US1876509A - Control for metallurgical furnaces - Google Patents

Control for metallurgical furnaces Download PDF

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US1876509A
US1876509A US1876509DA US1876509A US 1876509 A US1876509 A US 1876509A US 1876509D A US1876509D A US 1876509DA US 1876509 A US1876509 A US 1876509A
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burner
opening
shaft
closure
gear
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23LSUPPLYING AIR OR NON-COMBUSTIBLE LIQUIDS OR GASES TO COMBUSTION APPARATUS IN GENERAL ; VALVES OR DAMPERS SPECIALLY ADAPTED FOR CONTROLLING AIR SUPPLY OR DRAUGHT IN COMBUSTION APPARATUS; INDUCING DRAUGHT IN COMBUSTION APPARATUS; TOPS FOR CHIMNEYS OR VENTILATING SHAFTS; TERMINALS FOR FLUES
    • F23L15/00Heating of air supplied for combustion
    • F23L15/02Arrangements of regenerators
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E20/00Combustion technologies with mitigation potential
    • Y02E20/34Indirect CO2mitigation, i.e. by acting on non CO2directly related matters of the process, e.g. pre-heating or heat recovery
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/8593Systems
    • Y10T137/86389Programmer or timer
    • Y10T137/86405Repeating cycle
    • Y10T137/86421Variable

Definitions

  • This invention relates to controls formetallurgical furnaces and, while it is of general application and use, it is especially designed for use in conjunction with regenerative furnaces, having for its object the unitary control of the burners and burner openings, particularly, the timing and sequences of the operatlons thereof.
  • the present invention contemplates the automaticcontrol of the timing and of the sequence of operation of the burner elements and sources of fuel, air and steam supply, from a remote point of control such, for instance, as the reversing l or control table or platform.
  • Fig. 1 is a fragmentary elevation of a furnace adjoining a burner opening, illustrating the present invention in conjunction therewith;
  • Fig. 2 is a vertical section taken along line 22 of Fig. 1 illustrating the position of the timer mechanism, the burner and cooperating elements in side elevation, and the closure for the burner opening in section;
  • Fig. '3 is a vertical section taken along line 33 of Fig. 2 illustrating, in part, the movable mounting for the burner;
  • Fig. 4 is a horizontal longitudinal section taken along line 44 of Fig. 1 through the timing mechanism;
  • Fig. 5 is a vertical section through the timer taken along line 5-5 of Fig. 4, and
  • Fig. 6 is a transverse vertical section through the timer taken along line 6-6 of Fig. 1;
  • Fig. 7 is a fragmentary vertical longitudinal section taken along line 77 of Fig. 6 to lllustrate the timing escapement mechanism. 4
  • the burners are generally located at the ends ofthe furnace to direct flames thereof longitudinally therethrough.
  • One burner is operated at a time, the hotgases and products of ombustion escaping at the end of the furnace opposite to the operating burner, to pass through the checkers at that end for heat recovery.
  • the operating burner ceases to function, the reversing valves are manipulated to reverse the draught and the opposed burner commences operation with hot gases and products of combustion passing through checkers at the end of the furnace opposed to the operating burner.
  • the present invention is designed to automatically control these burners and the supply of fuel and steam thereto from the reversing table or platform in such manner that the necessary operations will take place in their proper sequence and in proper relation to the operation of the reversing valves. That is to say, with reference to the functioning burner, the fuel supply to the burner is initially cut off, then the steam supply, and finally the burner is moved from its opening in the furnace end wall and the opening is closed. After these operations have taken place in the sequence indicated at one end of the furnace, the reversing valves are changed and the burner opening at the opposite end of the furnace is opened, the burner positioned therein, steam supplied to the burner and finally the fuel is allowed to enter and pass through the burner.
  • 10 designates the end wall of i an Open hearth furnace having the burner opening 11 extending therethrough.
  • the exterior of the wall surrounding the burner opening is provided with a recess 12 in which may be housed the mechanism forming the subject matter of the present invention, it
  • a water cooled frame 13 Surrounding the burner opening 11 is a water cooled frame 13, which is fixed in place and through which the burner operates to direct a flame into the interior of the furnace.
  • a vertical guide 15 which is fixed in the brackets 16, secured to the outer wall of the frame 13.
  • a plate 17 is mounted for movement on the guides 15 and has a central boss 18 at its upper end into which the burner 19 extends and through which the burner 19 communicates with the burner openings 11 and 14 of the wall 10 and the frame 13 respectively.
  • a burner 19 is mounted in front of plate 17 in general alignment with the boss 18 thereof and the discharge end of the burner 19 is received in and projects through or into the boss 18.
  • the burner 19 will direct a flame through said openings into the furnace.
  • the lower end of the plate is provided with a lateral arm 20 pivotally connected, as at 21, to the plate 17, said arm at its outer end being attached to the upper end of an operating rod 22.
  • the lower end of the operating rod 22 is connected to a driving or controlling mechanism, which, at intervals, moves the rod upwardly or downwardly.
  • abutting faces of the plate 17 and the frame 13 may be closely fitted, whereby arelatively alr-tlght oint is created between the plate 17 and the frame 13 to substantially seal the burner openings 14 and 11 when the plate 17 is elevated, thus preventing, or reducing to a m1n1mum,-the.infiltration of air through said openings.
  • the downward movement of the rod 22 moves the body portion of plate 17 away from the burner opening 14 and brings the boss 18 into alignment therewith, thereby positioning the burner 19 for operation.
  • the outer end of the burner is pivotally mounted on an adjustable yoke 23,'so that the movement of the plate 17 causes the burner 19 to swing about the yoke 23 as a pivot, while the forward or discharge end of the burner has a sliding engagement with the boss 18 of the plate 17, said sliding engagement being insuficient to dis-engage the burner 19 from the boss 18 during the normal operation of the mechanism hereinbefore described.
  • a bar or plate 24 is mounted transversely of the recess 12 in front of the frame 13, and on its forward face is provided with the guides 25.
  • a supporting frame 26 is mounted slideably in the guides and has an outstanding connection 27 at its upper end to which the yoke 23 is attached.
  • a locknut 28 By means of a locknut 28 the lateral position of the yoke with reference to the connection 27 may be adjusted, i. e. the yoke may be adjusted about a vertical pivot and by the locknut 28 fixed in such adjusted position.
  • the lower end of the frame 26 is provided with an apertured lug 29, the aperture of which is interiorly threaded for engagement with the threads of the threaded shaft 30.
  • This shaft 30 is mounted in the threaded bearing 31 positioned at the lower edge of the plate or bar 24 in registration with the lug 29.
  • the lower end of the shaft 30 is provided with a manipulating wheel or handle 32, and
  • the yoke 23, carrying the burner 19 may be adjusted about a vertical pivot on the connection 27 and locked in any one of its adjusting positions by nut 28 or it may be adjusted vertically about a horizontal pivot by rotatin the shaft 30, which has a threaded connection with the lug 29 carried by the frame 26, and be locked in such adjusted vertical position by the nut 33.
  • the present apparatus is described as being used in connection with oil as a fuel and steam as an atomizing agent.
  • Flexible connections deliver these fluids to the burner mixing head 34, the flex ible hose or pipe 35 delivering steam to the mixing head 34 and the flexible hose or ipe 36 delivering the fuel oil.
  • the hose or pl 35 could deliver any other suitable atonuzmg agent to mixing head 34, while the hose or-pipe 36 could equally as well deliver any other suitable fuel, such as as, to the mixing head 34.
  • the initial ste o the sequence operation is to lower t e plate 17 to bring the boss 18 and burner 19 into registration with the burner o nings 11 and 14 in e valve controlling1 the flow through the hose or pipe is t en opened, admitting steam into the mixing head 34 and burner 19, and finally, the valve controlling the fuel hose or pipe 36 is opened to permit the fuel to enter the mixing head 34 and the burner 19.
  • a casing 38 mounted on a platfrom 37, adjoining the recess 12 at the end wall of the furnace, is a casing 38 in which is mounted and housed the mechanism that acts as a control for the various elements at that end of the furnace.
  • a shaft 39 projects from the center of the. casing 38 and extends to a point adjoining the lower end of the rod 22, to which it is connected by a crank 40, the'inner end of this shaft 39 being mounted in-a bearing 41 supported by a-transverse plate 42 located in the recess 12.
  • crank operatesthrough an arc which causes the rod 22 to move upwardly such sequence of opp p the valve controlling the P thereby lowering the and downwardl and impart a reciprocatory movement to p ate 17 as hereinbefore described.
  • a control shaft which at its outer projecting end has a crank 44 that connects with the handle of a valve in the pipe 46, which delivers steam to the flexible hose or pipe 35.
  • This connection between the crank 44 and handle 45 is a pitman 47.
  • crank 44 operates through an arc to reci rocate the pitman and 0 en and close t e valve under the control 0 the handle 45 to control the supply of steam to the hose or i e 35.
  • a second control shaft 48 which is provided at its outer end with crank 49 connected by itman to the handle 51 of a valve contro ling the supply pipe 52 which delivers fuel to the hose or i e36.
  • crank 49 on the exterior of the casing 38 will swing through an arc to reciprocate the-pitman 50 and the valve handle 51 will controL the flow of fuel through the pipes 52 to the hose or pipe 36.
  • the mechanism housed in the casin -38 is designed to automatically regulate t e oscillation of the shafts 39, 43 and 48 to accomlish the sequence of operation hereinbefore described. That is to say, assuming that the elements are as illustrated in Fig. 2, and it is desired to discontinue the operation of the burner, the shaft 48 must first oscillate to close the valve controlled by the handle 51 to stop the delivery of fuel through the hose or pipe 36 to the mixing head 34; after which the shaft 43 must oscillate to close the valve under the control of the handle 45 to eliminate the delivery of steam through the hose or ipe 35 to the mixing head 34; and finally the shaft 39 must oscillate to elevate the crank 40 and rod 22 and b them to elevate the plate 17 whereby t e boss 18 is moved out of ali ment with the burner openings 11 and 14 and the body of the plate is brought across the opening 14 to close and seal the same.
  • the shaft 39 In its reverse operation, the shaft 39 must first oscillate in the reverse direction to lower the crank 40 and rod 22, plate 17 to bring the boss 18 in alignment with the opening 14 and thus position the burner to direct a flame through the openings 11 and 14; then the shaft 43 must oscillate in the reverse direction to open the valve under the control of the handle 45 to permit steam to pass into and through the hose or pipe 35; and,'finally, the shaft 48 must oscillate in a reverse direction to open the valve. under the control of the handle 51 to permit v the delivery of fuel from the pipe 52 into the hose or pipe 36.
  • This motor 53 may be of any suitable type, but in Fig. 5, is illustrated as being a hydraulic or fluid operated motor which consists of a cylinder in which a piston 54 is designed to operate. At each end of the cylinder of motor 53 are the standard supply and exhaust pipes 55, by means of which the-operating fluid is admitted to and escapes from the cylinder.
  • the piston 54 of the motor is connected to a horizontally reciprocable shaft 56, which is reciprocated with the piston 54.
  • the admission of fluid to the cylinder of the motor 53 is automatically controlled from the reversing platform or table, and the oscillation of the shafts 39, 43 and 48 is accomplished, in the proper sequence, by and from the movement of the shaft 56 under the control of the piston 54.
  • the shaft 56 extends into the casing 38 through one end wall thereof, and its inner end is connected as at 57 to a rack 58, which operates between the guides 59 in the bottom of the casing 38.
  • a rack 58 which operates between the guides 59 in the bottom of the casing 38.
  • This gear is keyed to shaft 61 which projects laterally through the casing 38, and at one end this shaft may be provided with a crank 61a for the manual operation thereof, if this is desired.
  • the reciprocation of rack 58 causes the shaft 61 to oscillate in a direction dependent upon the direction of reciprocation of said rack.
  • gear 62 Keyed to the shaft 61 and adjoining the rear side of the casing 38 is a gear 62 which is the driving gear for the timer mechanism. lUpon one'side of the gear 62 is a shaft 63', parallel to the shaft 61, and upon which is mounted a gear 63'for the control of the shaft 43; while on the opposite side of gear 62 is a shaft 64' parallel to the shaft 61, and upon which is mounted a gear 64 for the control of the shaft 48. Therefore, as the gear 62 is oscillated, the gears 63 and 64 in mesh therewith will be also oscillated.
  • the center gear 62 carries an outstanding pin 65, which is designed to engage with the slot 66 in the driven element 67 of a Geneva escapement.
  • This driven element 67 is keyed to the shaft 39, and upon each side of the slot 66 is provided with an arcuate locking surface 68.
  • a disc 69 keyed to the shaft 61, upon which the gear 62 is mounted and keyed. As the gear 62 is oscillated, the disc 69 is simultaneously and similarly oscillated. At one point in its periphery, the disc 69 is cut away as at 71 for the accommodation of the projection carrying th slot 66 of the driven element 67 thereby permitting the latter to swing when the slot 66 engages the pin 65 of the gear 62.
  • the latter has a driven element 70 of a Geneva escapement fixed thereto, which is provided with a slot 72 flanked by the arcuate surfaces 73.
  • a locking disc 74 Keyed to the shaft 63 is a locking disc 74, having a cutaway portion 75
  • the gear 63 carries an outstanding pin 76, which is positioned above the cut-away portions 7 5 of the locking disc 74.
  • the rack 58 in imparting an oscillatory movement to the gears 60 and 62, imparts a similfir movement to the gear 63 by virtue of the latter meshing with the gear 62.
  • This oscillatory movement of the gear 63 causes the disc 74 to position the cut-away portion 75 thereof below the slot 72 in the driven member 70 of the Geneva escapement, which releases the arcuate surfaces 73 thereof from contact thereofwith the disc 74 and permits the pin 76 of the gear 63 to engage the slot 72 and move the driven memher 7 O.
  • This movement of the driven member 70 causes the shaft 43 to oscillate, and by its movement, through the crank 44 and pitman 47, control the steam valve operated by the I handle 45 as hereinbefore described.
  • the operation of the gear 63, disc 7'4 and driven member 70 is similar in all respects to the operation of the gear 62, the disc 69 and driven member- 67 except that its timing ,in the sequence of operations is such that provided with a driven member of a Genevaescapement 77, which has the arcuate surfaces 78 to coact with the surface or periphery of the disc 79 keyed to the shaft 64'.
  • This disc 7 9 is cut away as at 80 in a manner similar to the discs 69 and 74 and the gear 64 is provided with an outstanding pin 81 for engagement with a slot 82 in the driven member 77 of the Geneva escapement.
  • the gear 64 will also be oscillated, moving the disc 79 to release one or the other of the arcuate surfaces 78 of the driven member 77 of the Geneva escapement in contact therewith, to permit the outstanding pin 81 of the gear toengage the slot 82 and shift said driven member in a manner similar to the shifting of the driven members 67 and 70.
  • Thisshifting of the driven member 77 causes the shaft 78 to oscillate to control the pitman whereby the valve under the control of the handle 51 is closed and opened.
  • each of the valves under control of the handles 46 and 51 is provided with a mechanism driven from the gear 62, which closes and opens the valves by virtue of the oscillation of the driven members 70 and 77 respectively.
  • the shaft 39 which controls the positionof the plate 17, as heretofore described, is oscillated to control the position of the plate 17 by means of the oscillation imparted to the driven member 67 fixed to said shaft.
  • v gear 62 would then move in a counter-clockwise direction, while the gears 63 and 64 would move in a clockwise direction.
  • gear 62 moves in a clockwise direction, it (will be for the purpose of placing a burner 19 in operation, which has been previously inactive.
  • the movement of the rack 58 toward the left in that view first causes the pin of the gear 62 to contact with the slot 66 of the driven member 67, which oscillates the shaft 39 to bring the plate 17 to the position illustrated in Fig. 2.
  • This initial movement of the rack 58 brings the pins 76 and 81 and the shafts 63' and 64' respectively, each one step nearer the slots 72 and 82 in their respective driven members and 77.
  • the continued movement of the rack 58 toward the left then causes the pin 76 of the gear 63 to engage the slot 72 of the driven member 70, oscillating the shaft 43, to open the valve under control of the handle 45.
  • the pin 65 of the gear 62 is two operative steps away from the driven member 67 while the pin 81 of the gear 64 is inposition to next engage its driven member 77 "Therefore, as the rack 58 completes its movement to the left, the pin 81 of'the gear 64 engages the slot 82 of the driven member 77 and oscillates the shaft 48 to open the valve under control of the handle 51. Thus, when the rack 58 reaches the limit of its movement toward the left in Fig.
  • the pin of the gear 62 is three operative steps from engagement with the :slot 66 of its driven member 67 the pin 76 of the gear 63 is two operative steps from gjenga ement with the slot 72 of its driven -mem er 70, and the pin 81 of the gear 64 is its driven member 77 to operate the valve under control of the handle 51 to close the same; then the pin 7 6 of the gear 63 engages the slot 72 of its driven member 7 O to operate the valve under control of the handle 45 to close the same; and finally the pin 65 of the gear 62 engages the slot 66 of its driven memher to oscillate the shaft 39, moving the plate 17 to take the burner out of alignment with the burner openings 11 and 14 and to seal the latter. This movement to the right (Fig. 5)
  • a crank 61a engages a projecting end of the shaft 61, for an emergency operation of the mechanism in the casing 4:8, should the motor 53 be ineffective.
  • any type of motor may be used in conjunction with the mechanism described in lieu of a fluid operated motor 53 disclosed in the drawings. It is, furthermore, obvious that any suitable operative connection may be present on the reversing table or platform for automatically controlling the operation of the controlling and timing mechanisms, which form the subject matter of the present invention; or the respective controlling and timing mechanisms may be manually regulated from the reversing table or platform, without any automatic connection with the control of the reversing valves, if that is desired.
  • any suitable mechanism may be used for automatically, initially operating the motor 53 of the controlling mechanism at one end of'the furnace to take a burner 19 out of service, then operate the reversing valves, and finally operate the motor 53 at the opposite end of the furnace to put the burner 19 at that end into operation.
  • This may be done automatically, if desired, but the mechanism therefor is not a part of the present invention, and is, hence, not described herein.
  • a closure therefor a burner, a plurality of 9 valved supply pipes for said burner, means for operating said closure and the valves of said supply pipes in alternately predeter mined sequences, and a unitary control for said means.
  • a closure for said opening comprising a plate having an imperforate body with an opening in one end thereof, a mounting for said closure to permit it to be moved to a position with the imperforate body closing said burner opening or to a position with the aperture thereof aligned withsaid burner opening, and a burner pivotally mounted at one end and having its opposite end coacting at all times with the aperture in said closure.
  • a closure for said opening comprising a plate having an imperforate body with an opening in one end thereof, a mounting for said closure to permit it to be moved to a position withthe imperforate body closing sald burner opening or to a position with the aperture thereof aligned with said burner opening, means for moving said closure to either of its two positions, a burner pivotally mounted at one end and havingI its opposite end coacting at all times wit the aperture in said closure, valved supply pipes for said burner, means for controlling the valves of said pipes, and having a unitary control for the valve operating means and the means for moving the closure.
  • valve for each of said pipes to control the flow therethrough and a unitary control for said valves and closure to operate the same alternately in one of two predetermined sequences.
  • closure closure, supply pipes cooperating with said burner, valves for said pipes, and a unitary control to successively operate the closure and said valves.
  • a burner having its discharge end coacting with the openin in the burner late, a bar secured to the wa 1 guides on sai bar, a supporting frame slidably mounted on said guides, a threaded bearing outstanding from the bar, a corres onding threaded lug on the frame, a threa ed shaft cooperating with said bearing and lug for the ad'ustment of the position of the frame, a yo e mounted for adjustment on said connection, means for retaining the yoke in its ad'usted position, and means for pivoting the urner, ad'oin- I in its intake end, between the arms 0 the go e, whereby the discharge end of the I urner may move with the burner plate.
  • a supporting frame slidably mounted on said guides, a threaded bearing outstanding from the bar, a corresponding threaded lug on the frame, a threaded shaft cooperating with said bearing and lug for position of the frame, a yoke mounted for adjustment on said connection, means for retaining the yoke in its adJusted position,
  • the rack will oscillate one of said driving shafts.
  • ARTHUR L. STEVENS means for pivoting the burner between the means for operating the valves and moving the burner in a predetermined sequence comprising an operating shaft for each valve and the burner, a driven member on each such shaft, a unita oscillatory driving shaft, in-
  • the combination with a movable burner, of valved supply pipes leading thereto, and means for operating the valves and moving the burner in a predetermined sequence comprising an operating shaft for each valve and the burner, a driven member on each such shaft, having a slotted engaging portion flanked by curved locking surfaces, a driving shaft for each driven member, a gear on each driving shaft, said gears meshing one with the other, a pin on each gear to at times engage the slot of the engaging portion of the coacting driven member, a disc fixed to each gear the periphery of which engages one or the other of the locking surfaces of the cooperating driven member to lock it from movement, and means whereby one of said I driving shafts may be oscillated.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Feeding And Controlling Fuel (AREA)

Description

p 6, 1932- I A.-L. STEVENS 1,876,509
CONTROL FOR METALLURGICAL FURNACES Filed March 18, 1929 SSheets-Sheet 1 gaff/7211 Z. 576 16715 /7135 5 manly/5 Sept. 6, 1932. A. L. STEVENS CONTROL FOR METALLURGICAL FURNACES Filed March-18. 1929 5 Sheets-Sheet 2 ii an: Fi/nai ml lull "Jilin/I,
177 955. ,Mdlfi wa P 1932- A. 1.. STEVENS 1,876,509
CONTROL FOR METALLURGICAL FURNACES Filed March 18, 1929 5 Sheets-Sheet 5 0 ygvijv 7 40 167 55: Jri/zzzrl. 51/ 00115 Sept. 6, 1932.
A. L STEVENS CONTROL FOR METALLURGICAL FURNACES Filed March 18, 1929 5 Sheets-Sheet 4 Sept. 6,1932. A. L. STEVENS 1,876,509
" CoriTRoL FOR METALLURGICAL FURNACES 5 sheets-sheet 5 Filed March 18, 1929 WWI/677757.- J/ri lzarL. STE/c715 Patented Sept. 6, 1932 UNITED STATES PATENT OFFICE,"
ARTHUR L. STEVENS,.OF EVAN STON, ILLINOIS, ASSIGNOR, BY MESNE As SIGNuENTs, TO ARTHUR L. STEVENS CORPORATION, OF CHICAGO, ILLINOIS, A CORPORATION OF DELAWARE CONTROL FOR METALLURGICAL FURNACES Application filed March 18, 1929. Serial No. 347,863.
This invention relates to controls formetallurgical furnaces and, while it is of general application and use, it is especially designed for use in conjunction with regenerative furnaces, having for its object the unitary control of the burners and burner openings, particularly, the timing and sequences of the operatlons thereof.
Among its other objects the present invention contemplates the automaticcontrol of the timing and of the sequence of operation of the burner elements and sources of fuel, air and steam supply, from a remote point of control such, for instance, as the reversing l or control table or platform.
With the above and other objectsin View, as will be apparent, this invention consists of construction, combination and arrangement of parts, all as hereinafter more fully described, claimed and'illustrated in the accompanying drawings, wherein Fig. 1 is a fragmentary elevation of a furnace adjoining a burner opening, illustrating the present invention in conjunction therewith;
Fig. 2 is a vertical section taken along line 22 of Fig. 1 illustrating the position of the timer mechanism, the burner and cooperating elements in side elevation, and the closure for the burner opening in section;
Fig. '3 is a vertical section taken along line 33 of Fig. 2 illustrating, in part, the movable mounting for the burner;
Fig. 4 is a horizontal longitudinal section taken along line 44 of Fig. 1 through the timing mechanism;
Fig. 5 is a vertical section through the timer taken along line 5-5 of Fig. 4, and
Fig. 6 is a transverse vertical section through the timer taken along line 6-6 of Fig. 1; and
Fig. 7 is a fragmentary vertical longitudinal section taken along line 77 of Fig. 6 to lllustrate the timing escapement mechanism. 4 In the operation of regenerative, open hearth furnaces, the burners are generally located at the ends ofthe furnace to direct flames thereof longitudinally therethrough.
One burner is operated at a time, the hotgases and products of ombustion escaping at the end of the furnace opposite to the operating burner, to pass through the checkers at that end for heat recovery.
After a period of such operation, the operating burner ceases to function, the reversing valves are manipulated to reverse the draught and the opposed burner commences operation with hot gases and products of combustion passing through checkers at the end of the furnace opposed to the operating burner.
The present invention is designed to automatically control these burners and the supply of fuel and steam thereto from the reversing table or platform in such manner that the necessary operations will take place in their proper sequence and in proper relation to the operation of the reversing valves. That is to say, with reference to the functioning burner, the fuel supply to the burner is initially cut off, then the steam supply, and finally the burner is moved from its opening in the furnace end wall and the opening is closed. After these operations have taken place in the sequence indicated at one end of the furnace, the reversing valves are changed and the burner opening at the opposite end of the furnace is opened, the burner positioned therein, steam supplied to the burner and finally the fuel is allowed to enter and pass through the burner.
These operations are-all controlled automatically from the reversing table or platform so that once the train of operations has been initiated, the various individual operations follow in their proper sequence until the reversing operation iscompleted and .the operation of the burner at the opposite end of the furnace is completely established.
The present invention will be described ii connection with oil as the fuel used in conjunction with steam, the latter of which is for atomizing purposes. It is to be understood that other fuels and means of atomization may be employed in connection with the present mechanism with equal efliciency and without departing from the spirit and scope hereof.
Reference being .had more particularly to the drawings, 10 designates the end wall of i an Open hearth furnace having the burner opening 11 extending therethrough. The exterior of the wall surrounding the burner opening is provided with a recess 12 in which may be housed the mechanism forming the subject matter of the present invention, it
being understood, however, that the provision of such recess is unnecessary to the proper mounting and operation of the present structure.
Surrounding the burner opening 11 is a water cooled frame 13, which is fixed in place and through which the burner operates to direct a flame into the interior of the furnace. Upon each side of the burner opening 14, in the frame 13 and of the frame 13, and on the exterior of the frame is mounted a vertical guide 15 which is fixed in the brackets 16, secured to the outer wall of the frame 13. A plate 17 is mounted for movement on the guides 15 and has a central boss 18 at its upper end into which the burner 19 extends and through which the burner 19 communicates with the burner openings 11 and 14 of the wall 10 and the frame 13 respectively. When the boss 18 is in registration or alignment with the burner opening 14 of the frame 13, the boss 18 being positioned at the upper terminal of plate 17, the body of the plate 17 is located below the horizontal planes of the openings 1114.
A burner 19 is mounted in front of plate 17 in general alignment with the boss 18 thereof and the discharge end of the burner 19 is received in and projects through or into the boss 18. Thus, when the boss 18 is in registration with the openings 11 and 14, the burner 19 will direct a flame through said openings into the furnace. In order to provide for the adjustment of the plate 17 to bring the boss 18 thereof into and out of registration with the openings 11 and 14, the lower end of the plate is provided with a lateral arm 20 pivotally connected, as at 21, to the plate 17, said arm at its outer end being attached to the upper end of an operating rod 22. As will be hereinafter more fully described, the lower end of the operating rod 22 is connected to a driving or controlling mechanism, which, at intervals, moves the rod upwardly or downwardly. When the rod 22 moves upwardly, the plate 17 under the impetus thereof likewise moves upwardly, positioning the boss 18 above the burner openings 1114, thereby bringing the solid lower body-portion of the plate 17 over the opening 14. Thus the opening 14 is closed. The
. abutting faces of the plate 17 and the frame 13 may be closely fitted, whereby arelatively alr-tlght oint is created between the plate 17 and the frame 13 to substantially seal the burner openings 14 and 11 when the plate 17 is elevated, thus preventing, or reducing to a m1n1mum,-the.infiltration of air through said openings. The downward movement of the rod 22 moves the body portion of plate 17 away from the burner opening 14 and brings the boss 18 into alignment therewith, thereby positioning the burner 19 for operation.
The outer end of the burner is pivotally mounted on an adjustable yoke 23,'so that the movement of the plate 17 causes the burner 19 to swing about the yoke 23 as a pivot, while the forward or discharge end of the burner has a sliding engagement with the boss 18 of the plate 17, said sliding engagement being insuficient to dis-engage the burner 19 from the boss 18 during the normal operation of the mechanism hereinbefore described. llr: arder to provide for adjustment of the c and the cooperative mechanism, as Well as the mounting thereof, a bar or plate 24 is mounted transversely of the recess 12 in front of the frame 13, and on its forward face is provided with the guides 25. A supporting frame 26 is mounted slideably in the guides and has an outstanding connection 27 at its upper end to which the yoke 23 is attached. By means of a locknut 28 the lateral position of the yoke with reference to the connection 27 may be adjusted, i. e. the yoke may be adjusted about a vertical pivot and by the locknut 28 fixed in such adjusted position. The lower end of the frame 26 is provided with an apertured lug 29, the aperture of which is interiorly threaded for engagement with the threads of the threaded shaft 30. This shaft 30 is mounted in the threaded bearing 31 positioned at the lower edge of the plate or bar 24 in registration with the lug 29. The lower end of the shaft 30 is provided with a manipulating wheel or handle 32, and
adjusted relatively to the plate 17 and the frame 13 and also be locked in such adjusted positions. That is to say, the yoke 23, carrying the burner 19, may be adjusted about a vertical pivot on the connection 27 and locked in any one of its adjusting positions by nut 28 or it may be adjusted vertically about a horizontal pivot by rotatin the shaft 30, which has a threaded connection with the lug 29 carried by the frame 26, and be locked in such adjusted vertical position by the nut 33. These adjustments insure the proper positloning of the burner 19 in the boss 18 and with respect to the burner openings 11 and 14. 3,
As has been before noted, the present apparatus is described as being used in connection with oil as a fuel and steam as an atomizing agent. Flexible connections deliver these fluids to the burner mixing head 34, the flex ible hose or pipe 35 delivering steam to the mixing head 34 and the flexible hose or ipe 36 delivering the fuel oil. It is to be un erstood that insofar as the present invention is concerned, the hose or pl 35 could deliver any other suitable atonuzmg agent to mixing head 34, while the hose or-pipe 36 could equally as well deliver any other suitable fuel, such as as, to the mixing head 34. g
- n the operation of the present invention with respect to burner mechanisms described up to this int, a certain sequence of operation is malntained, and it is among the objects of the present invention to control and automatically regulate eration.
In settin the burner in o ration, the initial ste o the sequence operation is to lower t e plate 17 to bring the boss 18 and burner 19 into registration with the burner o nings 11 and 14 in e valve controlling1 the flow through the hose or pipe is t en opened, admitting steam into the mixing head 34 and burner 19, and finally, the valve controlling the fuel hose or pipe 36 is opened to permit the fuel to enter the mixing head 34 and the burner 19. The reverse of this action, that is, when it is desired to take the burner out of service, is to initially close fuel hose or pi 36, then the valve control ling the steam ose or pipe 35, and finally to elevate the plate 17, removing the burner 19 and boss 18 from alignment with the burner apertures 11 and 14 and sealing or closing such openings. As there are two burners, one at each end of the furnace, and one of which is out of service while the other is operating, it is also necessary to maintain a relative sequence of operation between these two burners. In other words; one burner is taken out of service, as above described, and when it is completely out of service, the burner at the opposite end of the furnace is put into service or operation, as above described, and vice versa. The foregoing operation and sequences of operation with respect to each individual burner and the relative sequences of operation between the burners of a single furnace are maintained and controlled automatically by the mechanism to be described Mounted on a platfrom 37, adjoining the recess 12 at the end wall of the furnace, is a casing 38 in which is mounted and housed the mechanism that acts as a control for the various elements at that end of the furnace. A shaft 39 projects from the center of the. casing 38 and extends to a point adjoining the lower end of the rod 22, to which it is connected by a crank 40, the'inner end of this shaft 39 being mounted in-a bearing 41 supported by a-transverse plate 42 located in the recess 12. As the shaft 39 is oscillated, the crank operatesthrough an arc which causes the rod 22 to move upwardly such sequence of opp p the valve controlling the P thereby lowering the and downwardl and impart a reciprocatory movement to p ate 17 as hereinbefore described. At one end of the casing 38 and 'to one side of the shaft 39 is a control shaft which at its outer projecting end has a crank 44 that connects with the handle of a valve in the pipe 46, which delivers steam to the flexible hose or pipe 35. This connection between the crank 44 and handle 45 is a pitman 47. As the shaft 43 is oscillated, crank 44 operates through an arc to reci rocate the pitman and 0 en and close t e valve under the control 0 the handle 45 to control the supply of steam to the hose or i e 35. Upon the opposite side of the shaft- 39 to the shaft 43 is a second control shaft 48, which is provided at its outer end with crank 49 connected by itman to the handle 51 of a valve contro ling the supply pipe 52 which delivers fuel to the hose or i e36. As the shaft 48 is oscillated, the
the furnace wall 10. P P
crank 49 on the exterior of the casing 38 will swing through an arc to reciprocate the-pitman 50 and the valve handle 51 will controL the flow of fuel through the pipes 52 to the hose or pipe 36.
The mechanism housed in the casin -38 is designed to automatically regulate t e oscillation of the shafts 39, 43 and 48 to accomlish the sequence of operation hereinbefore described. That is to say, assuming that the elements are as illustrated in Fig. 2, and it is desired to discontinue the operation of the burner, the shaft 48 must first oscillate to close the valve controlled by the handle 51 to stop the delivery of fuel through the hose or pipe 36 to the mixing head 34; after which the shaft 43 must oscillate to close the valve under the control of the handle 45 to eliminate the delivery of steam through the hose or ipe 35 to the mixing head 34; and finally the shaft 39 must oscillate to elevate the crank 40 and rod 22 and b them to elevate the plate 17 whereby t e boss 18 is moved out of ali ment with the burner openings 11 and 14 and the body of the plate is brought across the opening 14 to close and seal the same. In its reverse operation, the shaft 39 must first oscillate in the reverse direction to lower the crank 40 and rod 22, plate 17 to bring the boss 18 in alignment with the opening 14 and thus position the burner to direct a flame through the openings 11 and 14; then the shaft 43 must oscillate in the reverse direction to open the valve under the control of the handle 45 to permit steam to pass into and through the hose or pipe 35; and,'finally, the shaft 48 must oscillate in a reverse direction to open the valve. under the control of the handle 51 to permit v the delivery of fuel from the pipe 52 into the hose or pipe 36.
This relative oscillation of the shafts 39, 43
and 48 is controlled from a motor 53. This motor 53 may be of any suitable type, but in Fig. 5, is illustrated as being a hydraulic or fluid operated motor which consists of a cylinder in which a piston 54 is designed to operate. At each end of the cylinder of motor 53 are the standard supply and exhaust pipes 55, by means of which the-operating fluid is admitted to and escapes from the cylinder. The piston 54 of the motor is connected to a horizontally reciprocable shaft 56, which is reciprocated with the piston 54. Thus, if the piston 54 moves toward one end of the cylinder of the motor the shaft 56 will move in a similar direction, and if the piston 54 moves in the opposite direction, the shaft 56 will move also in that direction. The admission of fluid to the cylinder of the motor 53 is automatically controlled from the reversing platform or table, and the oscillation of the shafts 39, 43 and 48 is accomplished, in the proper sequence, by and from the movement of the shaft 56 under the control of the piston 54.
The shaft 56 extends into the casing 38 through one end wall thereof, and its inner end is connected as at 57 to a rack 58, which operates between the guides 59 in the bottom of the casing 38. As the shaft 56 reciprocates, it is obvious that the rack 58 will be similarly reciprocated, and in so doing, rotates a gear 60 in either direction dependent upon the direction of reciprocation of the rack 58. This gear is keyed to shaft 61 which projects laterally through the casing 38, and at one end this shaft may be provided with a crank 61a for the manual operation thereof, if this is desired. Thus, through the medium of the gear 60, the reciprocation of rack 58 causes the shaft 61 to oscillate in a direction dependent upon the direction of reciprocation of said rack.
Keyed to the shaft 61 and adjoining the rear side of the casing 38 is a gear 62 which is the driving gear for the timer mechanism. lUpon one'side of the gear 62 is a shaft 63', parallel to the shaft 61, and upon which is mounted a gear 63'for the control of the shaft 43; while on the opposite side of gear 62 is a shaft 64' parallel to the shaft 61, and upon which is mounted a gear 64 for the control of the shaft 48. Therefore, as the gear 62 is oscillated, the gears 63 and 64 in mesh therewith will be also oscillated. The center gear 62 carries an outstanding pin 65, which is designed to engage with the slot 66 in the driven element 67 of a Geneva escapement. This driven element 67 is keyed to the shaft 39, and upon each side of the slot 66 is provided with an arcuate locking surface 68. Below the shaft 39 and for cooperation with the driven element 67 is a disc 69 keyed to the shaft 61, upon which the gear 62 is mounted and keyed. As the gear 62 is oscillated, the disc 69 is simultaneously and similarly oscillated. At one point in its periphery, the disc 69 is cut away as at 71 for the accommodation of the projection carrying th slot 66 of the driven element 67 thereby permitting the latter to swing when the slot 66 engages the pin 65 of the gear 62. When the elements are in the positions shown in Fig. 7,
65 on the gear 62 enters the slot 66 of the driven element 67 and oscillates such driven element in the' direction of rotation of the gear 62, thereby bringing the opposite arcuate locking surface 68 into contact with the periphery of the disc 69 on the opposite side of the cutaway portion 71 thereof, to that originally contacting with the driven element 67; in this manner, the shaft 39 by the rotation of gear 62 is oscillated from one position to another, as the reverse movement of the rack 58 causes a reverse oscillation of said shaft and the elements coacting therewith. When the arcuate surfaces 68 of the driven member contact with the periphery of the disc 69, it is obvious that the mall 39 and the driven element 67 are locked 1 rom movement and it is only when the cutaway portion 71 of the disc 69 is positioned below the slot 66 of the driven element 67, that the driven element is free for oscillation under the control of the pin 65 of the gear 62.
For the operation of the shaft 43, the latter has a driven element 70 of a Geneva escapement fixed thereto, which is provided with a slot 72 flanked by the arcuate surfaces 73. Keyed to the shaft 63 is a locking disc 74, having a cutaway portion 75 The gear 63 carries an outstanding pin 76, which is positioned above the cut-away portions 7 5 of the locking disc 74. The rack 58 in imparting an oscillatory movement to the gears 60 and 62, imparts a similfir movement to the gear 63 by virtue of the latter meshing with the gear 62. This oscillatory movement of the gear 63 causes the disc 74 to position the cut-away portion 75 thereof below the slot 72 in the driven member 70 of the Geneva escapement, which releases the arcuate surfaces 73 thereof from contact thereofwith the disc 74 and permits the pin 76 of the gear 63 to engage the slot 72 and move the driven memher 7 O. This movement of the driven member 70 causes the shaft 43 to oscillate, and by its movement, through the crank 44 and pitman 47, control the steam valve operated by the I handle 45 as hereinbefore described. The operation of the gear 63, disc 7'4 and driven member 70, is similar in all respects to the operation of the gear 62, the disc 69 and driven member- 67 except that its timing ,in the sequence of operations is such that provided with a driven member of a Genevaescapement 77, which has the arcuate surfaces 78 to coact with the surface or periphery of the disc 79 keyed to the shaft 64'. This disc 7 9 is cut away as at 80 in a manner similar to the discs 69 and 74 and the gear 64 is provided with an outstanding pin 81 for engagement with a slot 82 in the driven member 77 of the Geneva escapement. As the gear 62 oscillates, in the manner heretofore described, the gear 64 will also be oscillated, moving the disc 79 to release one or the other of the arcuate surfaces 78 of the driven member 77 of the Geneva escapement in contact therewith, to permit the outstanding pin 81 of the gear toengage the slot 82 and shift said driven member in a manner similar to the shifting of the driven members 67 and 70. Thisshifting of the driven member 77 causes the shaft 78 to oscillate to control the pitman whereby the valve under the control of the handle 51 is closed and opened.
s From the foregoing it is apparent that each of the valves under control of the handles 46 and 51 is provided with a mechanism driven from the gear 62, which closes and opens the valves by virtue of the oscillation of the driven members 70 and 77 respectively. Also that the shaft 39, which controls the positionof the plate 17, as heretofore described, is oscillated to control the position of the plate 17 by means of the oscillation imparted to the driven member 67 fixed to said shaft.
' movement, i. e. at the left of Fig. 5, and would then be moved toward the right in Fig. 5, the
v gear 62 would then move in a counter-clockwise direction, while the gears 63 and 64 would move in a clockwise direction. When the gear 62 moves in a clockwise direction, it (will be for the purpose of placing a burner 19 in operation, which has been previously inactive.
Therefore, it will first be necessary, as heretofore described, to move the plate 17 downwardly to uncover. the burner openings 11 and 14 and position the burner 19 in alignment with said openings, then open the valve under control of the handle 45 to admit steam to the mixing head 34 of the burner 19; and finally open the valve under the control of the handle 51 to admit oil to the mixing head of the burner. Thus the movement of the gear 62 in a clock-wise direction accomplishes first: the oscillation of the shaft 39 to properly position the plate 17 second: the oscillation of the shaft 48 to open the valve under control of the handle 45 and third: the oscillation of the shaft 48 to open the valve under the control of the handle 51. Reversely, if the gear 62 moves in a counterclockwise direction, it is for the purpose of removing the burner 19 from action which has been previously in operation. Hence, this counter-clockwise movement accomplishes, first: the oscillation of the shaft 48 to close the valve under control of the handle 51; second: the oscillation of the shaft 43 to close the valve under control of the handle 45; and third: the oscillation of the shaft 39 to lift the plate 17 and remove the burner 19 from alignment with the burner openings 11 and 14 and close and seal said openings.
With the elements in the positions shown in Fig. 5, the movement of the rack 58 toward the left in that view, first causes the pin of the gear 62 to contact with the slot 66 of the driven member 67, which oscillates the shaft 39 to bring the plate 17 to the position illustrated in Fig. 2. This initial movement of the rack 58 brings the pins 76 and 81 and the shafts 63' and 64' respectively, each one step nearer the slots 72 and 82 in their respective driven members and 77. The continued movement of the rack 58 toward the left then causes the pin 76 of the gear 63 to engage the slot 72 of the driven member 70, oscillating the shaft 43, to open the valve under control of the handle 45. After this has taken place, the pin 65 of the gear 62 is two operative steps away from the driven member 67 while the pin 81 of the gear 64 is inposition to next engage its driven member 77 "Therefore, as the rack 58 completes its movement to the left, the pin 81 of'the gear 64 engages the slot 82 of the driven member 77 and oscillates the shaft 48 to open the valve under control of the handle 51. Thus, when the rack 58 reaches the limit of its movement toward the left in Fig. 5, the pin of the gear 62 is three operative steps from engagement with the :slot 66 of its driven member 67 the pin 76 of the gear 63 is two operative steps from gjenga ement with the slot 72 of its driven -mem er 70, and the pin 81 of the gear 64 is its driven member 77 to operate the valve under control of the handle 51 to close the same; then the pin 7 6 of the gear 63 engages the slot 72 of its driven member 7 O to operate the valve under control of the handle 45 to close the same; and finally the pin 65 of the gear 62 engages the slot 66 of its driven memher to oscillate the shaft 39, moving the plate 17 to take the burner out of alignment with the burner openings 11 and 14 and to seal the latter. This movement to the right (Fig. 5)
, returns the elements to the positions shown in Fig. 5 and takes the burner 19, under control of the mechanism, out of service.
There is one casing 38 and contained mechanism at each end of the furnace, one of which is positioned to operate a burner 19 located at each end of the furnace. When one of the timing and controlling mechanisms, such as illustrated in Fig. 5, has operated to place a burner 19 in action, the other timing and controlling mechanism located at the opposite end of the furnace has previously operated to take the burner 19 at that end of the furnace out of action. That is to say, the burner 19 at one end of the furnace is first taken out of action by its controlling mechanism and subsequently the burner at the opposite end of the furnace is placed in service by the operation of its companion controlling mechanism such as heretofore described and vice versa. I
A crank 61a engages a projecting end of the shaft 61, for an emergency operation of the mechanism in the casing 4:8, should the motor 53 be ineffective.
It is obvious, from the foregoing, that any type of motor may be used in conjunction with the mechanism described in lieu of a fluid operated motor 53 disclosed in the drawings. It is, furthermore, obvious that any suitable operative connection may be present on the reversing table or platform for automatically controlling the operation of the controlling and timing mechanisms, which form the subject matter of the present invention; or the respective controlling and timing mechanisms may be manually regulated from the reversing table or platform, without any automatic connection with the control of the reversing valves, if that is desired. That is to say, upon the operation of the mechanism for controlling the reversing valves, any suitable mechanism may be used for automatically, initially operating the motor 53 of the controlling mechanism at one end of'the furnace to take a burner 19 out of service, then operate the reversing valves, and finally operate the motor 53 at the opposite end of the furnace to put the burner 19 at that end into operation. This may be done automatically, if desired, but the mechanism therefor is not a part of the present invention, and is, hence, not described herein.
- the mechanism nor controls for the motors 53 been disclosed or described, the present application being confined to the mechanism for controlling the operation of the burner and of the doors for the burner openings in the furnace.
. What is claimed is:
1. The combination with a furnace, having a burner opening in the wall thereof, of a closure therefor, a burner, a plurality of valved supply pipes for said burner, and means for operating said closure and the valves of said supply pipes in a predetermined sequence.
2. The combination with a furnace, having a burner opening in the wall thereof, of a closure therefor, a burner, a plurality of valved supplypipes for said burner, means for operating said closure and the valves of said supply pipes in a predetermined sequence, and a single unitary control for said means.
3. The combination with a furnace, having a burner opening in the wall thereof, of
a closure therefor, a burner, a plurality of 9 valved supply pipes for said burner, means for operating said closure and the valves of said supply pipes in alternately predeter mined sequences, and a unitary control for said means.
4. The combination with a furnace, having a burner opening in the wall thereof, of a burner mounted for cooperation with said opening, sources of fluid. supply for said burner, means for controlling said sources of supply, a. movable closure for said burner opening, and means for operating said closure and the means for controlling said sources of sup ly in a predetermined sequence. 5. The combination with a furnace, having a burner opening in the wall thereof, of a movable closure for said opening, and a burner cooperating with said closure to be moved into and out of co-acting position with respect to said opening by the movement of the closure aforesaid.
6. The combination with a furnace, having a burner opening in the wall thereof, of a closure for said burner opening, comprising a body having an aperture in one end, said closure being movable to bring the body over said burner opening or to align its aperture therewith, and a burner cooperating with the aperture of the closure aforesaid.
7. The combination with a furnace, having a burner opening in the wall thereof, of a closure for said burner opening, comprising a body having an aperture in one end, said closure being movable to bring the body over said burner opening or to align its aperv ,ture therewith, and a burner so mounted that the discharge end thereof coacts at all times with the aperture of the closure aforesaid.
' 8. The combination with a furnace, having a burner opening in the wall thereof, of a closure for said opening comprising a plate having an imperforate' body with an. aperture therein, means for moving said closure relatively to the burner opening to position the imperforate body of the plate thereover or to align the aperture of the closure with the burner opening in the furnace, and a burner pivotally mounted' at one end and having the opposite end sealed in the aperture of said closure for movement therewith.
9. The combination with a furnace, having a burner opening in the wall thereof, of a closure for said opening, comprising a plate having an imperforate body with an opening in one end thereof, a mounting for said closure to permit it to be moved to a position with the imperforate body closing said burner opening or to a position with the aperture thereof aligned withsaid burner opening, and a burner pivotally mounted at one end and having its opposite end coacting at all times with the aperture in said closure.
10. The combination with a furnace, having a burner opening in the wall thereof, of a closure for said opening, comprising a plate having an imperforate body with an opening in one end thereof, a mounting for said closure to permit it to be moved to a position withthe imperforate body closing sald burner opening or to a position with the aperture thereof aligned with said burner opening, means for moving said closure to either of its two positions, a burner pivotally mounted at one end and havingI its opposite end coacting at all times wit the aperture in said closure, valved supply pipes for said burner, means for controlling the valves of said pipes, and having a unitary control for the valve operating means and the means for moving the closure.
11. The combination with a burner for a metallurgical furnace, of a movable closure cooperating therewith, valved supply pipes for said burner, and a unitary means for operating said closure and the valves of said pipes in a predetermined sequence.
12. The combination with a burner for a metallurgical furnace, of a movable closure cooperating therewith, valved supply pipes for said burner, and means for operating said valves and closure successively and alternately in one of two predetermined sequences.
13. The combination with a movable closure, of a burner cooperating therewith, a steam pipe to deliver steam to said burner, a
, fuel pipe to deliver fuel to said burner, a
valve for each of said pipes to control the flow therethrough and a unitary control for said valves and closure to operate the same alternately in one of two predetermined sequences.
14. The combination with a movable closure, of a burner cooperating therewith, a steam pipe to deliver steam to said burner, a fuel pipe to deliver fuel to said burner, a valve for each of said pipes to control the flow therethrough, a unitary control for said valves and closure whereby in one direction of operation of said control the closure is' moved, the valve of the steam pipe opened and the valve of the fuel supply plpe is opened in the order given.
15. The combination with a movable closure, a series of valves, and controlling means for said closures and valves whereby they are operated in a predetermined sequence. 16. The combination with a closure, of a plurality of valves, and acontrol for said valves and closure where by one operation the closure is moved and subsequently the valves are operated in a predetermined sequence and on the next operation of the controlling means the valves are operated in a predetermined sequence and the closure is moved.
17. The combination with a closure, of a plurality of valves, individual means for operating each of said valves and said closure, a unitary control for said operating means comprising a series of gears and Geneva escapements coacting to operate said valves and closure in pre-determined sequences.
18. The combination with a furnace having a burner opening, of a movableclosure for said opening, a burner coacting with said closure to be moved into and out of alinement with said opening by the action of the.
closure, supply pipes cooperating with said burner, valves for said pipes, and a unitary control to successively operate the closure and said valves.
19. The combination with a furnace having a burner opening, of a movable closure for said opening, a burner coacting with said for said opening, a burner coacting with said closure to be moved into and out of alinement with said opening by the action of the clo-.
.sure, a fuel supply pipe and a steam supply pipe cooperating with said burner, a valve to successively operate the closure, the valve of the steam pipe and the valve of the fuel pipe. 21. The combination with a furnace havmg a burner-opening, of a movable closure for each of said pipes, and a unitary control p with said openin pipe coperating with said burner, a valve for each of said pipes, and a unitary control to successively operate the closure, the valve of the steam pipe and the valve of the fuel pipe to put the burner in service and to reverse said successive operation to take said burner out of service.
22. The combination with a furnace wall having a burner opening therein, of a frame surrounding said opening having an opening in registration with the wall opening, guides on the exterior of the frame, a burner plate slidably mounted on said guides, having an opening therein to be moved into and out of registration with openings in the frame and wall, a burner having one end coacting with the opening in the burner plate, and adjustable means for mounting the opposite end of the burner.
23. The combination with a furnace wall having a burner opening therein, of a frame surrounding said opening having an opening in registration with the wall opening, guides on the exterior of the frame, a burner plate slidably mounted on said guides, having an opening therein to be moved into and out of registration with openings in the frame and wall, a burner having its discharge end coacting with the opening in the burner plate, and means for pivotally and ad'usta'bly supporting the opposite end of the urner.
24. The combination with a furnace wall having a burner opening therein, of a frame surroundin said opening having an opening in registration with the wall opening, guides on the exterior of the frame, a burner, plate slidably mounted on said guides, having an opening therein to be moved into and out of registration with openings in the frame and wall, a burner having its discharge end coacting with the openin in the burner plate, a bar secured to the wit guides on said bar, a su porting frame slidably mounted on said guidias, means for adjusting the position of the frame on said guides, and means for pivotally mounting the burner on said frame.
25. The combination with a furnace wall having a burner opening therein, of a frame surrounding said opening having an opening in registratlon with the wall opening, guides on the exterior of the frame, a burner plate slidably mounted on said guides, having an opening therein to be moved into and out of registration with openings in the frame and wall, a burner having its discharge end coacting with the opening in the burner plate,
a bar secured to the wall, guides on said bar, a supporting frame slidably mounted on said guid a threaded bearing outstanding from the th a correspondmg threaded lug on frame, threaded shaft cooper ting en nevaeoe said bearing and lug for the adjustment of the position of the frame, and means for pivotally mounting the burner, adjoining its intake end on said supporting frame.
26. The combination with a furnace wall W having a burner opening therein, of a frame surrounding said opening having an opening in registration with the wall opening, guides on the exterior of the frame, a burner plate slidably mounted on said guides, having an opening therein to be moved into and out of registration with openings in the frame and wall, a burner havin its discharge end coacting with the opening in the burner late, a bar secured to the wall, guides on said bar, a su porting frame slidably mounted on said gui es, a threaded bearing outstanding from the bar, a corresponding threaded lug on the frame, a threaded shaft co-operating with said bearing and lug for the adjustment of the position of the frame, an outstandin connection at the end of the supporting raxne opposed to the lug, a yoke mounted on said connection, and means for pivoting the burner to the yoke.
27. The combination with a furnace wall having a burner opening therein, of a frame surrounding said opening having an opening in registration with the wall opening, guides on the exterior of the frame, a burner plate slidably mounted on said guides, having an opening therein to be moved into and out of registration with openings in the frame and. wall, a burner having its discharge end coacting with the openin in the burner late, a bar secured to the wa 1 guides on sai bar, a supporting frame slidably mounted on said guides, a threaded bearing outstanding from the bar, a corres onding threaded lug on the frame, a threa ed shaft cooperating with said bearing and lug for the ad'ustment of the position of the frame, a yo e mounted for adjustment on said connection, means for retaining the yoke in its ad'usted position, and means for pivoting the urner, ad'oin- I in its intake end, between the arms 0 the go e, whereby the discharge end of the I urner may move with the burner plate.
28. The combination with a furnace wall having a burner opening therein, of a frame surrounding said opening having an opening in registration with the wall opening, guides on the exterior of the frame, a burner plate slidably mounted on said guides, having an opening therein to be moved into and out of registration with openings in the frame and wall, a lateral arm pivoted at the end of the burner plate, an operating rod connected to said arm, and means for reciprocating said rod.
29. The combination with a furnace wall having a burner opening therein, of a frame surroundin said opening havin an open- ?ng registration with the we opening, guides on the exterior of the frame, a burner plate slidably mounted on said guides, having an opening therein to be'moved into and out of registration with openings in the frame and wall, a burner having its discharge end coacting with the opening in the burner plate, a bar secured to the wall, guides on said bar,
' a supporting frame slidably mounted on said guides, a threaded bearing outstanding from the bar, a corresponding threaded lug on the frame, a threaded shaft cooperating with said bearing and lug for position of the frame, a yoke mounted for adjustment on said connection, means for retaining the yoke in its adJusted position,
,tion of the driven member,
the adjustment of the the other of the lockin surfaces of the cooperating driven mem r to lock it from movement, acting gear engages the slotted engaging pora reciprocatory rack, and means whereby the movement of except when the pin of the co-.
the rack will oscillate one of said driving shafts.
, ARTHUR L. STEVENS means for pivoting the burner between the means for operating the valves and moving the burner in a predetermined sequence comprising an operating shaft for each valve and the burner, a driven member on each such shaft, a unita oscillatory driving shaft, in-
termediate sha for operation from the driving shaft, means whereby the intermediate shafts operate the driven members of the shafts operating the valves, and means whereby the driving shaft operates the shaft controlling the burner.
31. The combination with a movable burner, of valved supply pipes leading thereto, and means for operating the valves and moving the burner in a predetermined sequence comprising an operating shaft for each valve and the burner, a driven member on each such shaft, having a slotted engaging portion flanked by curved locking surfaces, a driving shaft for each driven member, a gear on each driving shaft, said gears meshing one with the other, a pin on each gear to at times engage the slot of the engaging portion of the coacting driven member, a disc fixed to each gear the periphery of which engages one or the other of the locking surfaces of the cooperating driven member to lock it from movement, and means whereby one of said I driving shafts may be oscillated.
32. The combination with a movable burner of valved supply pipes leading thereto, and means for operatm the valves and moving the burner in'a pre etermined sequence comprising an operating shaft for each valve and the burner, a driven member on each such shaft, having a slotted engaging flanked by curved locking surfaces, a rivin shaft for each driven member, a gear on eac driving shaft, said gears meshing one with the other, a pin on each gear to at times engage the slot of the'engaging portion of the coacting driven member, a disc, fixed to each gear the periphery of which engages one or Qrtion
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2439609A (en) * 1945-05-14 1948-04-13 Comb Eng Co Inc Control for plural retractable fuel burners
US2481491A (en) * 1942-12-30 1949-09-13 Armstrong Cork Co Fuel oil system for feeding a plurality of burners, including means for emptying unused oil
US2747655A (en) * 1951-08-27 1956-05-29 Farnham Rex Couvelas Ignition burner for pulverized-fuel-burning furnace
US2773682A (en) * 1953-01-19 1956-12-11 United States Steel Corp Burner support for open hearth furnaces
US3232332A (en) * 1963-12-30 1966-02-01 Combustion Eng Fuel burner control arrangement

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2481491A (en) * 1942-12-30 1949-09-13 Armstrong Cork Co Fuel oil system for feeding a plurality of burners, including means for emptying unused oil
US2439609A (en) * 1945-05-14 1948-04-13 Comb Eng Co Inc Control for plural retractable fuel burners
US2747655A (en) * 1951-08-27 1956-05-29 Farnham Rex Couvelas Ignition burner for pulverized-fuel-burning furnace
US2773682A (en) * 1953-01-19 1956-12-11 United States Steel Corp Burner support for open hearth furnaces
US3232332A (en) * 1963-12-30 1966-02-01 Combustion Eng Fuel burner control arrangement

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