US301374A - Steam boilee - Google Patents

Steam boilee Download PDF

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US301374A
US301374A US301374DA US301374A US 301374 A US301374 A US 301374A US 301374D A US301374D A US 301374DA US 301374 A US301374 A US 301374A
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steam
tubes
water
tube
receiving
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Assigned to WILMINGTON TRUST COMPANY reassignment WILMINGTON TRUST COMPANY SECURITY AGREEMENT Assignors: AMES TRUE TEMPER PROPERTIES, INC, AMES TRUE TEMPER, INC, ARCHITECTURAL AREA LIGHTING, INC., ARROW CONSOLIDATED CORPORATION, ASTERIA COMPANY, BATHCRAFT, INC., BAYLIS BROTHERS, INC., BRUCKNER MANUFACTURING CORP., CARLSBAD CORP., COLUMBIA LIGHTING LCA, INC., COLUMBIA LIGHTING MFG. CO., COLUMBIA LIGHTING PROPERTIES, INC., COLUMBIA LIGHTING, INC., COLUMBIA MATERIALS, LLC, COMPAX CORP., DUAL-LITE INC., DUAL-LITE MANUFACTURING, INC., ELJER INDUSTRIES, INC., ELJER PLUMBINGWARE, INC., ENVIRONMENTAL ENERGY COMPANY, EZ HOLDINGS, INC., GARY CONCRETE PRODUCTS, INC, GATSBY SPAS, INC., HL CAPITAL CORP., IXL MANUFACTURING COMPANY, INC., JACUZZI, JACUZZI WHIRLPOOL BATH, INC., JUSI HOLDINGS, INC., KIM LIGHTING INC., KLI, INC., LCA (NS) INC., LCA GROUP INC., LIGHTING CORPORATION OF AMERICA, INC., LOKELANI DEVELOPMENT CORPORATION, LUXOR INDUSTRIES, INC., MAILI KAI LAND DEVELOPMENT CORPORATION, MOBILITE, INC., NEPCO OF AUSTRALIA, INC., NEPCO OF CANADA, INC., NEPCO OF FORD HEIGHTS, INC., NEPCO OF FULTON, INC., NEPCO OF PAKISTAN, INC., NISSEN UNIVERSAL HOLDINGS, INC., OUTDOOR PRODUCTS LLC, PH PROPERTY DEVELOPMENT COMPANY, PRESCOLITE LITE CONTROLS, INC., PRESCOLITE, INC., PROGRESS LIGHTING PROPERTIES, INC., PROGRESS LIGHTING, INC., PROGRESSIVE LIGHTING, INC. (NC), PROGRESSIVE LIGHTING, INC. (SC), REDMONT, INC., SANITARY-DASH MANUFACTURING CO., INC., SELKIRK CANADA U.S.A., INC., SELKIRK EUROPE U.S.A., INC., SELKIRK, INC., SPAULDING LIGHTING, INC., STRATEGIS CAPITAL MANAGEMENT, INC., STREAMWOOD CORPORATION, SUNDANCE SPAS, INC., TA LIQUIDATION CORP., TRIMFOOT CO., TT LIQUIDATION CORP., U.S. INDUSTRIES, INC., UGE LIQUIDATION INC., UNITED STATES BRASS CORP., USI AMERICAN HOLDINGS, INC., USI ATLANTIC CORP., USI CAPITAL, INC., USI FUNDING, INC., USI GLOBAL CORP., USI PROPERTIES, INC., USI REALTY CORP., ZURCO, INC., ZURN (CAYMAN ISLANDS), INC., ZURN CONSTRUCTORS, INC., ZURN DEVCO, INC., ZURN EPC SERVICES, INC., ZURN GOLF HOLDING CORPORATION, ZURN INDUSTRIES, INC., ZURNACQ OF CALIFORNIA, INC.
Assigned to USI ATLANTIC CORP., COLUMBIA MATERIALS, LLC, UGE LIQUIDATION INC., USI REALTY CORP., ZURN (CAYMAN ISLANDS), INC., JUSI HOLDINGS, INC., IXL MANUFACTURING COMPANY, INC., ZURN DEVCO, INC., USI GLOBAL CORP., KIM LIGHTING INC., ARCHITECTURAL AREA LIGHTING, INC., MOBILITE INC., COMPAX CORP., ZURN CONSTRUCTORS, INC., HL CAPITAL CORP., LOKELANI DEVELOPMENT CORPORATION, PROGRESS LIGHTING, INC., GARY CONCRETE PRODUCTS, INC., NEPCO OF FORD HIGHTS, INC., COLUMBIA LIGHTING MFG., INC., LCA (NS) INC., LUXOR INDUSRIES, INC., USI PROPERTIES, INC., U.S. INDUSTRIES, INC., TT LIQUIDATION CORP., USI FUNDING, INC., EZ HOLDING, INC., UNITED STATES BRASS CORP., ZURN GOLF HOLDING CORPORATION, NEPCO OF CANADA, INC., SELKIRK CANADA U.S.A., INC., SELKIRK EUROPE U.S.A., INC., ZURCO, INC., PROGRESSIVE LIGHTING PROPERTIES, INC., KLI, INC., USI AMERICAN HOLDINGS, INC., SELKIRK, INC., ARROW CONSOLIDATED CORPORATION, SUNDANCE SPAS, INC., AMES TRUE TEMPER PROPRETIES, INC., TRIMFOOT CO., LIGHTING CORPORATION OF AMERICA, INC., JACUZZI INC., COLUBMIA LIGHTING PROPERTIES, INC., ENVIRONMENTAL ENERGY COMPANY, BATHCRAFT INC., PRESCOLITE, INC., ELJER INDUSTRIES, INC., STRATEGIC CAPITAL MANAGEMENT, INC., AMES TRUE TEMPER, INC., ZURNACQ OF CALIFORNIA, INC., ELJER PLUMBINGWARE, INC., PRESCOLITE LITE CONTROLS, INC., SANITARY-DASH MANUFACTURING CO. INC., DUAL-LITE INC., GATSBY SPAS, INC., LCA GROUP INC., DUAL-LITE MANUFACTURING, INC., COLUMBIA LIGHTING, INC., NEPCO OF AUSTRALIA, INC., BRUCKNER MANUFACTURING COP., REDMONT, INC., OUTDOOR PRODUCTS LLC, NEPCO OF PAKISTAN, INC., TA LIQUIDATION CORP., ZURN INDUSTRIES, INC., STREAMWOOD CORPORATION, JACUZZI WHIRLPOOL BATH, INC., COLUMBIA LIGHTING-LCA, INC., MAILIKAI LAND DEVELOPMENT CORPORATION, PROGRESSIVE LIGHTING, INC. (SC), ASTERIA COMPANY, PROGRESSIVE LIGHTING, INC. (NC), CARLSBAD CORP., USI CAPITAL, INC., SPAULDING LIGHTING, INC., ZURN EPC SERVICES, INC., NEPCO OF FULTON, INC., BAYLIS BROTHERS, INC., NISSEN UNIVERSAL HOLDINGS INC., PH PROPERTY DEVELOPMENT COMPANY reassignment USI ATLANTIC CORP. RELEASE OF SECURITY INTEREST IN INTELLECTUAL PROPERTY Assignors: WILMINGTON TRUST COMPANY AS CORPORATE TRUSTEE
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B75/00Other engines
    • F02B75/02Engines characterised by their cycles, e.g. six-stroke

Definitions

  • the object of my said invention is to effect improvements in the construction of steamboilers, such improvements relating to seetional steam-boilers, such as that known as Root s Boiler.
  • the heatingsurface consists of inclined tubes which contain water only, or water and steam, the ends thereof being fitted with means and arrangements for the circulation of the water and passage of the steam.
  • Many practical difficulties have arisen in connecting the tubes of such boilers, owing chieflyto unequal expansion and contraction, causing leaks, thus entailing much delay and expense in their use.
  • a The circulation of the water in these boilers is also-very imperfect.
  • the inclined tubes are closed at one end, the other end being fitted to and opening into a vertical or nearly vertical receiving-tube.
  • This receiving -tube is either circular or elliptical, or of other convenient form, and has a division plate or diaphragm in a longitudinal direction dividing the same into two parts. A number of these receivingtubes are arranged side by side, and a number of inclined tubes are fitted to each of the receiving-tubes, according to the respective diameters and lengths of the tubes.
  • each receiving-tube is fitted with as many inner circulating-tubesas there are out-er inclined water-tubes.
  • Each circulating tube traverses an inclined water-tube nearly its entire length.
  • the upper ends of the series of receiving-tubes are connected with a general receivenwhich forms a reservoir of water and a steam-chest.
  • the usual fittings are added-such as feed-pipes, water and steam gages, blow-off cocks, safet valves,
  • the entire boiler is set in brickwork or other suitable casing, and a furnace or furnaces is or are fitted below the inclined tubes with suitable bafflers forusefully directing the currents of heated gases on their passage to the fines.
  • the steanrchest and general receiver is so arranged that whatever deposit arises from the water is retained therein and prevented from taking'place in the inclined tubes, and the water flows therefrom to the several receiving-tubes, from whence it gains access to the inclined tubes by means of the inner circulating-tubes, from the farther ends of which the water enters the inclined tubes.
  • Part of the water is then formed into steam, and the steam and heated water travel together to the receiving-tubes, and thence to the general receiver, where the steam sepa rates from the water and collects in the steamchest, the water again returning, as before, to the inclined tubes.
  • Figure 1 is an elevation, partly in section,
  • FIG. 2 is a detail sectional view, showing the tube system
  • Fig. 3 is a plan view of the apertured flange which receives the steam and water tubes that extend into the general steam-receiver.
  • Fig. 4 is a front view of one of the covers that fit into the end wall of the boiler.
  • Figs. 5 and 6 are diagrams in elevation and section of the slotted steam and water pipes.
  • Fig. 7 is an enlarged diagram of a portion of the receiving-tube, partly in section, showing the construction thereof.
  • the letter 0 denotes the furnace, and Z) the first baffier, formed of fire-brick or fire-clay or other refractorymaterials.
  • I) is a second baffler of similar materials to b.
  • c c are the outer steam-generating tubes, closed at the a Fig. 2.
  • the receiving-tube 6 has a vertical diaphragm, 6, extending from side to side and from end to end. This diaphragm has as many openings as there are generating-tubes. The front of the receiving-tube has also as many openings as there are generating tubes fitted thereto.
  • the inner tubes, (1 d, are fitted into flanges ff, which also have distance-pieces f. These distance-pieces are formed in one piece with the flanges f and front bows, f against which bear screws 9, as is clearly shown in Fig. 7.
  • the distance-pieces bear, against the packingrings w, which are arranged in the chambers 03 of the bosses c", and by pressing against said rings by means of said distance-pieces and their screws the packing, which will be in the stufling-boxes '0 back of said rings, will be compressed and a steanrtight joint be formed around the'tubes 0.
  • Covers 9 g are fitted to the front openings
  • a general receiver, h is placed above the vertical receiving-tubes, where the steam accumulates, and from whence it is withdrawn as required.
  • the end wall, 7c is preferably built up of iron castings made to fit and support the tubes, as shown in Fig. 2.
  • the putting together of the boiler is effected by first passing the tubes 0 0 through the openings at g g, resting the closed endon and in the wall and the other (open) end resting in the boss or stuffing-box o
  • the flanges f f, with the distance-piecesf and inner tubes, d, are then inserted and fitted into the diaphragm e, as shown.
  • the covers g 9 being then placed in position and screwed up, the central screw,
  • the upper end of the receiving-tube is suitably attached to the steam-chest, having an uptake-pipe, 0, for steam and any water which may be carried therewith, and a downtaketube, n, for conveying the surplus water downward.
  • Slots q are formed in 0 and n, to-let the water pass .when it is below the level of the top of a. y I
  • a diaphragm, p is fitted in the steam-chest to assist in separating the steam from the water, such diaphragm having a few holes in the upper portion to preserve the equilibrium of pressure and the normal water-level.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)

Description

3 Sheets-Sheet 1.
' H. LANE. STEAM BOILER.
-(No Model.)
No. 301,374 Patented July 1, 1884..
H. PEIERS. Phulolilhogn wn Wfihingimu D. C.
3 Sheets8heet 2.
H. LANE. STEAM'BOILER.
(No Model.)
Patented" July 1, 1884.
3 Sheets-Sheet 3.
H. LANE.
STEAM BOILER.
Patexit'ed July 1, 1884.
m Prrzns HaokoLM-nguphci. Wadflngton, n. c
(No Model.)
UNITED STATES PATENT OFFICE,
nownnn LANE, orrosnon, ENGLAND.
STEAM-BOILER.
SPECIFICATION forming part of'LetteIs Patent No. 301,374, dated July 1 1884.
Application filed December 26, 1883. (No model.) Patented in England May 11 1883, No. 2,405.
To aZZ whom it may concern.-
Be it known that I, HOWARD LANE, a sub ject of the Queen of Great Britain, residing at 117 Palmerston Buildings, old Broad Street, in the city of London, civil engineer, have invented certain new and useful Improvements in SteamBoilers, (for which I have obtained a patent in Great Britain, No. 2,405, bearing date May 11, 1883,) of which the following isa specification.
The object of my said invention is to effect improvements in the construction of steamboilers, such improvements relating to seetional steam-boilers, such as that known as Root s Boiler. In these boilers the heatingsurface consists of inclined tubes which contain water only, or water and steam, the ends thereof being fitted with means and arrangements for the circulation of the water and passage of the steam. Many practical difficulties have arisen in connecting the tubes of such boilers, owing chieflyto unequal expansion and contraction, causing leaks, thus entailing much delay and expense in their use. A The circulation of the water in these boilers is also-very imperfect. These difficulties and effects are overcome entirely in my improved boilerby so arranging the tubes that each tube is free to expand in dependently, and the expansion of each and all the tubes may vary indefinitely without causing leaks. The inclined tubes are closed at one end, the other end being fitted to and opening into a vertical or nearly vertical receiving-tube. This receiving -tube is either circular or elliptical, or of other convenient form, and has a division plate or diaphragm in a longitudinal direction dividing the same into two parts. A number of these receivingtubes are arranged side by side, and a number of inclined tubes are fitted to each of the receiving-tubes, according to the respective diameters and lengths of the tubes. The dia phragm in each receiving-tube is fitted with as many inner circulating-tubesas there are out-er inclined water-tubes. Each circulating tube traverses an inclined water-tube nearly its entire length. Opposite the end of each inner tube there is a plugged opening in the receiving-tube, each plug being removable for the purpose of fitting, renewing, or cleansing the inclined and circulating tubes. The upper ends of the series of receiving-tubes are connected with a general receivenwhich forms a reservoir of water and a steam-chest. The usual fittings are added-such as feed-pipes, water and steam gages, blow-off cocks, safet valves, The entire boiler is set in brickwork or other suitable casing, and a furnace or furnaces is or are fitted below the inclined tubes with suitable bafflers forusefully directing the currents of heated gases on their passage to the fines. The steanrchest and general receiver is so arranged that whatever deposit arises from the water is retained therein and prevented from taking'place in the inclined tubes, and the water flows therefrom to the several receiving-tubes, from whence it gains access to the inclined tubes by means of the inner circulating-tubes, from the farther ends of which the water enters the inclined tubes. Part of the water is then formed into steam, and the steam and heated water travel together to the receiving-tubes, and thence to the general receiver, where the steam sepa rates from the water and collects in the steamchest, the water again returning, as before, to the inclined tubes.
In order that my said invention may be clearly understood, reference is hereby made to the accompanying drawings, in which similar letters of reference indicate corresponding parts in the several figures.
Figure 1 is an elevation, partly in section,
of my improved steam-boiler. Fig. 2 is a detail sectional view, showing the tube system,
diaphragm, annular plate,.and plugs on a larger scale than in Fig. 1. Fig. 3 is a plan view of the apertured flange which receives the steam and water tubes that extend into the general steam-receiver. Fig. 4: is a front view of one of the covers that fit into the end wall of the boiler. Figs. 5 and 6 are diagrams in elevation and section of the slotted steam and water pipes. Fig. 7 is an enlarged diagram of a portion of the receiving-tube, partly in section, showing the construction thereof.
The letter 0; denotes the furnace, and Z) the first baffier, formed of fire-brick or fire-clay or other refractorymaterials. I) is a second baffler of similar materials to b. c c are the outer steam-generating tubes, closed at the a Fig. 2.
' form a steam-tight joint, as shown in Fig. 2.
The receiving-tube 6 has a vertical diaphragm, 6, extending from side to side and from end to end. This diaphragm has as many openings as there are generating-tubes. The front of the receiving-tube has also as many openings as there are generating tubes fitted thereto.
The inner tubes, (1 d, are fitted into flanges ff, which also have distance-pieces f. These distance-pieces are formed in one piece with the flanges f and front bows, f against which bear screws 9, as is clearly shown in Fig. 7. The distance-pieces bear, against the packingrings w, which are arranged in the chambers 03 of the bosses c", and by pressing against said rings by means of said distance-pieces and their screws the packing, which will be in the stufling-boxes '0 back of said rings, will be compressed and a steanrtight joint be formed around the'tubes 0.
Covers 9 g are fitted to the front openings,
as shown, which have central screws, 9, to
press inward the distance-pieces f.
A general receiver, h, is placed above the vertical receiving-tubes, where the steam accumulates, and from whence it is withdrawn as required.
The end wall, 7c, is preferably built up of iron castings made to fit and support the tubes, as shown in Fig. 2.
The putting together of the boiler is effected by first passing the tubes 0 0 through the openings at g g, resting the closed endon and in the wall and the other (open) end resting in the boss or stuffing-box o The flanges f f, with the distance-piecesf and inner tubes, d, are then inserted and fitted into the diaphragm e, as shown. The covers g 9 being then placed in position and screwed up, the central screw,
g, is used to compress the packing in 0 similar packing being placed under the flange of the covers 9 g.
The upper end of the receiving-tube is suitably attached to the steam-chest, having an uptake-pipe, 0, for steam and any water which may be carried therewith, and a downtaketube, n, for conveying the surplus water downward. Slots q are formed in 0 and n, to-let the water pass .when it is below the level of the top of a. y I
It will be seen that all the steam necessarily rises to the space 6, and therefrom, by the pipe 0, to the steam-chest; also, that the water in the steam-chest descends by the pipe a into the space m, and thence by means of the inner circulating-tubes, d, to the ends of the generating-tubes c at or near 0.
A diaphragm, p, is fitted in the steam-chest to assist in separating the steam from the water, such diaphragm having a few holes in the upper portion to preserve the equilibrium of pressure and the normal water-level.
In constructing the several parts of my improved boilers more or less of wrought-iron the tubes are screwed into sockets, and I use screwed plugs instead of the 'covers g, the stuffing-boxes shown in the drawings being 'dispensed with and the receiving-tube 6 being built up of as many separate parts as may be necessary.
Having thus particularly described the nature of my said invention and in what manner the same is to be performed, I claim-- 1. In sectional boilers, the combination of the inner circulating-tubes, d, receiving-tube e, flanges f, distance-pieces parts and HOWARD LANE.
Witnesses:
GEO. G. DOWNING,
8 Quality On, London. G. WV. WESTLEY,
17 GmocohurchStreet, London.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20040034919A1 (en) * 2000-10-25 2004-02-26 Marquis Corp. Alcove whirlpool seat spa system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20040034919A1 (en) * 2000-10-25 2004-02-26 Marquis Corp. Alcove whirlpool seat spa system

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