US669132A - Steam-boiler. - Google Patents

Steam-boiler. Download PDF

Info

Publication number
US669132A
US669132A US73779999A US1899737799A US669132A US 669132 A US669132 A US 669132A US 73779999 A US73779999 A US 73779999A US 1899737799 A US1899737799 A US 1899737799A US 669132 A US669132 A US 669132A
Authority
US
United States
Prior art keywords
boiler
water
steam
pressure
combustion
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
US73779999A
Inventor
Abraham T Welch
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.)
Individual
Original Assignee
Individual
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 Individual filed Critical Individual
Priority to US73779999A priority Critical patent/US669132A/en
Application granted granted Critical
Publication of US669132A publication Critical patent/US669132A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B9/00Piston machines or pumps characterised by the driving or driven means to or from their working members
    • F04B9/08Piston machines or pumps characterised by the driving or driven means to or from their working members the means being fluid
    • F04B9/10Piston machines or pumps characterised by the driving or driven means to or from their working members the means being fluid the fluid being liquid

Definitions

  • 50 v 4 is one of the air-pumps, connected to an UNITED STATES PATENT EErcE.
  • My invention relates to a boiler for the gen erating of steam, and has for its object the utilizing of all the heating capacity of the fuel consumed in the generation of steam and at the same time the recovery and utilization of all of the products of combustion which are mixed with the steam and which aid in creating a gaseous pressure suitable for driving an engine.
  • air-reservoir 5. 6 is the other air-pump, connected to a gas or oil reservoir 7.
  • the reservoir 5 is intended to contain air under pressure. It is connected at its far end by the pipe 8 with the air-pipe of the burner 9. It is provided with a connection direct to the fire-chamber 10 and has a stop-cock 11 in that connection and a stop-cock 12 in the connection to the burner.
  • the 16 is an oil-burner located in the top of the cylinder and consisting of an interior air-pipe 9 and an exterior oil or gas pipe 17.
  • the oil or gas pipe 17 is connected with the oil or gas tank 7 by means of pipe 18, provided with a stop-cock 19.
  • the oil or gas tank 7 is provided with an oil-gage 20 and pressure-gage 21.
  • air is forced from the air-reservoir 5 through the air-pipe 9 and, if desired, also through the air-pipe 22 into that portion of the combustion-chamber marked 10 outside of the burner, so as to supply the requisite quantity of air for the complete combustion of the oil.
  • I may use oil or gasolene, producing sprayed oil or vapor-gas, or I may use a fixed gas.
  • the tank 23 is a hand-pu mp connected to the oil-cylinder 7, and 24: is a hand-pump connected to the air-cylinder 5, which may be used to create pressure enough in the tanks 5 and 7 to start the apparatus. If the hand-pumps are used, the burner 25 will be unnecessary. If the burner is used, the hand-pumps will be unnecessary.
  • the pipes connecting the airpumps 4 and 6 with the tanks 5 and 7 may be closed with stop-cocks and a com municating pipe opened between the tanks by stopcock 29, so as to balance the pressure in the two tanks.
  • the burner 25 is a gas-burner located underneath the boiler in a position to heat a small quantity of water in the boiler to such an extent as may be necessary to generate steam enough to start the engines and pumps, after which the burner 25 may be shut 01%, and the flame produced by the burner 16 will so heat the Water as to maintain a sufficient pressure in the boiler.
  • the air and oil or gas pressure in the combustion-cham-; her and steam-pressure in the boiler must balance one another, ornearly so.
  • the steam generated is proportional to the temperature 3 of the fire, and the pressure is equal to the; steam generated less the radiation.
  • The' temperature of the fire is due to the pressure of air and gas in the tanks 5 and 7, and this; pressure is automatically controlled by pressure-regulating valves connected to the air-l pumps 4 and 6.
  • the pressure in the combustion-chamber is always a little greater than the pressure in the boiler, because although; the pressures have a tendency to balance one; another the radiation of the boiler will con- 3 stantly reduce the pressure in the boiler some-l
  • 26 is a safety-valve on the boiler, which Willi only be called into play when the pumps ⁇ through some accident create an abnormal; vpressure in the tanks.
  • the hand-pumps 23 and 24 may be operated to produce a desired pres-% sure in the cylinders 5 and 7.
  • This sight-tube is a sight-tube extending from the combustion-chamber 13 to the exterior of the boiler, so that the color of the flame and its condition may be observed.
  • This sight-tube may be located at 28 on the upper end of the air-pipe.
  • a boiler for generating steam the combination of a water-containing vessel with means for producing flame located above the normal level of the water in said vessel and adapted to cause the flame to impinge directly upon the water contained in the vessel.
  • a boiler for generating steam the combination of a water-containing vessel, and a burner producing flame within the vessel, the burner being so located as to produce the flame above the normal level of the water in said vessel and cause it to impinge upon or through the water, whereby the produced steam and the unconsumed products of combustion are both collected together, for the purpose of producing a gas-pressure.
  • a boiler for generating steam the combination of a water-containing vessel, hav- 1 ing astationary combustion-chamber located within the boiler, and connected therewith for the admission of water, a burner within the upper part of the combustion-chamber, and means for prod ucinga steady air and gas pressure within the combustion-chamber, to
  • a boiler for generating steam the combination of a water-containing vessel, a combustion-chamber permanently'located within the water-containing vessel, and having waeensa 8 under pressure to the burner, as, and for the 10 ter passage-ways between the combustionpurpose specified.

Description

No. 669,132. Pa tented Mar. 5,19%
A.- T. WELGH.
-S=VEAM BOlLER.
: Application filed Nov. 21, 1899,;
(No Model.)
THE scams vmns co. mow-mac. WASHINUTDN. a c.
50 v 4 is one of the air-pumps, connected to an UNITED STATES PATENT EErcE.
ABRAHAM T. WELOH, OF BALTIMORE, MARYLAND.
STEAM-BOILER.
SIECiFICATION forming part of Letters Patent No. 669,132, dated March 5, 1901-.
Application filed November 21, 1899- Serial No. 737,799. LNo model.)
To all whorrt itmety concern.-
Be it known that I, ABRAHAM T. WELCH, a citizen of the United States of America, and a resident of the city of Baltimore, State of Maryland,have invented certain new and useful Improvements in Boilers for Generating Steam, of which the following is a specification.
My invention relates to a boiler for the gen erating of steam, and has for its object the utilizing of all the heating capacity of the fuel consumed in the generation of steam and at the same time the recovery and utilization of all of the products of combustion which are mixed with the steam and which aid in creating a gaseous pressure suitable for driving an engine.
Heretofore in the consumption of fuel and the generation of steam where the products of combustion are allowed to escape into the atmosphere there are two great sources of loss. One lies in the necessity for conducting the heat produced by the fire through some form of conducting medium, as the walls of a boiler, and this indirect application of heat to the water is a considerable source of loss. In all such boilers where the heatingflame is caused to blow upon the exterior of a vessel containing water a large part of the heat produced at the instant of combustion is lost in the fines.
I have improved the old method and appa ratus by forcing a flame produced from gas and air under pressure into my boiler and into direct contact with the water, thus causing all the heat of the flame to be converted into work in the evaporation of water. The constant cooling of the flame will cause a part of the unconsumed gas, as well as the carbon dioxid, to enter the steam-space of the boiler together with the steam and being hot and most of it expansive it will be almost as efficient for motor purposes as steam itself.
Referring to the drawing, which is a diagrammatic view of an apparatus embodying my invention, the boiler being shown in vertical section, 1 is a boiler.
2 is a double engine and pair of air-pumps connected to the boiler by steam-pipe 3.
air-reservoir 5. 6 is the other air-pump, connected to a gas or oil reservoir 7. The reservoir 5 is intended to contain air under pressure. It is connected at its far end by the pipe 8 with the air-pipe of the burner 9. It is provided with a connection direct to the fire-chamber 10 and has a stop-cock 11 in that connection and a stop-cock 12 in the connection to the burner.
In the center of the boiler is a cylinder of small diameter extending from the bottom to the top of the boiler and protruding through the top. It is perforated near the bottom with the series of holes 14 14, by which water and gas can pass backward and forward from the boiler to the cylinder, and Vice versa. These openings should be of greater area than the total capacity of the gas-inlets, so that there will always be some water in the bottom of the fire-chamber 13.
16 is an oil-burner located in the top of the cylinder and consisting of an interior air-pipe 9 and an exterior oil or gas pipe 17. The oil or gas pipe 17 is connected with the oil or gas tank 7 by means of pipe 18, provided with a stop-cock 19. The oil or gas tank 7 is provided with an oil-gage 20 and pressure-gage 21. When the valve 19 is set at a desired opening and a requisite pressure of air is maintained on the top of the oil in the oilcylinder 7, a desired quantity of oil in the form of spray and gas produced from the oil is forced through the oil-pipe 17 into the combustion chamber or cylinder 13. At the same time air is forced from the air-reservoir 5 through the air-pipe 9 and, if desired, also through the air-pipe 22 into that portion of the combustion-chamber marked 10 outside of the burner, so as to supply the requisite quantity of air for the complete combustion of the oil. I may use oil or gasolene, producing sprayed oil or vapor-gas, or I may use a fixed gas.
23 is a hand-pu mp connected to the oil-cylinder 7, and 24: is a hand-pump connected to the air-cylinder 5, which may be used to create pressure enough in the tanks 5 and 7 to start the apparatus. If the hand-pumps are used, the burner 25 will be unnecessary. If the burner is used, the hand-pumps will be unnecessary. The pipes connecting the airpumps 4 and 6 with the tanks 5 and 7 may be closed with stop-cocks and a com municating pipe opened between the tanks by stopcock 29, so as to balance the pressure in the two tanks.
25 is a gas-burner located underneath the boiler in a position to heat a small quantity of water in the boiler to such an extent as may be necessary to generate steam enough to start the engines and pumps, after which the burner 25 may be shut 01%, and the flame produced by the burner 16 will so heat the Water as to maintain a sufficient pressure in the boiler. It will be noticed that the air and oil or gas pressure in the combustion-cham-; her and steam-pressure in the boiler must balance one another, ornearly so. The steam generated is proportional to the temperature 3 of the fire, and the pressure is equal to the; steam generated less the radiation. The' temperature of the fire is due to the pressure of air and gas in the tanks 5 and 7, and this; pressure is automatically controlled by pressure-regulating valves connected to the air-l pumps 4 and 6. The pressure in the combustion-chamber is always a little greater than the pressure in the boiler, because although; the pressures have a tendency to balance one; another the radiation of the boiler will con- 3 stantly reduce the pressure in the boiler some-l what.
26 is a safety-valve on the boiler, which Willi only be called into play when the pumps} through some accident create an abnormal; vpressure in the tanks.
In starting up the apparatus before SUffi-E cient steam is gotten up in the boiler to op-i erate the pumps the hand-pumps 23 and 24 may be operated to produce a desired pres-% sure in the cylinders 5 and 7.
27 is a sparker introduced into the combus-g tion-chamber for the purpose of lighting the? burner. When the burner has been lighted; and a sufficient pressure has been obtainedE upon the tanks?) and 7 and a sufficient pres-i sure also obtained in the boiler,the pumps Willi run steadily and maintain the pressure in 5? and 7,blowing the air and oil from the burner; 16 into the combustion-chamber 13. It is de-i sirable to control the locationof the flame so as to focus the highest temperature below, the level of the water, not to burn the Wall of? the combustion-chamber. The pressures Willi be so regulated 'that some water may remain? in the bottom of the combustion-chamber 13,, when it will be highly heated by the direct; action of the flame and forced through the, apertures 14: 14 up into the boiler, when its? place will be filled by other water flowing in. through the bottom row ofholes 14, and when the pressure of gas in the combnstion-cham-= her is greater than the pressure of steam in' the boiler, which is generally the case when steam is being drawn from the boiler, the
tail of the flame will travel through the upper row of apertures 14 14 into the water and come into direct contact with it, generating steam not only by conduction through the walls of the combustion-chamber, but by the direct contact of the flame with the water by which all of the heat units of the flame will be absorbed by the water and utilized in the work of generating steam. Thus all the products of combustion, as well as the total heat units of the flame, will be available for the purposeof 'c'reating'and maintaining pressure in the boiler.
28 is a sight-tube extending from the combustion-chamber 13 to the exterior of the boiler, so that the color of the flame and its condition may be observed. This sight-tube may be located at 28 on the upper end of the air-pipe.
Having thus described myinvention, what I claim, and desire to secure by Letters Patent, is
1. In a boiler for generating steam, the combination of a water-containing vessel with means for producing flame located above the normal level of the water in said vessel and adapted to cause the flame to impinge directly upon the water contained in the vessel.
2. In a boiler for generating steam, the combination of a water-containing vessel, and a burner producing flame within the vessel, the burner being so located as to produce the flame above the normal level of the water in said vessel and cause it to impinge upon or through the water, whereby the produced steam and the unconsumed products of combustion are both collected together, for the purpose of producing a gas-pressure.
3. In a boiler for generating steam, the combination of a water-containing vessel, hav- 1 ing astationary combustion-chamber located within the boiler, and connected therewith for the admission of water, a burner within the upper part of the combustion-chamber, and means for prod ucinga steady air and gas pressure within the combustion-chamber, to
in the upper part of the combustion-chamber,
adapted to produce flame, and cause it to'impinge upon the water in thelower part of'the combustion-chamber, or through'the connectlng passage-waysin the boiler, and devices for producing a steady air and gas pressure in "the combustion-chamber, to counterbalance the steam-pressure in the boiler.
5. In a boiler for generating steam, the combination of a water-containing vessel, a combustion-chamber permanently'located within the water-containing vessel, and having waeensa 8 under pressure to the burner, as, and for the 10 ter passage-ways between the combustionpurpose specified.
chamber, and water-containing vessel, a
burner located in the upper part of the com- Signed by me at Baltimore, Maryland, this bustion-oharnber, and arranged to cause its 1 20th day of November, 1899.
flame to impin e upon the Water in the coinbustion-ehamb eror through the passage-ways ABRAHAM WELCH' upon the water in the water-containing ves- Witnesses:
sel, means for supplying oil under pressure E. R. BERKELEY,
to the burner, and means for supplying air W. W; POWELL.
US73779999A 1899-11-21 1899-11-21 Steam-boiler. Expired - Lifetime US669132A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US73779999A US669132A (en) 1899-11-21 1899-11-21 Steam-boiler.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US73779999A US669132A (en) 1899-11-21 1899-11-21 Steam-boiler.

Publications (1)

Publication Number Publication Date
US669132A true US669132A (en) 1901-03-05

Family

ID=2737687

Family Applications (1)

Application Number Title Priority Date Filing Date
US73779999A Expired - Lifetime US669132A (en) 1899-11-21 1899-11-21 Steam-boiler.

Country Status (1)

Country Link
US (1) US669132A (en)

Similar Documents

Publication Publication Date Title
US2916877A (en) Pressure fluid generator
US1236793A (en) Power-generator.
US964031A (en) Liquid-hydrocarbon-burning apparatus.
US669132A (en) Steam-boiler.
US324828A (en) Oscaft gassett
US974166A (en) Apparatus for producing motive power.
US458390A (en) Hydrocarbon-furnace
US746409A (en) Oxyhydrocarbon-burner.
US751972A (en) Process of generating motor fluids
US84967A (en) peters
US403963A (en) shallow
US268176A (en) blanchard
US707911A (en) Combustion apparatus for steam-boilers.
US590905A (en) Steam-boiler
US30701A (en) Island
US292546A (en) dieckmann
US290927A (en) Flue and tubular steam-generator
US442793A (en) bourne
US992891A (en) Continuous internal-combustion generator.
US845128A (en) Apparatus for producing a mixture of steam and combustion-gases.
US824338A (en) Gas heating apparatus.
US310013A (en) ambler
US787725A (en) Means for effecting combustion.
US660429A (en) Boiler.
US596979A (en) Boiler