is of such length that when the valve member 24 is biased to the closed position shown, the armature 38 is disengaged from the pole faces of the magnets 32 and 34 leaving the usual air gap therebetween. The valve stem 28 is adapted for reclprocable movement within the valve body 22 and the cover 30 and may be guided in suitably spaced bearings formed in the cover 30 and the valve body 22. The magnets 32 and 34 are provided with windings or coils 38 and 40, respectively. which are separately wound and electrically unconnected with each other.
As will be more clearly apparent hereinafter, the electromagnetic device in housing 30 is adapted both to attract and hold the armature 36 against the pole faces of the magnets 32 and 34. It is not essential that two such magnets be used as in certain instances a single magnet havin separate coils thereon would serve the purpose. However, where one coil is energized from a thermocouple generating direct current and the other coil is energized from a separate source it is preferable to utilize separate magnets. 0therwise, if the separate source should be an alternating current source, the coil energized thereby would act as a tripping coil serving to demagnetize the single magnet by producing lines of force opposed to those produced by the thermoelectric current, The provision of two magnets renders the device applicable for use with either direct or alternating current in addition to that generated by the thermocouple.
interposed in the fuel supply pipe i2 ahead of the safety valve 22 is a pressure switch 42 comprising a diaphragm housing 44 connected on one side of the diaphragm 45 by the nipple 46 with the fuel supply pipe l2 and on the other side with a movable switch arm 48 by means of a plunger 50. Variations in pressure of the fuel conveyed through nipple 46 to the diaphragm housing 44 will cause corresponding variations in the position of the diaphragm 45 to operate the switch arm 48.
Suitable flame responsive means which will serve to generate electric current in the presence of a flame at the pilot burner are provided. In this embodiment thermoelectric means in the form of a thermopile or thermocouple 52 is arranged adjacent the pilot burner I8 in position to be heated by the flame thereof. Time delay means in the form of a thermally operable switch 54 is positioned adjacent the thermocouple 52 and comprises a bimetal strip 56 positioned to be heated by conduction of heat along the thermocouple 52 and carrying a movable switch arm 58. The fuel flowing from the pilot burner I8 is adapted to be ignited by an electrical igniting means 60 of any suitable type including either the incandescent coil or spark plug type.
The electrical connections for energizing one coil of the electromagnetic safety valve l6 and also the igniting means 68 are shown as comprising line wires 62 and 64 connected to the primary of transformer 66, a wire 68 connected to one terminal of the secondary of the transformer 66, a contact 16 carried on the movable switch arm 48 of the pressure switch 42, a wire 12 connected at one end to a fixed contact 14 of pressure switch 42, a wire 76 connected with one end of the coil 48, a wire 18 connecting the other end of coil 40 to a fixed contact 80 of the thermally operable switch 54, a movable contact 82 carried by the movable switch arm 58, and wir 84 and 86 connected to the other terminal of the secondary of the transformer 66.
The electrical igniter 60 is connected in a parallel circuit with the coil 40 and the contacts 80 and 82 of the thermally operable switch 54 which circuit may be traced by a wire 88 connected at one end to the wire 16, the igniter 66, and a wire 98 connected to the wire 86 at its junction with the wire 84. The thermocouple 52 has one of its leads connected directly to one end of the coil 38 and the other lead grounded on the valve body 22, the other end of the coil 38 being likewise grounded on the valve body 22. This circuit is entirely separate from the secondary circuit of the other coil 40 and the igniter 60.
In the operation of the apparatus it may be assumed that the main valve i4 is closed, the transformer 66 energized by the line wires from an alternating current source and the various elements in the position shown in the drawing. In this condition of the apparatus it will be noted that the valve 24 is biased closed, the contacts and 74 of the pressure switch 42 are opened and the contacts 80 and 82 of the thermally operable switch 54 are likewise opened. In such position of the valve 24 the armature 36 is disengaged from the pole faces of the magnets 32 and 34 and the electrical igniter 60 is deenergized due to the open condition of the contacts 10 and 14.
The system may be placed in operation by opening the main valve i4 which will allow fuel to flow in the main fuel pipe l2 as far as the safety valve i6 and in the conduit 20 to the pilot burner l8. The fuel in the main fuel pipe l2 also enters the nipple 46 and the pressure thereof exerted against the underside of the diaphragm 45 causes the plunger 50 to be raised and move the switch arm 48 to close the contacts 18 and 14. The igniter 60 now becomes energized and serves to ignite the fuel issuing from the pilot burner I8. The heat of the flame at the pilot burner I8 causes the thermocouple 52 to become heated and to generate electric current which is conducted to the coil 38 through the connections previously described.
The heat conducted along the thermocouple 52 will cause the temperature of the bimetal strip 56 to be raised sufiiciently to flex the strip and cause closure of the contacts 80 and 82 by movement of the switch arm 58. Thus, after a time delay period fixed by the time it requires for the bimetal strip 56 to warp, the circuit through the coil 40 of the electromagnet is completed. it being apparent that one coil 40 is energized from the source 62-64 of alternating current and the other coil 38 is energized from the source of direct current from the thermocouple 52. It will further be apparent that the relatively weak current generated by the thermocouple 52 is not relied upon to attract the armature 36 against the pole faces of the magnets 32 and 34 and it may be assumed for the purposes of this invention that such current is insufficient to cause this attracting operation. However, the alternating current which energizes the coil 48 is of sufficient value to overcome the bias of the spring 26 and to attract the magnet 36 against the pole faces of the magnets 32 and 34.
The attracting of the armature 36 is accompanied by opening of the valve 24 as these elements are connected together by the valve stem 28. The fuel in the main fuel pipe l2 now flows from the main burner l0 and is ignited by the flame of the pilot burner 18. The opening of the valve 24 serves to relieve the pressure in the diaphragm housing 44 to cause movement of the plunger 50 downwardly thus separating contacts 10 and 14. The opening of the pressure switch 42 causes deenergization of the igniter 60 and also causes deenergization of the magnet coil 40. The armature 36 is retained against the pole faces of the magnet 32 as the coil 38 thereof remains energized by the thermocouple generated current which is sufilcient for this holding action.
It is thus apparent that while the value of the current generated by the thermocouple 52 is insufficient to attract the armature 36 against the pole faces of the magnets 32 and 34 such current value is suflicient to hold the armature 36 in engagement with the magnets when it has once been moved to such position by energization of the coil 40 connected to the source of alternating current. While the pole faces of the magnets are described as being in substantially the same plane it would be entirely feasible to extend the pole face of magnet 32 beyond that of magnet 34 so that close contact between the armature 36 and the magnet 32 would be assured. That is, the magnetizing force arising from the current which energizes the coil 48 can be of suflicient magnitude so that the magnetic flux through an air gap between the pole faces of magnet 34 and the armature 36 will cause retention of the armature whereas the magnetizing force arising from the thermocouple current is generally so weak that close engagement between the pole faces of magnet 32 and the armature is essential in order that the armature be retained. The electromagnet which is energized from the source of alternating current is rendered inoperative after the armature has been attracted and, as previously pointed out, this source could equally well be direct current.
The main burner III will continue to operate until the flame of the pilot burner l8 becomes extinguished assuming that the main valve l4 remains open. Such failure at the pilot burner will cause the thermocouple 52 to cool and the current generated thereby will cease or become insuflicient to permit the coil 38 to retain the armature 36 against the pole faces of the magnets 32 and 34. The valve 24 will then close under the bias of the spring 26 and shut off the flow of fuel to the main burner l0. Such action will, however, again create the pressure in the pressure switch 42 causing the contacts 10 and 14 to close to energize the electrical igniter 68 and the coil 48 of the electromagnet. Thus, the system is recycling upon failure of the pilot burner and no attention on the part of the operator is required to set the system in operation after flame failure.
It will be apparent that many changes can be made in the arrangement and combination of parts and in the details of construction herein disclosed within the scope of the appended claims without departing from the spirit of the invention.
I claim: 1
1. Safety control apparatus for fuel burners having main and pilot burners comprising in combination, control means operable for controlling the supply of fuel to the main burner and being biased to one controlling position, electromagnetic means including a plurality of coil means and a single armature movable relatively to said coil means between attracted and released positions, said electromagnetic means being operatively associated with said control means for overcoming said bias when at least one of said coil means is energized sufliciently to hold said armature in said attracted position and said control means in another controlling position, means responsive to the presence of a flame at the pilot burner for energizing said one coil means sufflciently to hold said armature in said attracted position but insufficiently to cause said relative movement from released position, a source of current supply, means for energizing another one of said coil means from said source sufficiently to cause said relative movement of said armature from released to said attracted position, and means responsive to the said positioning of said control means and said armature upon said relative movement for rendering said last means inoperative while said armature remains held in said attracted position by energization of said one coil means.
2. Safety control apparatus for fuel burners having main and pilot burners comprising in combination, control means operable for controlling the supply of fuel to the main burner and being biased to one controlling position, electromagnetic means positioned on one side of said control means and including coil means and armature means movable relatively between attracted and released positions, said armature means having a stem connected to said control means and being operable for overcoming said bias when said coil means is energized suiiiciently to hold said armature means in said attracted position and said control means in another controlling position, means responsive to the presence of a flame at the pilot burner for energizing said coil means sufficiently to hold said armature means in said attracted position but insufficiently to cause said relative movement from released position, a source of current supply, means for energizing said coil means from said source sufficiently to cause said relative movementof said armature means to said attracted position, and means responsive to the said positioning of said control means and said armature means upon said relative movement for rendering said last means inoperative while said armature. means remains held in said attracted position by energization of said coil means by said fiame'responsive means.
3. Safety control apparatus for fuel burners having main and pilot burners comprising in combination, means for supplying fuel to the burners, an electromagnet having an armature, a valve connected to said armature and being adapted to control the supply of fuel in said fuel supplying means to the main burner, said valve being biased to closed position for preventing flow ofsaid fuel supply when said armature is disengaged from said magnet and being movable to open position for permitting flow of said fuel supply when said armature is in engagement therewith, means responsive to the presence of a flame at the pilot burner and operable for energizing said electromagnet sufficiently to hold said armature in engagement therewith but being incapable of energizing said electromagnet sumciently to attract said armature into engagement therewith, a source of current supply, an energizing circuit connecting said electromagnet to said source and being effective for attracting said armature into engagement therewith, a pressure switch responsive to pressure in said fuel supplying means and having contacts in said circuit movable between opened. and closed positions for controlling energization of said circuit, said switch being operable for opening its contacts when said valve is opened and for closing its contacts when said valve is closed, and time delay means operable upon expiration of a predetermined period during which said fiame responsive means has time to become operable for maintaining said circuit deenergized and said valve closed until after said flame responsive means becomes operable.
4. Safety control apparatus for fuel burners having main and pilot burners comprising in combination, means for supplying fuel to the burners, an electromagnet having an armature, a valve connected to said armature and being adapted to control the supply of fuel in said fuel supplying means to the main burner, said valve being biased to closed position for preventing flow of said fuel supply when said armature is disengaged from said magnet and being movable to open position for permitting flow of said fuel supply when said armature is in engagement therewith, thermoelectric means exposed to the heat of a flame at the pilot burner and operable for energizing said electromagnet sufficiently to hold said armature in engagement therewith but being incapable of energizing said electromagnet sufficiently to attract said armature into engagement therewith, a source of current supply, an energizing circuit connecting said electromagnet to said source and being effective for attracting said armature into engagement therewith, a pressure switch responsive to pressure in said fuel supplying means and having contacts in said circuit movable between opened and closed positions for controlling energization of said circuit, said switch being operable for opening its contacts when said valve is opened and for closing its contacts when said valve is closed, and a thermal switch having contacts in said circuit also movable between opened and closed positions for con trolling energization of said circuit, said thermal switch being responsive to heating of said thermoelectric means for closing its contacts so as to delay energization of said circuit until said thermoelectric means becomes operable.
5. Safety control apparatus for fuel burners having main and pilot burners comprising in combination means for supplying fuel to the burners, an electromagnet, means operable upon energization of said electromagnet for controlling supply of fuel from the fuel supply means to the main burner and being biased to a position Where fuel supply is prevented, an electric igniter for the pilot burner, thermoelectric means exposed to the heat of a flame at the pilot burner and operable for energizing said electromagnet but insufficiently to overcome the bias of said fuel controlling means, a source of current supply for said electromagnet separate from that generated by said thermocouple and sumcient to overcome the bias of said fuel controlling means, a pressure switch connected to the fuel supplying means ahead of said fuel controlling means and responsive to pressure in said fuel supplying means for controlling said separate current supply according to the position of said fuel controlling means, and a thermally operable switch connected in series circuit with said pressure switch and responsive to heating of said thermoelectric means for controlling said separate current supply according to the heated or unheated condition of said thermoelectric means, said igniter being connected to be energized from said source according to the position of said fuel controlling means.
6. Safety control apparatus for fuel burners having main and pilot burners comprising in combination, means for supplying fuel to the burners, control means operable for controlling the supply of fuel from said fuel supplying means to the main burner and being biased toone controlling position, electromagnetic means including coil means and armature means movable relatively between attracted and released positions, said electromagnetic means being operatively associated with said control means for overcoming said bias when said coil means is energized sufficiently to hold said armature means in said attracted position and said control means in another controlling position, means responsive to the presence of a flame at the pilot burner for energizing said coil means sufficiently to hold said armature means in said attracted position but insui'flciently to cause said relative movement from released position, a source of current supply, a circuit connecting said coil means to said source for energizing the same suillciently to cause said relative movement of said armature means to said attracted position, time delay means operable for maintaining said circuit open until after said flame responsive means becomes responsive, and a pressure switch in said circuit responsive to the pressure in said fuel supplying means to the main burner for opening said circuit after said relative movement has occurred and while said armature means remains in said attracted position by energization of said coil means by said flame responsive means.
7. A safety control apparatus for fuel burners comprising control means operable for controlling the fuel supply to a burner and being biased to one controlling position, a pair of electromagnets including a pair of coil means and a single armature movable relatively to said coil means between attracted and released positions, said electromagnets being operatively associated with said control means for overcoming said bias when at least one of said coil means is energized sufficiently to hold said armature in said attracted position and said control means in another controlling position, an electric igniter, a circuit including said igniter and one of said electromagnets in parallel, a source of current supply for energizing said one electromagnet and igniter and effective to cause said armature to assume attracted position relative to said electromagnets, thermoelectric means responsive to operation of said igniter and connected in circuit with the other of said electromagnets, said thermoelectric ling position and said armature assuming said attracted position for opening the first said circult.
8. A safety and ignition system for fuel bumers having main and pilot burners comprising in combination means for supplying fuel to the burners, an electromagnet having a pair of magnet elements and separate coils therefor, a single armature movable relatively to said magnet elements between released and attracted positions, controlling means connected to said armature and biased to a position where fuel supply to the main burner is prevented by said. controlling means and said armature is held in released position, a source of current supply for energizing one of said coils sufficiently to overcome said bias and cause said armature to be moved to attracted position relative to said one coil and associated magnet, an electric igniter for the pilot "burner connected in parallel circuit with said one coil, thermoelectric means exposed to the heat of a flame at the pilot burner and connected for energizing the other of said coils suificiently to hold saidarmature in said attracted position with the associated magnet, a pressure switchconnected to the fuel supplying means ahead of said controlling means and responsive to pressure in said fuel supplying means to close its contacts in said biased position of said controlling means, said pressure switch contacts being connected in series circuit with said one coil and said igniter for deenergizing said igniter and one coil upon said armature being held in said attracted position by said other coil and magnet, and a thermally operable switch responsive to heating of said thermoelectric means for closing its contacts, said thermal switch contacts being connected in series circuit with said one coil and said pressure switch contacts for delaying energization of said one coil until said thermoelectric means has become heated.
MAX 8. UNGER.
REFERENCES CITED The following references are of record in the file of this patent:
1 UNITED STATES PATENTS Number Name Date 294,669 Pope Mar. 4, 1884 946,487 Burlingame Jan. 11, 1910 1,088,878 Clausen Mar. 3, 1914 1,248,942 Sprague Dec. 4, 1917 1,330,507 Willenbruck Feb. 10, 1920 1,855,551 Jackson Apr. 26, 1932 1,978,737 Bower Oct. 30, 1934 2,119,503 Kriechbaum May 31, 1938 2,194,634 Betz Mar. 26, 1940 2,211,701 McGrath Aug. 13, 1940 2,237,578 Ray Apr. 8, 1941 2,265,294 Lange Dec. 9, 1941 2,266,185 Fiila Dec. 16, 1941 2,290,047 Hildebrecht July 14, 1942 2,292,478 Ray Aug. 11, 1942 2,351,277 Mantz June 13, 1944
US538864A 1944-06-05 1944-06-05 Safety control system for fuel burners Expired - Lifetime US2449185A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US538864A US2449185A (en) 1944-06-05 1944-06-05 Safety control system for fuel burners

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US538864A US2449185A (en) 1944-06-05 1944-06-05 Safety control system for fuel burners

Publications (1)

Publication Number Publication Date
US2449185A true US2449185A (en) 1948-09-14

Family

ID=24148747

Family Applications (1)

Application Number Title Priority Date Filing Date
US538864A Expired - Lifetime US2449185A (en) 1944-06-05 1944-06-05 Safety control system for fuel burners

Country Status (1)

Country Link
US (1) US2449185A (en)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2667217A (en) * 1949-10-21 1954-01-26 Robertshaw Fulton Controls Co Automatic pilot control and igntion apparatus
US2711216A (en) * 1951-06-05 1955-06-21 Robertshaw Fulton Controls Co Control system for fluid fuel burners
US2720623A (en) * 1952-12-09 1955-10-11 Baltimore Gas And Electric Com Thermoelectric generators
US2720615A (en) * 1952-12-09 1955-10-11 Baltimore Gas And Electric Com Thermoelectric generators
US2733761A (en) * 1956-02-07 Top burner ignition system
US2812807A (en) * 1953-12-18 1957-11-12 Carrier Corp Gas burner control means
US3026867A (en) * 1958-06-30 1962-03-27 Robert A Size Solution heating apparatus and system
US3291115A (en) * 1962-02-27 1966-12-13 Hupp Corp Infra-red heaters
US4342568A (en) * 1979-07-20 1982-08-03 Tokyo Shibaura Denki Kabushiki Kaisha Refuse disposal apparatus

Citations (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US294669A (en) * 1884-03-04 Automatic cut-out for electro-magnetic helices
US946487A (en) * 1908-07-13 1910-01-11 Burlingame Telegraphing Typewriter Company Electromagnet.
US1088878A (en) * 1907-03-25 1914-03-03 Stromberg Carlson Telephone Electromagnetic device.
US1248942A (en) * 1914-12-31 1917-12-04 Sprague Safety Control And Signal Corp Electric detector-circuit.
US1330507A (en) * 1916-12-30 1920-02-10 Western Electric Co Electromagnetic switching device
US1855551A (en) * 1929-09-21 1932-04-26 E F Wheat Automatic igniter
US1978737A (en) * 1931-03-23 1934-10-30 Honeywell Regulator Co Solenoid
US2119503A (en) * 1936-01-23 1938-05-31 Honeywell Regulator Co Fluid fuel burner control
US2194634A (en) * 1938-03-29 1940-03-26 Cons Gas Electric Light And Po Relay device
US2211701A (en) * 1938-11-25 1940-08-13 Honeywell Regulator Co Two-stage relay
US2237578A (en) * 1938-10-21 1941-04-08 William A Ray Control circuit
US2265294A (en) * 1939-02-16 1941-12-09 Honeywell Regulator Co Control system
US2266185A (en) * 1938-08-12 1941-12-16 Honeywell Regulator Co Fluid fuel burner control system
US2290047A (en) * 1938-11-10 1942-07-14 Milwaukee Gas Specialty Co Safety device for heating and other apparatus
US2292478A (en) * 1940-02-12 1942-08-11 William A Ray Electromagnetic operator
US2351277A (en) * 1940-05-20 1944-06-13 Milwaukee Gas Specialty Co Safety device

Patent Citations (16)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US294669A (en) * 1884-03-04 Automatic cut-out for electro-magnetic helices
US1088878A (en) * 1907-03-25 1914-03-03 Stromberg Carlson Telephone Electromagnetic device.
US946487A (en) * 1908-07-13 1910-01-11 Burlingame Telegraphing Typewriter Company Electromagnet.
US1248942A (en) * 1914-12-31 1917-12-04 Sprague Safety Control And Signal Corp Electric detector-circuit.
US1330507A (en) * 1916-12-30 1920-02-10 Western Electric Co Electromagnetic switching device
US1855551A (en) * 1929-09-21 1932-04-26 E F Wheat Automatic igniter
US1978737A (en) * 1931-03-23 1934-10-30 Honeywell Regulator Co Solenoid
US2119503A (en) * 1936-01-23 1938-05-31 Honeywell Regulator Co Fluid fuel burner control
US2194634A (en) * 1938-03-29 1940-03-26 Cons Gas Electric Light And Po Relay device
US2266185A (en) * 1938-08-12 1941-12-16 Honeywell Regulator Co Fluid fuel burner control system
US2237578A (en) * 1938-10-21 1941-04-08 William A Ray Control circuit
US2290047A (en) * 1938-11-10 1942-07-14 Milwaukee Gas Specialty Co Safety device for heating and other apparatus
US2211701A (en) * 1938-11-25 1940-08-13 Honeywell Regulator Co Two-stage relay
US2265294A (en) * 1939-02-16 1941-12-09 Honeywell Regulator Co Control system
US2292478A (en) * 1940-02-12 1942-08-11 William A Ray Electromagnetic operator
US2351277A (en) * 1940-05-20 1944-06-13 Milwaukee Gas Specialty Co Safety device

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2733761A (en) * 1956-02-07 Top burner ignition system
US2667217A (en) * 1949-10-21 1954-01-26 Robertshaw Fulton Controls Co Automatic pilot control and igntion apparatus
US2711216A (en) * 1951-06-05 1955-06-21 Robertshaw Fulton Controls Co Control system for fluid fuel burners
US2720623A (en) * 1952-12-09 1955-10-11 Baltimore Gas And Electric Com Thermoelectric generators
US2720615A (en) * 1952-12-09 1955-10-11 Baltimore Gas And Electric Com Thermoelectric generators
US2812807A (en) * 1953-12-18 1957-11-12 Carrier Corp Gas burner control means
US3026867A (en) * 1958-06-30 1962-03-27 Robert A Size Solution heating apparatus and system
US3291115A (en) * 1962-02-27 1966-12-13 Hupp Corp Infra-red heaters
US4342568A (en) * 1979-07-20 1982-08-03 Tokyo Shibaura Denki Kabushiki Kaisha Refuse disposal apparatus

Similar Documents

Publication Publication Date Title
US2290048A (en) Safety device for heating and other apparatus
US2443892A (en) Safety control and ignition apparatus for gaseous fuel burners
US2290047A (en) Safety device for heating and other apparatus
US2449185A (en) Safety control system for fuel burners
US2411230A (en) Burner control system
US2456147A (en) Burner control system
US2391753A (en) Safety control and ignition system
US2640920A (en) Safety fuel burner control system utilizing flame conduction
US2340234A (en) Trip means for safety control devices and the like
US2299286A (en) Magnetic safety valve
US2601321A (en) Gas burner system utilizing safety push button
US2919858A (en) Flow control device
US2271506A (en) Thermoelectric safety device
US2132057A (en) Thermo-electric safety switch
US3108630A (en) Control system for gas burners
US2406925A (en) Control and ignition system for fuel burners
US2501850A (en) Control and ignition system for
US3005487A (en) Gas valve control with plural thermocouples
US2881830A (en) Electromagnetic control system
US2513257A (en) Safety control and ignition system for gaseous fuel burners
US2872972A (en) Fuel flow control device
US2183827A (en) Thermoelectric safety switch and the like
US2895545A (en) Control apparatus for fluid fuel burning apparatus and the like
US2489794A (en) Safety control and ignition apparatus for fuel burners
US2190303A (en) Electric switch