US756822A - Combined boiler and furnace. - Google Patents

Combined boiler and furnace. Download PDF

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US756822A
US756822A US15654903A US1903156549A US756822A US 756822 A US756822 A US 756822A US 15654903 A US15654903 A US 15654903A US 1903156549 A US1903156549 A US 1903156549A US 756822 A US756822 A US 756822A
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tubes
fire
furnace
boiler
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F22STEAM GENERATION
    • F22BMETHODS OF STEAM GENERATION; STEAM BOILERS
    • F22B11/00Steam boilers of combined fire-tube type and water-tube type, i.e. steam boilers of fire-tube type having auxiliary water tubes

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  • Figurel is a perspectiveview of the furnace 5 Be it known that I, WVILLIAM W. BoNsoN, a and boiler over the furnace, part cut away. citizen of the United States, residing in the city
  • Fig. 2 is a longitudinal section through the and county of Dubuque and State of Iowa, middle of the boiler and furnace.
  • Fig. 3 is a have invented certain new and useful Improvevertical or cross section through the line a" ments in a Combined Boiler and Furnace; and of Fig. 1.
  • Fig. 4 shows a perspective view of 55 I do hereby declare the following to be a full, one form of tiling or fire-brick.
  • Fig. 4 shows a perspective view of 55 I do hereby declare the following to be a full, one form of tiling or fire-brick.
  • FIG. 5 shows clear, and exact description of the invention, another form of fire-brick.
  • Fig. 6 shows an which will enable others skilled in the art to end View of the fire-brick shown in Figs. 4 To which it appertains to make and use the same. and 5 in position and a section of the water- My invention has relation to improvements tubes and fire-clay above the tubes and the 60 in combined furnaces and boilers, with special non-conducting covering.
  • Fig. 7 is an iron reference to those adapted to be used in concenter for a fire-brick.
  • Fig. 8 is an end view nection with steam-boilers; and one of the of Fig. 7 and a section of its surroundings.
  • x 5 objects is to provide a furnace wherein -com' Fig. 9 is a form of brick having projections plete combustion can be secured and heat aprunning at right angles to the body of the 5 plied to the water in the boiler with the minibrick and used with the iron center shown in mum loss.
  • Fig. 10 shows another form of fire- Another object is to provide means for inbrick, and Fig. 11 shows the same in position.
  • the furnace is constructed with the usual der side of the arch thus formed and over the grate-bars 7, resting at their front ends on a so grate is set a lining for the fire-box. bearing-bar 6 and extending back and resting It also consists in apertures between or in the rear on the bridge-wall 8. through the lining of fire-brick or tiling for In the front and rear water-legs of the boiler introducing the air above the grate-bars and are inserted water-tubes 12, preferably in, the
  • Fig. i structing the brick 14 is shown in Fig. i and consists in a thin upper portion and a widened base 16. Near the top are perforations 18.
  • This brick is inserted between the tubes 12, (see Fig. 6,) with the part 15 projecting up between the tubes 12 and the curved upper part of the base fitting snugly against the tubes, and through the perforations 18 are inserted keys or pins 20, which hold the brick snugly against the tubes by which the brick are sustained.
  • keys or pins 20 For the purpose of further completing the arch of the furnace and more securely holding the brick 14 between the tubes 12 there is poured around the upper portion of the tubes 12and also around the brick 14 and the pins 20 fire-clay 22, as shown in Fig. 6.
  • Figs. 10 and 11 I have shown the brick 14 of circular shape made in two sections, compassing the under part of the tubes 12 and extending nearly two-thirds around it and held in between the tubes by the fire-clay 22 and in contact with each other.
  • some of the brick 14 are provided with projections 32, which project into the fire-box, and thus arrest somewhat the movements of the air and products of the combustion and cause them to be thoroughly mixed while they are passing through the combustion-chamber.
  • Part of the brick may be provided with the projections 32, running at right angles to the water-tubes, as shown in Fig. 9.
  • the fire-brick may be placed over the top of the tubes and allow the fire to come in direct contact with the tubes, or the same arrangement and construction as has been shown in the fire-box may be continued to the end of the tubes 12; but I prefer that over the rear of the furnace the brick shall be set so as to form an arch over the tubes 12 and rest thereon.
  • a boiler 4 provided with the steam-space 34 and the fire-flues 35, through which the fire passes, with water-space 36 around the tubes and the water-space connected with the tubes 12 by the front and rear water-legs 3 and 5.
  • a back connection 42 is attached at the rear end of the boiler and tubes 12 for directing the products of combustion from the furnace into the flues 35 of the boiler.
  • the manner of using my device is substantially as follows: The water is introduced into the boiler and passes down through the waterlegs 3 and 5, filling the water-tubes 12 and filling the boiler above the fiues. The fire is then started upon the grate in the fire-box. Combustion takes place, and the heated gases rise from the fuel on the grate-bars until they strike the lining of fire-brick above the gratebars, when they will pass backwardly along this lining of fire-brick, back along the watertu-bes to the back connection, thence forward through the smoke-fines of the upper boiler 4, and out through the chimney.
  • the lining of the combustion-chamber will become intensely heated, and as fire-brick possess the properties which enable them to retain their surfaces at the same temperature as the products of combus: tion coming against them the particles of carbon thrown off and the gases released from combustion of the fuel will be immediately ignited upon coming in contact with the brick and air supplied through the openings 28, and the combustion will become complete by the thorough mixing of the air with the products of combustion as they pass against and around the projections 32.
  • the watertubes become heated the water will begin to circulate through them from front to rear and up into the boiler through the water-leg 5 and down from the boiler through the water-leg 3, and in this manner there will be such a rapid circulation that there will be little or no deposit either in the boiler or water-tubes.
  • the flues in the boiler will also be free from deposit, since the smoke and other products of combustion have been consumed before reaching the boiler-fines. Hence the heat will be readily taken up by the water and very little of it'lost.
  • each particle of the various prodnets of combustion will be so thoroughly mixed with the air that they will be supplied with sufficient oxygen to ignite and complete their combustion before coming in contact with any cooling-surface and largely before passing out of the fire-box. It will also be seen that some of the heat is imparted to the water-tubes sustaining the fire-brick; but as the temperature of the water in the tubes does not rise higher than the temperature of the steam they will be considerably cooler than the brick and will protect the brick from deteriorating or burning out and crumbling to pieces.
  • a grate In a combined boiler and furnace, a grate, water-tubes above the grate, a lining for the fire-box attached to the under side of the tubes over the grate and said lining provided with openings therethrough to introduce air into the fire-box above the fuel.
  • a grate In a combined boiler and furnace, a grate, water-tubes set over the grate, a lining for the fire-box secured beneath the water-tubes and over the grate, and projections secured to the innerside of the lining of the fire-box.
  • a grate In a combined boiler and furnace, a grate, water-tubes set over the grate, a lining for the fire-box, projections on the inner surface of the lining, and means for introducing the air into the upper portion of the combustionchamber.
  • a boiler provided with flues, a water-leg at each end of the boiler, water-tubes connected to both of the water-legs, a grate beneath the watertubes, a lining covering the full length of the fire-box and secured beneath the water-tubes over the grate.
  • a boiler provided with fiues, water-legs, water-tubes connected to the water-legs, a fireboX extending from the water-legs to the bridge-wall having a grate and fire-brick attached to the under side of the water-tubes over the grate and a combustion chamber extending from the bridge-wall to the rear water-leg and provided with fire-brick over the water-tubes.
  • a boiler fire-flues through the boiler, a water-leg at each end of the boiler, in combination with a furnace consisting of a grate, water-tubes set over the grate and connected with the waterlegs, a lining set between the water-tubes and grate, and projections secured to the lining and extending into the combustion-chamber.
  • a boiler provided with fire-fines, water-legs, a grate, water-tubes set over the grate and connected to the water-legs, a lining for the combustionchamber set between the water tubes and grate, projections attached to the lining and means for introducing air into the combustion-chamber above the fuel.
  • a boiler provided with fire-flues, a water-leg at each end of the boiler, water-tubes connected to the water-legs and forming an arch over the furnace, a grate, fire-brick secured to and between the water-tubes forming a lining for the furnace over the grate and provided with openings through said lining, and projections attached to the fire-brick.
  • a boiler provided with fire-fines
  • a furnace having a covering formed of water-tubes and fire-brick beneath the tubes, water-legs opening into the boiler and connected together by the watertubes which form a covering for the furnace, and a back connection providing fire communication between the furnace and the fire-fines of the boiler.
  • a furnace provided with a grate, water-tubes with fire-brick beneath the water-tubes forming a covering for all the furnace, a water-leg at each end of the boiler connected together by the water-tubes of the furnace and means for introducing air into the furnace over the fuel.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Incineration Of Waste (AREA)

Description

PATENTED APR. 12, 1904.
w. w. BONSON. COMBINED BOILER AND FURNACE.
APPLICATION FILED MAY 11, 1903.
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No. 756,822. PATENTED APR. 12, 1904- W. W. BONSON. COMBINED BOILER AND FURNACE.
AYPLIOATION FILED HAY 11, 1903.
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N0 MODEL.
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F I G. 5.
PATENTED APR. 12, 1904.
W. W. BONSON.
COMBINED BOILER AND FURNACE.
APPLICATION TILED MAY 11, 1903.
N0 MODEL.
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"006000 000000 "OOOOOQ @OO OOO 000000 000000 600000 00000 (swan for Hon 4213 'No. 756,822. Patented April 12, 1904.
UNTTED STATES PATENT OFFICE.
WILLIAM W. BONSON, OF DUBUQUE, IOWA.
COMBINED BOILER AND FURNACE.
SPECIFICATION forming part of Letters Patent No. 756,822, dated April 12, 1904. Application filed May 11, 1903. Serial No. 156,549. (No model.)
To who?! i25 y Concern: Figurel is a perspectiveview of the furnace 5 Be it known that I, WVILLIAM W. BoNsoN, a and boiler over the furnace, part cut away. citizen of the United States, residing in the city Fig. 2 is a longitudinal section through the and county of Dubuque and State of Iowa, middle of the boiler and furnace. Fig. 3 is a have invented certain new and useful Improvevertical or cross section through the line a" ments in a Combined Boiler and Furnace; and of Fig. 1. Fig. 4: shows a perspective view of 55 I do hereby declare the following to be a full, one form of tiling or fire-brick. Fig. 5 shows clear, and exact description of the invention, another form of fire-brick. Fig. 6 shows an which will enable others skilled in the art to end View of the fire-brick shown in Figs. 4 To which it appertains to make and use the same. and 5 in position and a section of the water- My invention has relation to improvements tubes and fire-clay above the tubes and the 60 in combined furnaces and boilers, with special non-conducting covering. Fig. 7 is an iron reference to those adapted to be used in concenter for a fire-brick. Fig. 8 is an end view nection with steam-boilers; and one of the of Fig. 7 and a section of its surroundings.
x 5 objects is to provide a furnace wherein -com' Fig. 9 is a form of brick having projections plete combustion can be secured and heat aprunning at right angles to the body of the 5 plied to the water in the boiler with the minibrick and used with the iron center shown in mum loss. Fig. 7. Fig. 10 shows another form of fire- Another object is to provide means for inbrick, and Fig. 11 shows the same in position.
troducing air into the combustion chamber Like figures of reference denote correspondover the fuel for the purpose of aiding coming parts in each of the drawings. 7 bustion. Referring to the drawings, 2 designates the A further object is to so construct the furfurnace, and 4: the boiler, set over the furnace. nace that it will not be readily burned out, Attached to the front and rear ends of the and should one part of the furnace be burned boiler are water-legs 3 and 5, which open into out, deteriorated, or fall the remainder of the the boiler and permit a free circulation of the 75 furnace will stand. water in the boiler with the water in the wa- It consists of a fire-grate which is arched ter-legs and water-tubes presently to be deover with water-tubes, preferably running scribed.
o longitudinally with the grate,-and to the un- The furnace is constructed with the usual der side of the arch thus formed and over the grate-bars 7, resting at their front ends on a so grate is set a lining for the fire-box. bearing-bar 6 and extending back and resting It also consists in apertures between or in the rear on the bridge-wall 8. through the lining of fire-brick or tiling for In the front and rear water-legs of the boiler introducing the air above the grate-bars and are inserted water-tubes 12, preferably in, the
preferably in the arch of the lining, where form of an arch over the grate commencing 5 the products of combustion immediately pass nearly on a horizontal plane with the gratewhen released. bars, as shown in Figs. 2 and 3. These wa- It further consists in projections secured to ter-tubes 12 are set slightly sloping from the the lining of the fire-box and projecting into rear to the front and a short distance apart.
the fire-box whereby the air and products of I prefer to have these tubes 12 run longitudi- 9 combustion are thoroughly mixed before passnally with the furnace-grate; but it is maniing out of the combustion-chamber. fest that they may run at an angle, curving The mode of construction whereby these over the grate, and be connected with the boiler objects and others are accomplished and the or water-legs in any convenient manner. Be-
manner in which they are applied will be speneath these water-tubes 12 there is formed an cifically set forth in the following specificaarch of fire-brick or tiling in substantially the tion to be read in connection with the drawfollowing manner: A convenient form of conings accompanying the same.
structing the brick 14 is shown in Fig. i and consists in a thin upper portion and a widened base 16. Near the top are perforations 18. This brick is inserted between the tubes 12, (see Fig. 6,) with the part 15 projecting up between the tubes 12 and the curved upper part of the base fitting snugly against the tubes, and through the perforations 18 are inserted keys or pins 20, which hold the brick snugly against the tubes by which the brick are sustained. For the purpose of further completing the arch of the furnace and more securely holding the brick 14 between the tubes 12 there is poured around the upper portion of the tubes 12and also around the brick 14 and the pins 20 fire-clay 22, as shown in Fig. 6. In this manner the entire arch over the grate which forms the lining of the furnace is formed of these fire-brick, held by their contact with and between the water-tn bes 12. These fire-brick may be made in various forms, and in Figs. 7 and 8 I have shown a modified form in which a part is made of brick formed around the base of an iron key 38 and filled in with fire-clay 40 in such a manner that the iron will not come in contact with the flame, but still add largely to the strength of the brick. This brick is inserted between the tubes and held in position by the keys or pins 20 in the same manner as the other brick 14.
In Figs. 10 and 11 I have shown the brick 14 of circular shape made in two sections, compassing the under part of the tubes 12 and extending nearly two-thirds around it and held in between the tubes by the fire-clay 22 and in contact with each other.
For the purpose of introducing air into the combustion-chamber over the fuel and at the top of the combustion-chamber some of the fire-brick are set with a space 28 between them, as shown in Fig. 2. In this manner the air will pass into the combustion-chamber at and near the top over the fuel and in the place where the air is most needed for aiding combustion. The roof of the furnace thus formed is covered with a layer of asbestos 30 or any non-conducting material.
For the purpose of more thoroughly mixing the oxygen of the air with the smoke, gas,-
and other products of combustion some of the brick 14 are provided with projections 32, which project into the fire-box, and thus arrest somewhat the movements of the air and products of the combustion and cause them to be thoroughly mixed while they are passing through the combustion-chamber. Part of the brick may be provided with the projections 32, running at right angles to the water-tubes, as shown in Fig. 9.
From the end of the fire-box proper to the rear end of the tubes 12 the fire-brick may be placed over the top of the tubes and allow the fire to come in direct contact with the tubes, or the same arrangement and construction as has been shown in the fire-box may be continued to the end of the tubes 12; but I prefer that over the rear of the furnace the brick shall be set so as to form an arch over the tubes 12 and rest thereon.
Over the furnace and the tubes 12 is set a boiler 4, provided with the steam-space 34 and the fire-flues 35, through which the fire passes, with water-space 36 around the tubes and the water-space connected with the tubes 12 by the front and rear water-legs 3 and 5. At the rear end of the boiler and tubes 12 a back connection 42 is attached for directing the products of combustion from the furnace into the flues 35 of the boiler.
The manner of using my device is substantially as follows: The water is introduced into the boiler and passes down through the waterlegs 3 and 5, filling the water-tubes 12 and filling the boiler above the fiues. The fire is then started upon the grate in the fire-box. Combustion takes place, and the heated gases rise from the fuel on the grate-bars until they strike the lining of fire-brick above the gratebars, when they will pass backwardly along this lining of fire-brick, back along the watertu-bes to the back connection, thence forward through the smoke-fines of the upper boiler 4, and out through the chimney. As the combustion continues, the lining of the combustion-chamber will become intensely heated, and as fire-brick possess the properties which enable them to retain their surfaces at the same temperature as the products of combus: tion coming against them the particles of carbon thrown off and the gases released from combustion of the fuel will be immediately ignited upon coming in contact with the brick and air supplied through the openings 28, and the combustion will become complete by the thorough mixing of the air with the products of combustion as they pass against and around the projections 32. As soon as the watertubes become heated the water will begin to circulate through them from front to rear and up into the boiler through the water-leg 5 and down from the boiler through the water-leg 3, and in this manner there will be such a rapid circulation that there will be little or no deposit either in the boiler or water-tubes. The flues in the boiler will also be free from deposit, since the smoke and other products of combustion have been consumed before reaching the boiler-fines. Hence the heat will be readily taken up by the water and very little of it'lost.
By this mode of construction it will be observed that each particle of the various prodnets of combustion will be so thoroughly mixed with the air that they will be supplied with sufficient oxygen to ignite and complete their combustion before coming in contact with any cooling-surface and largely before passing out of the fire-box. It will also be seen that some of the heat is imparted to the water-tubes sustaining the fire-brick; but as the temperature of the water in the tubes does not rise higher than the temperature of the steam they will be considerably cooler than the brick and will protect the brick from deteriorating or burning out and crumbling to pieces.
It is manifest that different material may be used for the lining of the fire-box and a different mode of applying it to the water-tubes over the grate without departing from the spirit of my invention and that this furnace may be applied in connection with most of the types of water-tube boilers.
Having now described my invention, what I claim is- 1. In a combined boiler and furnace, a grate, water-tubes above the grate, and fire-brick provided with projections and suspended from the water-tubes over the grate forming a lining for the fire-box with air-holes therethrough.
2. In a combined boiler and furnace, a grate, water-tubes above the grate, a lining for the fire-box attached to the under side of the tubes over the grate and said lining provided with openings therethrough to introduce air into the fire-box above the fuel. A
3. In a combined boiler and furnace, a grate, water-tubes set over the grate, a lining for the fire-box secured beneath the water-tubes and over the grate, and projections secured to the innerside of the lining of the fire-box.
4. In a combined boiler and furnace, a grate, water-tubes set over the grate, a lining for the fire-box, projections on the inner surface of the lining, and means for introducing the air into the upper portion of the combustionchamber.
5. In a combined boiler and furnace, a boiler provided with flues, a water-leg at each end of the boiler, water-tubes connected to both of the water-legs, a grate beneath the watertubes, a lining covering the full length of the fire-box and secured beneath the water-tubes over the grate.
6. In a combined boiler and furnace, a boiler provided with fiues, water-legs, water-tubes connected to the water-legs, a fireboX extending from the water-legs to the bridge-wall having a grate and fire-brick attached to the under side of the water-tubes over the grate and a combustion chamber extending from the bridge-wall to the rear water-leg and provided with fire-brick over the water-tubes.
7. In a combined boiler and furnace, a boiler, fire-flues through the boiler, a water-leg at each end of the boiler, in combination with a furnace consisting of a grate, water-tubes set over the grate and connected with the waterlegs, a lining set between the water-tubes and grate, and projections secured to the lining and extending into the combustion-chamber.
8. In a combined boiler and furnace, a boiler provided with fire-fines, water-legs, a grate, water-tubes set over the grate and connected to the water-legs, a lining for the combustionchamber set between the water tubes and grate, projections attached to the lining and means for introducing air into the combustion-chamber above the fuel.
9. Inacombined boiler and furnace, a boiler provided with fire-flues, a water-leg at each end of the boiler, water-tubes connected to the water-legs and forming an arch over the furnace, a grate, fire-brick secured to and between the water-tubes forming a lining for the furnace over the grate and provided with openings through said lining, and projections attached to the fire-brick.
10. In a combined boiler and furnace,a boiler provided with fire-fines, a furnace having a covering formed of water-tubes and fire-brick beneath the tubes, water-legs opening into the boiler and connected together by the watertubes which form a covering for the furnace, and a back connection providing fire communication between the furnace and the fire-fines of the boiler.
11. In a combined boiler and furnace,aboiler provided with fire-flues, a furnace provided with a grate, water-tubes with fire-brick beneath the water-tubes forming a covering for all the furnace, a water-leg at each end of the boiler connected together by the water-tubes of the furnace and means for introducing air into the furnace over the fuel.
In testimony whereof I have signed my name to this specification in the presence of two subscribing witnesses.
WILLIAM W. BONSON.
Witnesses:
M. M. CADY, B. A. GRo'rE
US15654903A 1903-05-11 1903-05-11 Combined boiler and furnace. Expired - Lifetime US756822A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1026033B (en) * 1953-01-03 1958-03-13 Rudolf Hingst Dipl Ing Cooling pipe wall for fire rooms with a wavy metallic protective wall arranged by the cooling pipes
DE974105C (en) * 1953-04-11 1960-10-06 Erika Hingst Furnace wall equipped with cooling pipes, in particular the inner wall of the reaction chamber from Roestoefen u. like

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1026033B (en) * 1953-01-03 1958-03-13 Rudolf Hingst Dipl Ing Cooling pipe wall for fire rooms with a wavy metallic protective wall arranged by the cooling pipes
DE974105C (en) * 1953-04-11 1960-10-06 Erika Hingst Furnace wall equipped with cooling pipes, in particular the inner wall of the reaction chamber from Roestoefen u. like

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