US1688618A - Air heater - Google Patents

Air heater Download PDF

Info

Publication number
US1688618A
US1688618A US81335A US8133526A US1688618A US 1688618 A US1688618 A US 1688618A US 81335 A US81335 A US 81335A US 8133526 A US8133526 A US 8133526A US 1688618 A US1688618 A US 1688618A
Authority
US
United States
Prior art keywords
air
tubes
heater
casing
gas
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US81335A
Inventor
Henry F Gauss
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Heine Boiler Co
Original Assignee
Heine Boiler Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Heine Boiler Co filed Critical Heine Boiler Co
Priority to US81335A priority Critical patent/US1688618A/en
Application granted granted Critical
Publication of US1688618A publication Critical patent/US1688618A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F23COMBUSTION APPARATUS; COMBUSTION PROCESSES
    • F23MCASINGS, LININGS, WALLS OR DOORS SPECIALLY ADAPTED FOR COMBUSTION CHAMBERS, e.g. FIREBRIDGES; DEVICES FOR DEFLECTING AIR, FLAMES OR COMBUSTION PRODUCTS IN COMBUSTION CHAMBERS; SAFETY ARRANGEMENTS SPECIALLY ADAPTED FOR COMBUSTION APPARATUS; DETAILS OF COMBUSTION CHAMBERS, NOT OTHERWISE PROVIDED FOR
    • F23M20/00Details of combustion chambers, not otherwise provided for, e.g. means for storing heat from flames

Definitions

  • This invention relates to heating devices of the kind that are used for causing one gaseous medium to be heated by another gaseous medium of a higher temperature, and particularly recuperative air heaters of the tubular type that are used for heating air which is supplied to the furnace of a boiler or other heating apparatus to support combustion.
  • Ono object of my invention is to provide an air heater of the general type mentioned, that is particularly efiicient, due to the fact that the parts of same which constitute passageways for the air that is to be heated and the gases which are used to heat said air, are so constructed and aranged that the gases and the air will flow through the heater in direct contact with the elements that absorb heat from the gases and transmit said heat to theair.
  • Another object is to provide an eflicient air heater that is inexpensive to construct.
  • Figure 1 of the drawings is a side elevational view of an air heater embodying my invention, combined with a water tube boiler.
  • Figure 2 is a vertical longitudinal sectional view of said air heater
  • Figure 3 is a front elevational View of said heater.
  • a c esignates a boiler or other heating apparatus
  • B designates a heater that is arranged in the path of gases which escape from said boiler.
  • C designates a fan or other suitable suction device for drawing said gases through the heater B
  • D designates a fan or other suitable device that is used for drawing air through the heater B and thereafter causing said air to be supplied to the furnace of the boiler A to support combustion.
  • the heater B is a recuperative heater of the tubular type and is preferably composed of a sheet metal casing constructed so as to form a vertical gas passageway through whichthe escaping gases from the boiler circulate, as indicated by the arrows w in Figure 2, and an air passageway 1 through which air circulates in a tortuous path, as indicated by the arrows y in Figure 2.
  • Tubular elements are combined with said passageways so as to absorb heat from the escaping gases and transmit said heat to the air that is being supplied to the boiler to support combustion, and while the particular arrangement and location of said tubular elements may be changedin various ways Without departing from the spirit of my invention, I prefer to arrange some of said tubular ele ments in the gas passageway in such a manner that the gases will circulate over the exterior of said elements and the air will circulate through said elements, and arrange some of: said tubular elements in the air passageway in such a manner that the air will circulate'over the ex erior of said elements and the gases will circulate through said elements.
  • One convenient way of constructing the air heater B is to provide the casing of same with a tubular gas intake portion 2 and a discharge portion 3 of any preferred cross-sectional shape, that are connected together by a bank of verticallydisposed tubes 4 whose lower ends are expanded into or connected in any other suitable way to a tube sheet at the upper end of the intake portion 2 and whose upper ends are expanded into or connected in any other suitable way toa tube sheet at the lower end of the discharge portion 3, the heater being so arranged that the escaping gases will flow upwardly through the intake portion 2, thence through the tubes 4 and thence upwardly through the gas discharge portion 3 of the casing.
  • the air passageway of the heater is formed by a substantially S-shaped portion 1 of the casing, a top bank of horizontallydisposed tubes 5 arranged transversely of the gas discharge portion 3 of the casing and communicating with the upper end of said S-shaped portion 1 and a bottom bank of horizontally-disposed tubes 6 arranged transversely of the gas intake portion 2 of the easing and communicating with the lower end of said S-shaped portion.
  • the middle bank of vertical tubes 4 through which the gases flow in traveling from the intake portion 2 to the discharge portion 3 of the gas passageway are located in the horizontal portion or intermediate. part of the S-shaped portion 1 of the casing.
  • the boiler is in operation the escaping gases circulate over the exterior of the botom bank of tubes 6, thence through the Vertical tubes 4 and thence over the exterior of the top bank of tubes 5, said horizontal banks of tubes 6 and 5 virtually acting as bafiies that effectively break up and mix the gasesandinsuresaidgasescirculatingthrough the heater in direct contact with the elements that are used to abstract heat from said gases.
  • the bank of Vertical tubes l in the air passageway virtually act battles that mix the air, and thus insure the air circulating through the heater in direct contact with the elements that transmit heat to said air from the escaping gases.
  • an air heater of the construction above described is compact and inexpensive to manufacture.
  • An air heater comprising a casing provided with a gas intake portion and a gas discharge portion, a bank of tubes'that connect said intake and discharge portions together, open-ended tubes arranged transversely of said intake and discharge portions and ad apted to serve as conduits through which air circulates, and an air passageway in the casing communicting with said air conduits and arranged so as-to encase' the tubes that join the gas intake and the gas discharge portions of the casing together.
  • A. device for heating one gaseous medium by another gaseous medium of a higher temperature comprising a casing provided with an intake portion and a discharge portion, a bank of tubes which joins said portions together, other banks of tubes arranged transversely of said intake and discharge portions and disposed at substantially right angles tothe tubes that join said por ions together, and a passageway in the casing that establishes communication between the tubes in said intake and discharge portions and which encloses the tubes that join said intake and dis charge portions together.
  • An air heater comprising a casing provided with a gas intake portion and a gas dis-' charge portion, a bank of gas tubes that join said portions together, a substantially S shaped passageway in the casing disposed so that said gas tubes extend transversely across the intermediate part of same, a bank of air tubes arranged transversely of the gas intake portion of the casing and communicating at one end with said air passageway, and a separate bank of tubes arranged transversely of the gas discharge portion 01 said casing and communicating with the opposite end of said air passageway.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)

Description

Oct. 23, 1928.
H. F. GAUSS AIR HEATER Filed Jan. 14, 1926 ATTORNA'YS.
Patented 0a. 23, 1928.
UNITED STATES PATENT OFFICE.
HENRY I. GAUSS, OF MOSCOW, IDAHO, ASSIGNOR TO HEINE BOILER COMPANY, OF ST. LOUIS, MISSOURI, A CORPORATION OF MISSOURI.
AIR HEATER.
Application filed January 14, 1926 Serial No. 81,335..
This invention relates to heating devices of the kind that are used for causing one gaseous medium to be heated by another gaseous medium of a higher temperature, and particularly recuperative air heaters of the tubular type that are used for heating air which is supplied to the furnace of a boiler or other heating apparatus to support combustion.
Ono object of my invention is to provide an air heater of the general type mentioned, that is particularly efiicient, due to the fact that the parts of same which constitute passageways for the air that is to be heated and the gases which are used to heat said air, are so constructed and aranged that the gases and the air will flow through the heater in direct contact with the elements that absorb heat from the gases and transmit said heat to theair.
Another object is to provide an eflicient air heater that is inexpensive to construct.
Figure 1 of the drawings is a side elevational view of an air heater embodying my invention, combined with a water tube boiler.
Figure 2 is a vertical longitudinal sectional view of said air heater; and
Figure 3 is a front elevational View of said heater.
Referring to the drawings, which illustrate the preferred form of my invention, A c esignates a boiler or other heating apparatus, B designates a heater that is arranged in the path of gases which escape from said boiler. C designates a fan or other suitable suction device for drawing said gases through the heater B, and D designates a fan or other suitable device that is used for drawing air through the heater B and thereafter causing said air to be supplied to the furnace of the boiler A to support combustion. The heater B is a recuperative heater of the tubular type and is preferably composed of a sheet metal casing constructed so as to form a vertical gas passageway through whichthe escaping gases from the boiler circulate, as indicated by the arrows w in Figure 2, and an air passageway 1 through which air circulates in a tortuous path, as indicated by the arrows y in Figure 2. Tubular elements are combined with said passageways so as to absorb heat from the escaping gases and transmit said heat to the air that is being supplied to the boiler to support combustion, and while the particular arrangement and location of said tubular elements may be changedin various ways Without departing from the spirit of my invention, I prefer to arrange some of said tubular ele ments in the gas passageway in such a manner that the gases will circulate over the exterior of said elements and the air will circulate through said elements, and arrange some of: said tubular elements in the air passageway in such a manner that the air will circulate'over the ex erior of said elements and the gases will circulate through said elements. One convenient way of constructing the air heater B is to provide the casing of same with a tubular gas intake portion 2 and a discharge portion 3 of any preferred cross-sectional shape, that are connected together by a bank of verticallydisposed tubes 4 whose lower ends are expanded into or connected in any other suitable way to a tube sheet at the upper end of the intake portion 2 and whose upper ends are expanded into or connected in any other suitable way toa tube sheet at the lower end of the discharge portion 3, the heater being so arranged that the escaping gases will flow upwardly through the intake portion 2, thence through the tubes 4 and thence upwardly through the gas discharge portion 3 of the casing. The air passageway of the heater is formed by a substantially S-shaped portion 1 of the casing, a top bank of horizontallydisposed tubes 5 arranged transversely of the gas discharge portion 3 of the casing and communicating with the upper end of said S-shaped portion 1 and a bottom bank of horizontally-disposed tubes 6 arranged transversely of the gas intake portion 2 of the easing and communicating with the lower end of said S-shaped portion. The middle bank of vertical tubes 4 through which the gases flow in traveling from the intake portion 2 to the discharge portion 3 of the gas passageway are located in the horizontal portion or intermediate. part of the S-shaped portion 1 of the casing.
lVhen the boiler is in operation the escaping gases circulate over the exterior of the botom bank of tubes 6, thence through the Vertical tubes 4 and thence over the exterior of the top bank of tubes 5, said horizontal banks of tubes 6 and 5 virtually acting as bafiies that effectively break up and mix the gasesandinsuresaidgasescirculatingthrough the heater in direct contact with the elements that are used to abstract heat from said gases. Likewise, the bank of Vertical tubes l in the air passageway virtually act battles that mix the air, and thus insure the air circulating through the heater in direct contact with the elements that transmit heat to said air from the escaping gases. WVhile I prefer to arrange the tubular elements of the heater in such a manner that the medium which circulates through the interior of said elements flows at substantially right angles to the medium that circulates over the exterior of said elements, thereby insuring a high rate of heat transfer, this particular arrangement is not essential to the successful operation of my improved heater. In addi tion to being exceptionally eficient, an air heater of the construction above described is compact and inexpensive to manufacture.
Having thus described my invention, what I claim as new and desire to secure bg Letters Patent is:
1. An air heater, comprising a casing provided with a gas intake portion and a gas discharge portion, a bank of tubes'that connect said intake and discharge portions together, open-ended tubes arranged transversely of said intake and discharge portions and ad apted to serve as conduits through which air circulates, and an air passageway in the casing communicting with said air conduits and arranged so as-to encase' the tubes that join the gas intake and the gas discharge portions of the casing together. i
2. A. device for heating one gaseous medium by another gaseous medium of a higher temperature, comprising a casing provided with an intake portion and a discharge portion, a bank of tubes which joins said portions together, other banks of tubes arranged transversely of said intake and discharge portions and disposed at substantially right angles tothe tubes that join said por ions together, and a passageway in the casing that establishes communication between the tubes in said intake and discharge portions and which encloses the tubes that join said intake and dis charge portions together.
3. An air heater, comprising a casing provided with a gas intake portion and a gas dis-' charge portion, a bank of gas tubes that join said portions together, a substantially S shaped passageway in the casing disposed so that said gas tubes extend transversely across the intermediate part of same, a bank of air tubes arranged transversely of the gas intake portion of the casing and communicating at one end with said air passageway, and a separate bank of tubes arranged transversely of the gas discharge portion 01 said casing and communicating with the opposite end of said air passageway.
HENRY F. GAUSS.
US81335A 1926-01-14 1926-01-14 Air heater Expired - Lifetime US1688618A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US81335A US1688618A (en) 1926-01-14 1926-01-14 Air heater

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US81335A US1688618A (en) 1926-01-14 1926-01-14 Air heater

Publications (1)

Publication Number Publication Date
US1688618A true US1688618A (en) 1928-10-23

Family

ID=22163522

Family Applications (1)

Application Number Title Priority Date Filing Date
US81335A Expired - Lifetime US1688618A (en) 1926-01-14 1926-01-14 Air heater

Country Status (1)

Country Link
US (1) US1688618A (en)

Similar Documents

Publication Publication Date Title
US2902265A (en) Heat retriever
US1688618A (en) Air heater
US2146565A (en) Boiler
US1689067A (en) Air heater
US2249554A (en) All-weather hot air furnace
US1057081A (en) Steam-radiator.
US1617889A (en) Electrical water heater
US3533380A (en) Steam cleaner construction
US2220486A (en) Boiler
US1816419A (en) Gas fired water heater
US2141238A (en) Boiler
US2536425A (en) Heater
US1402045A (en) Auxiliary hot-water and heating system
US1464385A (en) Conductor flue for furnaces
US1684997A (en) Water heater
US983566A (en) Hot-air furnace.
US1671189A (en) Air heater
US1943373A (en) Direct-indirect water heating system
US1706572A (en) Heating stove
US2236170A (en) Flue-heat-utilizing water heater
US1951286A (en) Radiator
US1574145A (en) Wall furnace
US696096A (en) Hot-water radiator or heating-stove.
US1536786A (en) Fluid heater
US2244567A (en) Vertical hot water boiler