US2000733A - Burner installation for domestic boilers - Google Patents
Burner installation for domestic boilers Download PDFInfo
- Publication number
- US2000733A US2000733A US665882A US66588233A US2000733A US 2000733 A US2000733 A US 2000733A US 665882 A US665882 A US 665882A US 66588233 A US66588233 A US 66588233A US 2000733 A US2000733 A US 2000733A
- Authority
- US
- United States
- Prior art keywords
- air
- chamber
- casing
- burner
- boiler
- 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
Links
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23D—BURNERS
- F23D11/00—Burners using a direct spraying action of liquid droplets or vaporised liquid into the combustion space
Definitions
- This invention relates to burner constructions adapted to liquid fuels, such as oil, and it particularly relates to automatic heating arrangements to be combined with fire tube boilers for domestic hot water and/or steam heating systems and for domestic hot water supply-for washing and similar purposes.
- An object of the invention is to supply a compact, inexpensive and light weight oil burner for domestic utilization which will be substan tially automatically controlled, which will at all times be most economical in'fuel consumption and at the same time supply sufficient heat to fulll all normal requirements for heating the household and for domestic and hot water washing purposes.
- Another object is to provide a compact, inexpensive and lrelatively light weight liquid fuel burner installation for domestic utilization which may be unitarily combined with a boiler structure and which Will require the minimum of adjustment and be capable of utilization over long periods of time without repair.
- Another object is to provide a compact', inexpensive and light weight fuel burnerinstallation in which the controls and supply for said burner may be compactly and conveniently included in the boiler structure proper.
- Fig. 1 is a side sectional view of an entire boiler installation with the burner and various supply and control mechanisms in position.
- Fig. 2 is an enlarged fragmentary sectional view of the burner construction as shown in Fig. 1 illustrating the details thereof.v
- Fig. 3' is a detail transverse sectional View on the line 3-3 of Fig. 2.
- Fig. 4 is a front view of the installation of Fig. 2 upon the line 4-4 showing some of the parts in fragmentary section.
- Fig. 5 is a sectional View of the burner construction along the line 5 5 of Fig. 2.
- Fig. 6 is a side sectional viewof the spray nozzle tip construction, upon the line 9-6 of Fig. 2. l
- Fig. 7 is a front view of a detail of said spray l nozzle tip.
- Fig. 8 is a detailed sectional view illustrating one noise and vibration insulating connection.
- the support A carries the boiler B.
- the support A is carried upon the base, :floor or ground D.
- the boiler B is provided with a. 5 combustion chamber E with an oil burner construction F (see Fig. 2) andfwith water leg G for heating the domestic water supply.
- the boiler is of the re tube type and is provided with a water space H, a steam space I, 10 two upper side groups of forward-pass fire tubes J along both sides of the chamber E, and one group of rear-pass fire tubes K along the bottom of the chamber E. t
- the support A which supports the boiler B upon the floor D is preferably formed by the4 front and rear frame members 20 (see Fig. 1) 20 having the longitudinal bracing platform 22, which latter serves to support the various auxiliary apparatus for supplying the air and fuel oil to the burner F.
- the boiler B (see Figs. 1 to 8) is provided 25 with an exterior shell 24 which is of ovular shape with flattened side portions 25.
- the shell is provided with the front cover plate 26 and the rear cover plate
- the front cover plate 26 has a relatively 30 large opening therein so that only a. thin marginal border portion 21 will extend around the lower and bottom edges of the boiler shell 24' (see Figs. 1, 2, 4 and 5).
- the opening in the front cover plate 26 is Jcovered by the plates 28 35 and 29, as shown best in Figs. 2, 4 and 5.
- the box-like front nue chamber structure 30 Fitting in the opening in the front cover plate 26 is the box-like front nue chamber structure 30 with a back wall I I 3 and the sides I1 (see Fig.
- the cover'plates 28 and 29 are provided with a. central circular opening which receives the end of the fire chamber E, said fire chamber consisting of a cylindrical sheet metal member 33' which is provided with a suitable fire brick or other refractory lining 34,.said lining having a converging section 35 of substantially increased thickness adjacent the burner F (see Fig. 2).
- the front end of the combustion chamber shell 33 is covered by the plate 36 (see Figs. 1 to 5).
- the plate36 is provided with a central inwardly lipped opening 31 which provides for the burner inlet and is also provided with a ange 38 which ts inside of the end of the iire box shell V33.
- the lip 31 yclosely contacts with the edge of the opening 43 of the fire brick lining 35.
- the subsidiary cylindrical cup shaped casing 45 is attached to the base of the cup casing 50 by the screws 45'.
- the base of. the casing 45 is provided with a central opening 5
- the cylindrical section 52 of the central burner member 53 is held in position and adjustment is permitted by the set screw 46.
- the central cylindrical section 53 has a conically diverging end portion 48 which extends toward and terminates closely adjacent to the lip 31 of the cover plate 36. 'Ihe cylindrical burner section 53 is also provided with the air inlet ports 55.
- the base 52 of the cylinder 53 is provided with a central opening 49, whichreceives the cylindrical annular nozzle member 54 (see Fig. 2).
- the inlet fitting 60 To the inlet end of the annular cylindrical nozzle 54 is connected the inlet fitting 60 (see .away from the tubularsection 53.
- the ignition members 15 are provided with shanks 61 which extend through the cylindrical centering section 52 of the burner section 53 and through the iiange or n 63. From the front ends of the shanks 61 extend 'the ignition wires 16, (see Figs 1 and 2) which converge together so that there will be la small gap between them in front of the burner spray nozzle tip 6
- the ignition members 15 are provided with the cables 11 (see Figs. 1, 2 and 4) which are connected to the junction box 18.
- the main conduit 19 extends from the junction box 18 to the transformer box (see at the lower left hand portion of Fig. 1) to supply the tension necessary for sparking.
- the fuel oil is supplied to the burner F by the conduit 81 (see Fig. 1) which conduit 81 is fed by the oil pump 89 through the pressure regulating valve 90.
- relieves the liquid fuel pressure if it exceeds a predetermined value.
- the gauge 92 indicates the pressure of the liquid fuel.
- the fuel oil is supplied from a tank (not shown) through a pipe 93, to the filter 94 which is supported by the bracket 95 upon the platform 96 (see Fig. 1). From the lterl the liquid fuel flows through the conduits 91l and 98 to the pump 89.
- the conduit 99 serves to permit recirculation of the fuel oil upon opening of the pressure limiting valve 9
- the pump 89 is driven from the motor
- 00 and the pump 89 are supported upon the platform 96 (see Fig. 1).
- the motor is supported by the foot
- 00, the pump 89 and the filter 94 is supported by the sound and vibration insulating connections
- 00 also drives the fan
- the casing of the motor is provided with an outlet conduit section
- 0, constituting an extension thereof, are attached by means of the screws 2
- the plate 28 (see Figs. 4 and 5) is provided with a downward extension 2
- of the front plate 28 serves as a means of attachment for the conduit section As shown in Figs. l, 2 4 and 5 the air.
- This opening 222 is formed by bending inwardly the section 223 of the conduit section.
- which is bolted as indicated at 224 to the conduit section 0 and is attached, as by spot welding, along its flanges 225 to the central wall of the semi-cylindrical casing 2
- 0 is provided with an upstanding flange 230 which fits in a recess in the downward extension 23
- has a. similar connection by the flange Y232 (see Figs. 2 and 4) to the downward extension 233 of the smaller burner casing 45.
- will permit an outer column of air to iow from the conduit
- This air which will not be in heat exchange contact with the boiler plate 28 will be at a relatively lower temperature than the air passing through the semi-cylindrical casing 2
- This air will -then pass through the annular passage 64 between the cylindrical section 41 andthe nozzle 54 and will mix with the oil spray adjacent the front portion of the conical member 48.
- will enable ready regulation of the amount of air passing up through the casing 22
- the oil as previously described will pass up through the conduit 81 through the angle 60, through the nozzle 54 and it will then be sprayed out through the spray tip 6
- the outer portion ofthe cylindrical nozzle section 54 is internally threaded as indicated at 250 and receives the nipple 25
- is provided with a shoulder 253 which contacts with the end 254 of the sleeve 54.
- is rounded as indicated at 255 and is provided with an opening 258 which emits the spray of oil to form the ame
- is provided with an internal cavity 251 which is threaded as indicated at 258 and has a conical socket portion 259 converging down to the outlet 256.
- the insert 260 has a threaded portion 26
- the end of the insert member is provided with a mushroom disc-like member 263 which has a conical portion 264 to be closely pressed against the conical socket 259.
- the conical surface 264 is provided with the spiral slots 265 which give the oil a whirling motion as it passes through the outlet 256.
- H8 of the front flue box is provided with a plurality of openings receiving the iire tubes
- 20 in the banks J provide for iiow of hot gases from the rear of the boiler into the upper part of front ue chamber 30, while the tubes
- the shell 33 extends rearwardly to be substantially iiush with the rear cover
- 34 receives the hot gases from the combustion chamber E and conducts the hot gases from such combustion chamber E to the upper tube banks J. The hot gases will pass through these banks J on both sides of the boiler to the front ilue chamber 30.
- 34 is covered by the water back G, as is indicated in Fig. 1.
- the Water back G includes a casing
- 32 of the box shell 33 supports the bottom
- the water back is provided with a hot water' coil
- 44 are held in the plate
- 41 is bolted to an opening
- the water back G communicates through the connections
- 31 receives gases from the lower bank K of the iire tubes
- 31 (see Fig. 1) is covered by the ue casing
- 31 is open at
- 31 is provided with the back plate
- 20 are expanded over the openings in the rear plate H8 of the front iiue chamber 30 (see Figs. 2 and 5) and also over the back plate
- 31 permits better heat -exchange contact betweenthe bottom
- 63 from the flue chamber I 31 is connected to a iiue or chimney
- the water in the boiler shell 24 will be heated from the shell 33 of the combustion box E, by the iire tubes
- the hot water will ascend past the shell 33 and the tubes
- the hot gases are generated by the burner F in the front end of the combustion chamber E, as indicated in Fig. 1, the nozzle tip 6
- the burner F is supplied with fuel oil through the conduit 93, the filter 94, the pump 89, the valve 90, and the conduit 81, as shown in Fig. 1. This fuel is forced through the nozzle 54 and is sprayed' into the combustion box E as indicated at
- the oil will be forced in a spiral spray outwardly from the tip 6
- the inner annular lm of air and the outer whirling stream will assure perfect intermixture between the air and the oil and most satisfactory combustion.
- the hot combustion gases will flow to the rear of the boiler into the upper rear ue chamber
- 30 will then flow rearwardly through the fire tubes
- the steam generated in the space I may be taken off by the outlets
- 82 will prevent excessive pressure from being generated in the boiler B.
- 84 may be connected, respectively, from the top and bottom of the boiler shell 24 to an automatic level control (not shown). If the level is too low an electrical control
- the burner F is provided with an electrical eye control
- the burner and boiler are also controlled by means of the thermostat connections
- 90 will effectively shut off and turn on the boiler by controlling the motor
- the boiler arrangement of the present invention is most compact, with the various conduits both for the hot gases and for the incoming gases arranged for most effective heat exchange, and so as to give a compact heating installation.
- Fig. 9 shows the vibration and noise insulation connection for the conduit section
- Fig. 9 the flanges
- 94 extends entirely through the flanges and the rubber pad
- 91 contact respectively with the head of the bolt
- 01 will be at about room temperature, between 70 and 80 while the air passing through the semicylindrical casing A2li) and through the spiral or curved. passages 65 will be heated up to about 400 F.
- the utilization of a stream of relatively cool air around the nozzle 54 gives assurance that the oil or liquid fuel will not be cracked while passing through said nozzle, and will assure most efficient operation.
- the oil owing through the line 81 from the pump 89 may be preheated if desired to a temperature for example, of 180 C.
- the apparatus may be of many varying dimensions the casing 50 may conveniently have a diameter of 12, the plate element 56 may conduits and a flue chamber at the front of the.
- said construction comprising an air receiving casing with an outside primary air conduit compartment for receiving and feeding cool air and an inside secondary air conduit compartment, in heat exchange relationship with said flue chamber, for feeding heated air, a longitudinally extending cylindrical oil spray device passing through said casing, a substantially cylindrical air-directing shell encircling said device extending across said casing from front toback and having inlet openings from said primary compartment at its end away from the furnace, the other end of said shell being provided with an outwardly diverging mouth, the secondary air passing around the periphery of said mouth.
- a furnace front construction for a furnace of the type having a combustion chamber, a plurality of conduits receiving the hot combustion gases from said combustion chamber, the
- said construction comprising an air receiving casing with an outside primary air conduit compartment for receiving ⁇ and feeding cool air and an inside secondary air conduit compartment, in heat exchange relationship with said flue chamber, forfeeding heated air, a longitudinally extending cylindrical oil spray device passing through said casing, a substantially cylindrical burner-encircling and air-directing shell extending across said casing and having inlet openings from said primary compartment at its end away from thev furnace,
- a furnace front construction for a furnace of the type having a combustion chamber, a plurality of conduits receiving the hot combustion gases from said combustion chamber, the
- said construction comprising an air receiving casing with an outside primary air conduit compartment for receiving and feeding cool air and an inside secondary air conduit compartment, in heat exchange relationship with said ue chamber, for feeding heated air, a longitudinally extending ⁇ cylindrical oil spray device passing through said casing,l a substantially cylindrical burner-encircling and air-directingshell extending across said casing and having inlet openings from said primary compartment at its front end, said secondary air compartment being provided with a plurality of baffles extending thereacross to assure a thorough heat exchange.
- said construction comprising an air receiving casing with an outside primary air conduit compartment for receiving and feeding cool air and an inside secondary air conduit compartment, in heat exchange relationship with said flue chamber, for feeding heated air, a longitudinally extending cylindrical oil'spray device passing through said casing, a substantially cylindrical burner-encircling and air-directing shell extending across said casing and having inlet openings from said primary compartment, said primary and secondary conduit compartments being superimposed upon one another, with the primary conduit being separated from the furnace front by said secondary air conduit compartment and both of said compartments conducting the air in planes perpendicular to the axis of said burner and said shell, the primary and secondary airv being caused to undergo a change of ninety degrees in direction and to ow parallel
- a furnace front construction for a furnace of the Vtype having a combustion chamber, a plurality of conduits receiving the hot combustion gases from said combustion chamber, the heat in the combustion gases being extracted in large part during the passage through said conduits and a flue chamber at the front of the furnace to receive the combustion gases from said conduits after considerable heat has been extracted from them, said construction compris-l ing an air receiving casing with an outside primary air conduit compartment for receiving and feeding cool air and an inside secondary air con--I duitl compartment, in heat exchange relationship with said iiue chamber, for feeding heated air, a longitudinally extending cylindrical oil spray device passing through said casing, a substantially cylindrical burner-encircling and airdirecting shell extending across said casing and having inlet openings from said primary compartment, said secondary air conduit compari;- ment being provided with a plurality of transverse articless through which the secondary air is first passed to assure thorough heat exchange contact and being also thereafter provided with a plurality of spiral vanes for giving a whirling motion to the air before admission to said spray.
Description
May 7, 1935. E. T. AVERY BURNER INSTALLATION Fon DOMESTIC `Bomans Filed April 13, 1933' 4 Sheets-Sheet` 1 d 0 w sa@ a 2V 9 I :L
9 y@ j. a, wn 6 m /w Ir .I m2 di 0 2 6 w W f @nu o m 0 .1% NM/ f :M01 m di ,N/ Z o ,fm /0^ ,W i o w 01 OHMS @om l 7m ww w m Z RWI mm Mr e H E ATTORNEY May 7, 1935.
E. T. AVERY BURNERINSTALLATION Foa DOMESTIC BOILERs v Filed April 15, 1955 4 Sheets-Sheet 2 mma@ ATToRN EY May 7, 1935.
E. @AVERY 2,000,733
BURNER INSTALLATION Fon DonEsTrc Bomans Filed April 1:5, 19'35- 4 sheets-sheet 3l u l vENToR 06612 ,QuE/ay ATTORNEY .May 7', 1935- E. T. AVERY. 2,000,733
BURNER IHS'I'LLATION FQR DOMESTIC BOI-LERS Filed April 1s, 195s 4 sheets-sheet 4 ATTORNEY Patented May 7, 1935 UNITED STATES BURNER INSTALLATION Foa DOMESTIC BOILERS Edgar T. Avery, Maplewood, N. J.
Application April 13, 1933, Serial No. 665,882
9 Claims.
This invention relates to burner constructions adapted to liquid fuels, such as oil, and it particularly relates to automatic heating arrangements to be combined with fire tube boilers for domestic hot water and/or steam heating systems and for domestic hot water supply-for washing and similar purposes.
An object of the invention is to supply a compact, inexpensive and light weight oil burner for domestic utilization which will be substan tially automatically controlled, which will at all times be most economical in'fuel consumption and at the same time supply sufficient heat to fulll all normal requirements for heating the household and for domestic and hot water washing purposes.
Another object is to provide a compact, inexpensive and lrelatively light weight liquid fuel burner installation for domestic utilization which may be unitarily combined with a boiler structure and which Will require the minimum of adjustment and be capable of utilization over long periods of time without repair.
Another object is to provide a compact', inexpensive and light weight fuel burnerinstallation in which the controls and supply for said burner may be compactly and conveniently included in the boiler structure proper.
Other objects will appear during the course of the following specication.
The above and other objects will appear more clearly from the following detailed description, when taken in connection with the accompanying drawings, which illustrate one embodiment of the inventive idea.
In the drawings:-
Fig. 1 is a side sectional view of an entire boiler installation with the burner and various supply and control mechanisms in position.
Fig. 2 is an enlarged fragmentary sectional view of the burner construction as shown in Fig. 1 illustrating the details thereof.v
Fig. 3' is a detail transverse sectional View on the line 3-3 of Fig. 2.
Fig. 4 is a front view of the installation of Fig. 2 upon the line 4-4 showing some of the parts in fragmentary section.
Fig. 5 is a sectional View of the burner construction along the line 5 5 of Fig. 2.
Fig. 6 is a side sectional viewof the spray nozzle tip construction, upon the line 9-6 of Fig. 2. l
Fig. 7 is a front view of a detail of said spray l nozzle tip.
(cl. s-1
Fig. 8 is a detailed sectional view illustrating one noise and vibration insulating connection.
In Fig. 1, the support A carries the boiler B.
4'The support A is carried upon the base, :floor or ground D. The boiler B is provided with a. 5 combustion chamber E with an oil burner construction F (see Fig. 2) andfwith water leg G for heating the domestic water supply.
The boiler is of the re tube type and is provided with a water space H, a steam space I, 10 two upper side groups of forward-pass fire tubes J along both sides of the chamber E, and one group of rear-pass lire tubes K along the bottom of the chamber E. t
The boiler construction is more fully shown 16 and described in my copending application Serial No. 665,881 filed April 13, 1933.
The support A which supports the boiler B upon the floor D is preferably formed by the4 front and rear frame members 20 (see Fig. 1) 20 having the longitudinal bracing platform 22, which latter serves to support the various auxiliary apparatus for supplying the air and fuel oil to the burner F.
The boiler B (see Figs. 1 to 8) is provided 25 with an exterior shell 24 which is of ovular shape with flattened side portions 25. The shell is provided with the front cover plate 26 and the rear cover plate |30.
The front cover plate 26 has a relatively 30 large opening therein so that only a. thin marginal border portion 21 will extend around the lower and bottom edges of the boiler shell 24' (see Figs. 1, 2, 4 and 5). The opening in the front cover plate 26 is Jcovered by the plates 28 35 and 29, as shown best in Figs. 2, 4 and 5.
Fitting in the opening in the front cover plate 26 is the box-like front nue chamber structure 30 with a back wall I I 3 and the sides I1 (see Fig.
2). The sides I 1 are connected kto said plates 4o 28 and 29 by the angle members II'I and the bolts 32, as indicated in Figs. 1, 2 and 4.
The cover'plates 28 and 29 are provided with a. central circular opening which receives the end of the fire chamber E, said fire chamber consisting of a cylindrical sheet metal member 33' which is provided with a suitable fire brick or other refractory lining 34,.said lining having a converging section 35 of substantially increased thickness adjacent the burner F (see Fig. 2).
The front end of the combustion chamber shell 33 is covered by the plate 36 (see Figs. 1 to 5). The plate36 is provided with a central inwardly lipped opening 31 which provides for the burner inlet and is also provided with a ange 38 which ts inside of the end of the iire box shell V33. j
The lip 31 yclosely contacts with the edge of the opening 43 of the fire brick lining 35. The
edge of the cover 36 is covered by the lips 39 on the burner construction and are arranged symmetrically around the entire burner constuction. The subsidiary cylindrical cup shaped casing 45 is attached to the base of the cup casing 50 by the screws 45'.
The base of. the casing 45 is provided with a central opening 5| into which the enlarged cylindrical flanged section 52 of the cylindrical burner section 53 extends. The cylindrical section 52 of the central burner member 53 is held in position and adjustment is permitted by the set screw 46.
The central cylindrical section 53 has a conically diverging end portion 48 which extends toward and terminates closely adjacent to the lip 31 of the cover plate 36. 'Ihe cylindrical burner section 53 is also provided with the air inlet ports 55.
The base 52 of the cylinder 53 is provided with a central opening 49, whichreceives the cylindrical annular nozzle member 54 (see Fig. 2).
To the inlet end of the annular cylindrical nozzle 54 is connected the inlet fitting 60 (see .away from the tubularsection 53.
In the burner construction v15', it is thus evident that there will bea central inner annular stream of air which will be admitted through the inlet ports 55 and will pass through the annular passage 64 (see Fig. 2) and outwardly into they space inside of the conical extension 48, while there will be an additional outer annular supply of air which upon passing through the parallel spiral passages' 65 between the fins 51 will then pass through the adjustable annularspace 66 between the end of the conical section 48 and the lip 31 with a whirling motion.
The ignition members 15 (see Figs '1 to 4) are provided with shanks 61 which extend through the cylindrical centering section 52 of the burner section 53 and through the iiange or n 63. From the front ends of the shanks 61 extend 'the ignition wires 16, (see Figs 1 and 2) which converge together so that there will be la small gap between them in front of the burner spray nozzle tip 6| so that a spark may be generated between them to ignite the oil spray. These wires extend through the openings 68 in the ,conical ilange 48 of the burner section 53.
The ignition members 15 are provided with the cables 11 (see Figs. 1, 2 and 4) which are connected to the junction box 18. The main conduit 19 extends from the junction box 18 to the transformer box (see at the lower left hand portion of Fig. 1) to supply the tension necessary for sparking.
The fuel oil is supplied to the burner F by the conduit 81 (see Fig. 1) which conduit 81 is fed by the oil pump 89 through the pressure regulating valve 90. The pressure controlling valve 9| relieves the liquid fuel pressure if it exceeds a predetermined value. The gauge 92 indicates the pressure of the liquid fuel.
The fuel oil is supplied from a tank (not shown) through a pipe 93, to the filter 94 which is supported by the bracket 95 upon the platform 96 (see Fig. 1). From the lterl the liquid fuel flows through the conduits 91l and 98 to the pump 89. The conduit 99 serves to permit recirculation of the fuel oil upon opening of the pressure limiting valve 9|. The pump 89 is driven from the motor |00 and through the shaft |0| having the coupling |02.
Both the motor |00 and the pump 89 are supported upon the platform 96 (see Fig. 1). The motor is supported by the foot |03 and the bolts |04 while the pump is supported by the bracket member |05. The structure 96 which supports the motor |00, the pump 89 and the filter 94 is supported by the sound and vibration insulating connections |06 upon the structural member 22 connected between the side frames 20 of the support A.
'Ihe motor |00 (see Fig. 1) also drives the fan |01 which is enclosed in the casing |08 and is provided with a central air inlet valve |09. The casing of the motor is provided with an outlet conduit section ||0 which extends upwardly and expands at the front of the boiler into the semi-circular section 2 0.
The conduit section |0 and the semi-cylindrical portion 2|0, constituting an extension thereof, are attached by means of the screws 2|4 to the plate 28 (see particularly Fig. 4). The plate 28 (see Figs. 4 and 5) is provided with a downward extension 2|| which is provided with a flange 2|5 which is connected to the flange 2|2 of the fan casing |08, as shown in Fig. 8. The extension' 2|| of the front plate 28 serves as a means of attachment for the conduit section As shown in Figs. l, 2 4 and 5 the air. on passing up through the conduit I0 and into the semi-cylindrical chamber 2|0 will strike the bailies 2|6 and 2|1, which will cause the gases to take a tortuous path as illustrated by the arrows 2| 8. The air in passing upwardly through the conduit section ||0 and the semi-cylindrical section 2|0 and past the bales 2|6 and 2|1 will be in heat exchange contact with the hot combustion gases in the front flue chamber 30 through the front cover plate 28 of the boiler shell. As a result, air upon flowing out of the semi-cylindrical chamber 2|0 and then through the spiral air passages 65 between the fins 51 to iiow through the narrow annular space 66 around the conical burner section 48 will be highly heated and will greatly assist combustion and the economic utilization of the fuel. In addition, the stream of air being heated in the chamber 2|0 will substantially insulate the front of the boiler shell.
To the front of the semi-cylindrical casing 2|0, (see Figs. 1, 4 and 5)l is connected the longitudinal casing'22l which opens into the upper portion of the conduit section as indicated at 222. y l
This opening 222 is formed by bending inwardly the section 223 of the conduit section. The longitudinal casing 22| which is bolted as indicated at 224 to the conduit section 0 and is attached, as by spot welding, along its flanges 225 to the central wall of the semi-cylindrical casing 2|0. It will be noted in Figs. 2 and 4, that the semi-cylindrical casing 2|0 is provided with an upstanding flange 230 which fits in a recess in the downward extension 23| of the burner casing 50. The longitudinal casing 22| has a. similar connection by the flange Y232 (see Figs. 2 and 4) to the downward extension 233 of the smaller burner casing 45.
The casing 22| will permit an outer column of air to iow from the conduit ||0 into the extension 233 and through the ports 55, see also Fig. 3. This air which will not be in heat exchange contact with the boiler plate 28 will be at a relatively lower temperature than the air passing through the semi-cylindrical casing 2|0. This air will -then pass through the annular passage 64 between the cylindrical section 41 andthe nozzle 54 and will mix with the oil spray adjacent the front portion of the conical member 48. The damper buttery valve 240 provided with the manual handle 24| located in the casing 22| will enable ready regulation of the amount of air passing up through the casing 22| and through the ports 55 and the annular space 64 to mix with the iiame |11.
The oil as previously described will pass up through the conduit 81 through the angle 60, through the nozzle 54 and it will then be sprayed out through the spray tip 6|, (see Fig. 6).
Although many different spray nozzles are satisfactory, one which has been found particularly satisfactory is shown in Figs. 6 and '1.
In this construction the outer portion ofthe cylindrical nozzle section 54, is internally threaded as indicated at 250 and receives the nipple 25| having the corresponding threaded portion 252. The nipple 25| is provided with a shoulder 253 which contacts with the end 254 of the sleeve 54. The front end of the nipple 25| is rounded as indicated at 255 and is provided with an opening 258 which emits the spray of oil to form the ame |11. The nipple 25| is provided with an internal cavity 251 which is threaded as indicated at 258 and has a conical socket portion 259 converging down to the outlet 256. The insert 260 has a threaded portion 26| which'screws into the threaded portion 250 and is provided with the slots 262 to permit ready ow of the fuel oil. The end of the insert member is provided with a mushroom disc-like member 263 which has a conical portion 264 to be closely pressed against the conical socket 259. The conical surface 264 is provided with the spiral slots 265 which give the oil a whirling motion as it passes through the outlet 256.
As shown in Figs. 1, 2 and 5, the back wall.
H8 of the front flue box is provided with a plurality of openings receiving the iire tubes |20 in the banks J (see Fig. 1) and in the bank K (see Figs. 1 and 2). The re tubes |20 in the banks J provide for iiow of hot gases from the rear of the boiler into the upper part of front ue chamber 30, while the tubes |20 provide for flow of `hot gases from the lower part ofthe front hue chamber 30 to the rear `of the boiler.
The construction .of the rear end of the boiler i isvffully described in my applicationSerial No.
665,881 iled April 13, 1933, but will be brieily described here.
'I'he rear of the boiler shell 24 is covered by the plate |30 (see Fig. 1). The shell 33 extends rearwardly to be substantially iiush with the rear cover |30 and has a rearwardly extending lip |32.
The upper rear iiue box |34 receives the hot gases from the combustion chamber E and conducts the hot gases from such combustion chamber E to the upper tube banks J. The hot gases will pass through these banks J on both sides of the boiler to the front ilue chamber 30.
The upper rear flue chamber |34 is covered by the water back G, as is indicated in Fig. 1. The Water back G includes a casing |40 with iianges |4| which enable its attachment to the angles |42 on the side walls of the upper rear ue chamber |34. The lip |32 of the box shell 33 supports the bottom |58 of said water back |40.
The water back is provided with a hot water' coil |44 (see Fig. 1) having an inlet at |45 and an outlet at |46, which supplies hot water for washing and other domestic purposes. The out- `let and inlet portions |45 and 2l/46 of the coil |44 are held in the plate |41. The plate |41 is bolted to an opening |48 in vthe rear of the casing |40 of the water backv G.
The water back G communicates through the connections |50 with the upper portion of the water space H of the boiler B.
The lower rear flue chamber |31 receives gases from the lower bank K of the iire tubes |20 and from this ue chamber |31, the hot gases are permitted to pass to the chimney.
The lower iiue chamber |31 (see Fig. 1) is covered by the ue casing |54, the lower wall of which rests on the rearwardly projecting lip |56 of the boiler shell 24 while its upper sides |59 contact with the bottom portion |58 oi' the water back G. 'I'he top of the flue chamber |31 is open at |60 and closed by the bottom part |58 ofthe water back G.
The lower rear ue chamber |31 is provided with the back plate |39 receiving the rear ends of the fire tubes |20.
It will be noticed that the iire tubes |20 are expanded over the openings in the rear plate H8 of the front iiue chamber 30 (see Figs. 2 and 5) and also over the back plate |39 of the lower rear flue chamber |31.
The open portion |60 in the lower iiue chamber |31 permits better heat -exchange contact betweenthe bottom |40 and the hot gases passing through the flue chamber |31.
The outlet connection |63 from the flue chamber I 31 is connected to a iiue or chimney |64 for drawing off the hot gases after they have passed through said flue chamber.
In operation water is fed to the bottom of the |58 of the water back casing water space'H of the boiler. An additional supply will pass up through the water back casing |40, heating the water passing through the coil |44. The water passing through the water back G, will be heated due to the heat exchange of its lower wall |58 with the hot gases in the lower flue chamber 31 and also due to the heat exchange between its inside wall |16 (see Fig. 1), and the hot gases in the upper rear flue chamber |34. The hottest water will ascend through the pipes |50, into the upper portion of the water space H of the boiler.
The water in the boiler shell 24 will be heated from the shell 33 of the combustion box E, by the iire tubes |20, by the heated side and back walls of the front flue chamber 30, the upper rear ue chamber |34, and the lower rear ue chamber |31. The hot water will ascend past the shell 33 and the tubes |20 to the upper portions of the boiler where it will give off steam to the space I of the boiler.
The hot gases are generated by the burner F in the front end of the combustion chamber E, as indicated in Fig. 1, the nozzle tip 6| spraying liquid fuel to form a diverging flame.
The burner F is supplied with fuel oil through the conduit 93, the filter 94, the pump 89, the valve 90, and the conduit 81, as shown in Fig. 1. This fuel is forced through the nozzle 54 and is sprayed' into the combustion box E as indicated at |11 in Fig. 1.
As previously indicated, the oil will be forced in a spiral spray outwardly from the tip 6| (see Fig. 6) of the burner F (see Fig. 2) and it will be mixed with a relatively cool central annular stream of air flowing through the passage 54 and through a whirling highly heated stream of air passing through the annular space 66 around the conical lip 48. The inner annular lm of air and the outer whirling stream will assure perfect intermixture between the air and the oil and most satisfactory combustion.
The hot combustion gases will flow to the rear of the boiler into the upper rear ue chamber |34, and then will flow forwardly through the fire tubes I |9 to the front flue chamber |30. The hot ue gases from the front flue chamber |30 will then flow rearwardly through the fire tubes |20 to the rear flue chamber |31 and then to the stack |64.
The steam generated in the space I may be taken off by the outlets |80 and |8| (see Fig. l) and be supplied to the heating system of the household or building, in the desired manner,
the water returning through a suitable return conduit (not shown).
The blow-off valve |82 will prevent excessive pressure from being generated in the boiler B.
The pipes |83 and |84 may be connected, respectively, from the top and bottom of the boiler shell 24 to an automatic level control (not shown). If the level is too low an electrical control |90 will cut off the burner F and give a signal.
The burner F is provided with an electrical eye control |81 (see Fig. l) which is directed toward the ame |11 and is provided with an electrical conduit |88 leading to the main control box |90. It will be noted that the motor is also connected by means of the electrical conduit |9| to the main control box |90. If the electrical eye |81 does not register sufficient light and/or heat intensity, due to the fact that the flame |11 has gone out or due to the fact that the interior of the combusion chamber E has become full of soot and smoke, it will immediately cause the main control |90 to cut out the motor |00,.
extinguishing the flame |11 and giving an alarm.
When the trouble has been remedied the operation of the motor will be initiated and the conduit 19 leading to the sparking device 15 will be effective to reignite the flame |11 within the flre combustion chamber E.
The burner and boiler are also controlled by means of the thermostat connections |92 .,(see Fig. 1) on the main control box |90, which may be connected to various rooms of the house or building of which the temperature is to be regulated. If the temperature rises to too high a level, the boiler is cut out, while if it drops the burner F is again cut in by cutting off or starting the motor |00.
It is lthus evident that the present boiler construction is most eicaciously controlled by the water level and by the condition of the flame through the electric eye |81, and by the temperature of the building or rooms, by the thermostat controls |92. If the water level falls too low or if the flame is out and combustion conditions are improper, the control box will function to stop the motor |00, cutting off the supply of air and fuel to the burner F. When thishappens a suitable alarm will be given to the house-y holder, advising him the boiler needs attention.
On the other hand the thermostat connection |92 to the control box |90 will effectively shut off and turn on the boiler by controlling the motor |00 to regulate the temperature within the building or house.
It will be noted that the boiler arrangement of the present invention is most compact, with the various conduits both for the hot gases and for the incoming gases arranged for most effective heat exchange, and so as to give a compact heating installation.
The position of the motor |00, the oil pump 09 and the oil filter 84 within the supporting framework of the boiler enhances the compactness and inexpensiveness of the entire installation.
Fig. 9 shows the vibration and noise insulation connection for the conduit section ||0 to prevent the vibration from being transmitted to the boiler B and to the house or building in which the heating insulation may be installed.
In Fig. 9 the flanges |2 and 2|2 are separated by the annular rubber pad ||4. These flanges are respectively connected to the conduit member ||0 and the blower casing |08. The bolt |94 extends entirely through the flanges and the rubber pad |4, is encircled by the rubber annulus |95 and is separated from the flanges by the annular rubber pads |96. The washers |91 contact respectively with the head of the bolt |98 and the nut |99, which is screwed onto the lower threaded end 200 of said bolt.
vIt will be noted that the casing |08 and the conduit casing ||0 are fully insulated from each other by the rubber members ||4, |95, |96, vso that no sound or vibration will be transmitted through the pipe ||0 to the boiler. -The bolt |94, although it rigidly connects the flanges ||2 and 2|2 nevertheless is devoid of metallic contact with either ange, such metallic contact being prevented by the annular rubber sleeve |95 and the rubber members |96.
In operation, the air admitted to the fan |01 will be at about room temperature, between 70 and 80 while the air passing through the semicylindrical casing A2li) and through the spiral or curved. passages 65 will be heated up to about 400 F. The utilization of a stream of relatively cool air around the nozzle 54 gives assurance that the oil or liquid fuel will not be cracked while passing through said nozzle, and will assure most efficient operation.
Although various sizes of oil pumps 89 and air blowers |09 may be utilized, an oil pump having a capacity of thirty gallons per hour and an air blower having a capacity of. 150 to 200 cubic feet per minute, have.been found to be satisfactory. The air driven upwardly through the air blower will be ordinarily divided, about passing through the annular chamber 64 around the nozzle 54 and about nine-tenths passing through the opening 66 after having been-relatively highly heated in the semi-cylindrical chamber ZIB.
In certain cases the oil owing through the line 81 from the pump 89 may be preheated if desired to a temperature for example, of 180 C.
Although the apparatus may be of many varying dimensions the casing 50 may conveniently have a diameter of 12, the plate element 56 may conduits and a flue chamber at the front of the.
furnace to receive the combustion gases from said conduits after considerable heat has been extracted from them, said construction comprising an air receiving casing with an outside primary air conduit compartment for receiving and feeding cool air and an inside secondary air conduit compartment, in heat exchange relationship with said flue chamber, for feeding heated air, a longitudinally extending cylindrical oil spray device passing through said casing, a substantially cylindrical air-directing shell encircling said device extending across said casing from front toback and having inlet openings from said primary compartment at its end away from the furnace, the other end of said shell being provided with an outwardly diverging mouth, the secondary air passing around the periphery of said mouth.
2. A furnace front construction for a furnace of the type having a combustion chamber, a plurality of conduits receiving the hot combustion gases from said combustion chamber, the
Aheat in the combustion gases being extracted in large part during the passage through said conduits and a flue chamber at the front of the furnace to receive the combustion gases from said conduits after considerable heat has been extracted from them, said construction comprising an air receiving casing with an outside primary air conduit compartment for receiving` and feeding cool air and an inside secondary air conduit compartment, in heat exchange relationship with said flue chamber, forfeeding heated air, a longitudinally extending cylindrical oil spray device passing through said casing, a substantially cylindrical burner-encircling and air-directing shell extending across said casing and having inlet openings from said primary compartment at its end away from thev furnace,
the primary air passing inside of said shell and around said burner to said furnace and the secondary air passing around the exterior of said shell to said opening.
3. A furnace front construction for a furnace of the type having a combustion chamber, a plurality of conduits receiving the hot combustion gases from said combustion chamber, the
heat in the combustion gases being extracted inlarge part during the passage through said conduits and a flue chamber atl the front of the furnace to receive the combustion gases from said conduits after considerable heat has been extracted from them, said construction comprising an air receiving casing with an outside primary air conduit compartment for receiving and feeding cool air and an inside secondary air conduit compartment, in heat exchange relationship with said ue chamber, for feeding heated air, a longitudinally extending `cylindrical oil spray device passing through said casing,l a substantially cylindrical burner-encircling and air-directingshell extending across said casing and having inlet openings from said primary compartment at its front end, said secondary air compartment being provided with a plurality of baffles extending thereacross to assure a thorough heat exchange.
4. A furnace front construction for a furnace of the type having a combustion chamber, a plurality of conduits receiving the hot combustion gases from said combustion chamber, the heat in the combustion gases being extracted in large part during the passage through said conduits and a flue chamber at 'the front of the furnace to receivethe combustion gases" from said conduits after considerable heat has been extracted from them, said construction comprising anV air receiving casing with an out` side primary air conduit compartment for receiving and feeding cool air and an inside secondary air conduit compartment, in heat exchange relationship with said flue chamber, for feeding heated air, a longitudinally extending cylindrical oil spray device passing through said casing, a substantially cylindrical burner-encircling and air-directing shell extending across said casing and having inlet openings from said primary compartment, said secondary. air chamber being provided with an annular inlet area encircling said shell provided with a plurality of spirally curved air whirling vanes, which set up a .whirling movement of the air in a plane perpendicular furnace to receive the combustion gases from said conduits after considerable heat has been extracted from them, said construction comprising an air receiving casing with an outside primary air conduit compartment for receiving and feeding cool air and an inside secondary air conduit compartment, in heat exchange relationship with said flue chamber, for feeding heated air, a longitudinally extending cylindrical oil'spray device passing through said casing, a substantially cylindrical burner-encircling and air-directing shell extending across said casing and having inlet openings from said primary compartment, said primary and secondary conduit compartments being superimposed upon one another, with the primary conduit being separated from the furnace front by said secondary air conduit compartment and both of said compartments conducting the air in planes perpendicular to the axis of said burner and said shell, the primary and secondary airv being caused to undergo a change of ninety degrees in direction and to ow parallelly to the axis of said burner before it mixes with said spray.
6. A furnace front construction for a furnace of the Vtype having a combustion chamber, a plurality of conduits receiving the hot combustion gases from said combustion chamber, the heat in the combustion gases being extracted in large part during the passage through said conduits and a flue chamber at the front of the furnace to receive the combustion gases from said conduits after considerable heat has been extracted from them, said construction compris-l ing an air receiving casing with an outside primary air conduit compartment for receiving and feeding cool air and an inside secondary air con--I duitl compartment, in heat exchange relationship with said iiue chamber, for feeding heated air, a longitudinally extending cylindrical oil spray device passing through said casing, a substantially cylindrical burner-encircling and airdirecting shell extending across said casing and having inlet openings from said primary compartment, said secondary air conduit compari;- ment being provided with a plurality of transverse baies through which the secondary air is first passed to assure thorough heat exchange contact and being also thereafter provided with a plurality of spiral vanes for giving a whirling motion to the air before admission to said spray. r
7. A furnace front construction for a furnace of the type having a combustion chamber, a plurality of conduits receiving the hot combustion gases from said combustion chamber, the heat in the combustion gases being extracted in large part during the passage through said conduits and a ue chamber at the front of the furnace to receive the combustion gases from said conduits after considerable heat has been extracted from them, said construction comprising a plurality of air boxes, one for supplying secondary heated air and the other for supplying relatively cool primary air, said air boxes being provided with a cylindrical burner structure projecting therethrough to an opening in the furnace front and with a cylindrical shell enclosing said burner structure, said cylindrical shell interiorly receiving the cool primaryvair and exteriorly guiding the heated secondary air, said shell extending to said opening in said front and separating said primary air and said secondary air until they substantially enter said front opening and constructing the ow of the secondary air into said opening.
8. A furnace front construction for a furnace of the type having a combustion chamber, a plurality of conduits receiving the hot combustion gases from said combustion chamber, the heat in the combustion gases being extracted in large part during the passage through said conduits and a ue chamber at the front of the furnace to receive the combustion gases from said conduits after considerable heat has been extracted from them, said construction comprising an air receiving casing with an outside primary air conduit compartment for receiving and feeding cool air and an inside secondary air conduit compartment, in heat exchange relationship with the boiler, for feeding heated air, said furnace being formed with an opening, a longitudinally extending cylindrical oil burner passing through said casing and projecting into said opening, a substantially cylindrical burner-encircling and air-directing shell extending across said casing and having inlet openings from said primary compartment, said 'compartments being separated by an intermediate plate within the casing, baflies in the lower part of said secondary compartment for assuring thorough heat exchar/ige relationship between the furnace front and the secondary air, said bafes extending between said intermediate plate and said furnace front, said shell being provided with a conical 4diverging portion adjacent to the furnace opening adjustable to control the ow area for the secondary air into the furnace opening.
9. A furnace front construction for a furnace of the type having a combustion chamber, a plurality of conduits receiving the hot combustion gases from said combustion chamber, the heat in the combustion gases beingl extracted in large part during the passage ,/through said conduits and a flue chamber at the front of the furnace to receive the combustion gases from said conduits after considerable heat has been extracted from them, said construction comprising an air receiving casing with an outside primary air conduit compartment for receiving and feeding cool air and an inside secondary air conduit compartment, in heat exchange relationship with said flue chamber, for feeding heated air, said casing having a front plate and a back plate with an opening into the furnace, a longitudinally extending cylindrical oil burner passing through said casing, a substantially cylindrical burner-encircling and air-directing shell extending across said casing and having inlet openings from said primary compartment, said primary and secondary compartments being superimposed with the primary compartment being insulated from the boiler by said secondary compartment, said secondary compartment being provided with an annular flow area encircling said shell provided with spiral baiies to set up a whirling motion of the air and said shell being provided with a diverging portion adjacent the opening into the furnace for regulating the flow area for said air after said whirling motion has been set up through said opening, said secondary compartment being provided with an intermediate annular mixer chamber between said spiral vanes and said furnace opening.
EDGAR T. AVERY.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US665882A US2000733A (en) | 1933-04-13 | 1933-04-13 | Burner installation for domestic boilers |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US665882A US2000733A (en) | 1933-04-13 | 1933-04-13 | Burner installation for domestic boilers |
Publications (1)
Publication Number | Publication Date |
---|---|
US2000733A true US2000733A (en) | 1935-05-07 |
Family
ID=24671941
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US665882A Expired - Lifetime US2000733A (en) | 1933-04-13 | 1933-04-13 | Burner installation for domestic boilers |
Country Status (1)
Country | Link |
---|---|
US (1) | US2000733A (en) |
Cited By (34)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2418097A (en) * | 1943-02-24 | 1947-03-25 | York Shipley Inc | Engine warming apparatus |
US2443575A (en) * | 1943-04-23 | 1948-06-15 | Harvey Whipple Inc | Burner head for boilers |
US2446059A (en) * | 1944-10-05 | 1948-07-27 | Peabody Engineering Corp | Gas heater |
US2452779A (en) * | 1943-02-19 | 1948-11-02 | Stewart Warner Corp | Combustion heater having air preheating and carbureting means |
US2458066A (en) * | 1944-07-20 | 1949-01-04 | American Locomotive Co | Combustion chamber |
US2476031A (en) * | 1944-12-02 | 1949-07-12 | American Locomotive Co | Reheater |
US2500787A (en) * | 1944-12-15 | 1950-03-14 | Orr & Sembower Inc | Fluid fuel burner apparatus for effecting diffusion combustion |
US2508792A (en) * | 1947-12-15 | 1950-05-23 | David Ludwig Company | Heating apparatus |
US2512326A (en) * | 1947-03-06 | 1950-06-20 | James A Harrison | Industrial gas-fired air heater |
US2512903A (en) * | 1946-12-07 | 1950-06-27 | Schwietert Gustav | Drying apparatus |
US2514806A (en) * | 1945-06-15 | 1950-07-11 | Lovell Mfg Co | Vortex-type gas burner |
US2567143A (en) * | 1946-12-06 | 1951-09-04 | Thompson Prod Inc | Fuel system for heaters |
US2575070A (en) * | 1948-04-06 | 1951-11-13 | William A Reed | Jacketed combustion pot with fuel and air nozzle head |
US2599153A (en) * | 1948-05-01 | 1952-06-03 | Reginald W Beckett | Oil burner of the atomizing type |
US2616257A (en) * | 1946-01-09 | 1952-11-04 | Bendix Aviat Corp | Combustion chamber with air inlet means providing a plurality of concentric strata of varying velocities |
US2627721A (en) * | 1947-01-30 | 1953-02-10 | Packard Motor Car Co | Combustion means for jet propulsion units |
US2637974A (en) * | 1944-03-16 | 1953-05-12 | Power Jets Res & Dev Ltd | Combustion apparatus for an air stream and propulsive system |
US2672190A (en) * | 1949-08-12 | 1954-03-16 | Alfred F Schumann | Mixing valve for spray type oil burners |
US2690795A (en) * | 1949-12-05 | 1954-10-05 | Webb Howard William Barrett | Fuel oil burner and controlling apparatus |
US2715816A (en) * | 1950-10-27 | 1955-08-23 | Ruston & Hornsby Ltd | Combustion chamber for use with internal combustion turbines |
US2748843A (en) * | 1951-10-31 | 1956-06-05 | Reginald W Beckett | Air induction and tube system for fluid fuel burner |
US2781756A (en) * | 1952-04-26 | 1957-02-19 | Kenneth A Kobe | Apparatus for submerged combustion of liquid fuels |
US2790490A (en) * | 1954-11-01 | 1957-04-30 | Earl K Smith | Oil burner |
US2967047A (en) * | 1953-10-28 | 1961-01-03 | Babcock & Wilcox Co | Heat exchange apparatus having centrifugal fan |
US3031012A (en) * | 1957-12-27 | 1962-04-24 | Gen Thermique Procedes Brola S | Combustion apparatus |
US3033269A (en) * | 1957-07-23 | 1962-05-08 | Cleaver Brooks Co | Fuel burner air system |
US3037550A (en) * | 1960-01-27 | 1962-06-05 | Clarence W Uschold | Air director for furnaces |
US3049173A (en) * | 1959-08-31 | 1962-08-14 | Nat Heater Company Inc | Burner |
US3195612A (en) * | 1963-05-06 | 1965-07-20 | Edward H Fraenzel | Liquid fuel burner for outdoor dryer installations |
US3238991A (en) * | 1962-11-23 | 1966-03-08 | Goldmann Otto | Fuel oil gasification burner |
US3265042A (en) * | 1964-12-28 | 1966-08-09 | Luther H Huckabee | Air preheater for industrial boilers |
US3275059A (en) * | 1965-05-10 | 1966-09-27 | Little Inc A | Nozzle system and fuel oil burner incorporating it |
US3505980A (en) * | 1967-04-24 | 1970-04-14 | Cochran & Co | Boilers |
US11255574B2 (en) * | 2019-05-03 | 2022-02-22 | Kyungdong Navien Co., Ltd. | Oil boiler |
-
1933
- 1933-04-13 US US665882A patent/US2000733A/en not_active Expired - Lifetime
Cited By (34)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2452779A (en) * | 1943-02-19 | 1948-11-02 | Stewart Warner Corp | Combustion heater having air preheating and carbureting means |
US2418097A (en) * | 1943-02-24 | 1947-03-25 | York Shipley Inc | Engine warming apparatus |
US2443575A (en) * | 1943-04-23 | 1948-06-15 | Harvey Whipple Inc | Burner head for boilers |
US2637974A (en) * | 1944-03-16 | 1953-05-12 | Power Jets Res & Dev Ltd | Combustion apparatus for an air stream and propulsive system |
US2458066A (en) * | 1944-07-20 | 1949-01-04 | American Locomotive Co | Combustion chamber |
US2446059A (en) * | 1944-10-05 | 1948-07-27 | Peabody Engineering Corp | Gas heater |
US2476031A (en) * | 1944-12-02 | 1949-07-12 | American Locomotive Co | Reheater |
US2500787A (en) * | 1944-12-15 | 1950-03-14 | Orr & Sembower Inc | Fluid fuel burner apparatus for effecting diffusion combustion |
US2514806A (en) * | 1945-06-15 | 1950-07-11 | Lovell Mfg Co | Vortex-type gas burner |
US2616257A (en) * | 1946-01-09 | 1952-11-04 | Bendix Aviat Corp | Combustion chamber with air inlet means providing a plurality of concentric strata of varying velocities |
US2567143A (en) * | 1946-12-06 | 1951-09-04 | Thompson Prod Inc | Fuel system for heaters |
US2512903A (en) * | 1946-12-07 | 1950-06-27 | Schwietert Gustav | Drying apparatus |
US2627721A (en) * | 1947-01-30 | 1953-02-10 | Packard Motor Car Co | Combustion means for jet propulsion units |
US2512326A (en) * | 1947-03-06 | 1950-06-20 | James A Harrison | Industrial gas-fired air heater |
US2508792A (en) * | 1947-12-15 | 1950-05-23 | David Ludwig Company | Heating apparatus |
US2575070A (en) * | 1948-04-06 | 1951-11-13 | William A Reed | Jacketed combustion pot with fuel and air nozzle head |
US2599153A (en) * | 1948-05-01 | 1952-06-03 | Reginald W Beckett | Oil burner of the atomizing type |
US2672190A (en) * | 1949-08-12 | 1954-03-16 | Alfred F Schumann | Mixing valve for spray type oil burners |
US2690795A (en) * | 1949-12-05 | 1954-10-05 | Webb Howard William Barrett | Fuel oil burner and controlling apparatus |
US2715816A (en) * | 1950-10-27 | 1955-08-23 | Ruston & Hornsby Ltd | Combustion chamber for use with internal combustion turbines |
US2748843A (en) * | 1951-10-31 | 1956-06-05 | Reginald W Beckett | Air induction and tube system for fluid fuel burner |
US2781756A (en) * | 1952-04-26 | 1957-02-19 | Kenneth A Kobe | Apparatus for submerged combustion of liquid fuels |
US2967047A (en) * | 1953-10-28 | 1961-01-03 | Babcock & Wilcox Co | Heat exchange apparatus having centrifugal fan |
US2790490A (en) * | 1954-11-01 | 1957-04-30 | Earl K Smith | Oil burner |
US3033269A (en) * | 1957-07-23 | 1962-05-08 | Cleaver Brooks Co | Fuel burner air system |
US3031012A (en) * | 1957-12-27 | 1962-04-24 | Gen Thermique Procedes Brola S | Combustion apparatus |
US3049173A (en) * | 1959-08-31 | 1962-08-14 | Nat Heater Company Inc | Burner |
US3037550A (en) * | 1960-01-27 | 1962-06-05 | Clarence W Uschold | Air director for furnaces |
US3238991A (en) * | 1962-11-23 | 1966-03-08 | Goldmann Otto | Fuel oil gasification burner |
US3195612A (en) * | 1963-05-06 | 1965-07-20 | Edward H Fraenzel | Liquid fuel burner for outdoor dryer installations |
US3265042A (en) * | 1964-12-28 | 1966-08-09 | Luther H Huckabee | Air preheater for industrial boilers |
US3275059A (en) * | 1965-05-10 | 1966-09-27 | Little Inc A | Nozzle system and fuel oil burner incorporating it |
US3505980A (en) * | 1967-04-24 | 1970-04-14 | Cochran & Co | Boilers |
US11255574B2 (en) * | 2019-05-03 | 2022-02-22 | Kyungdong Navien Co., Ltd. | Oil boiler |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US2000733A (en) | Burner installation for domestic boilers | |
US2263098A (en) | Furnace | |
US2473347A (en) | Air directing means in gun type burners | |
US2674981A (en) | Heat generator | |
US1986914A (en) | Heating installation for domestic utilization | |
US3010449A (en) | Heater combination | |
US3262444A (en) | Spray humidifier for heating systems | |
US3111979A (en) | Dual fuel burner construction | |
US2579047A (en) | Forced air flow air-heating furnace | |
US2414875A (en) | Water heater | |
US3124120A (en) | Warm floor space heater | |
US2135275A (en) | Fluid fuel burning apparatus | |
US2841337A (en) | Hot water heating system | |
US2578927A (en) | Duplex heater | |
US3444854A (en) | Gravity and forced hot air furnace | |
US1992794A (en) | Oil furnace boiler | |
US3111978A (en) | Dual blower and burner for furnaces | |
US3580225A (en) | Economizer | |
US2353880A (en) | Oil burner | |
US3111939A (en) | Heat generator and exchanger, and expansion joint therefor | |
US2466868A (en) | Hot-air furnace with oil burner installation | |
US2099383A (en) | Heating apparatus | |
US2983261A (en) | Boilers | |
US2517816A (en) | Air admission means and explosion relief safety door for combustion chambers | |
US2744503A (en) | Gas fired table top water heater with built-in draft diverter |