US844343A - Water-tube boiler. - Google Patents

Water-tube boiler. Download PDF

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US844343A
US844343A US27868805A US1905278688A US844343A US 844343 A US844343 A US 844343A US 27868805 A US27868805 A US 27868805A US 1905278688 A US1905278688 A US 1905278688A US 844343 A US844343 A US 844343A
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water
tubes
boiler
boilers
tube
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US27868805A
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Oswald Flamm
Friedrich Romberg
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F22STEAM GENERATION
    • F22BMETHODS OF STEAM GENERATION; STEAM BOILERS
    • F22B21/00Water-tube boilers of vertical or steeply-inclined type, i.e. the water-tube sets being arranged vertically or substantially vertically
    • F22B21/02Water-tube boilers of vertical or steeply-inclined type, i.e. the water-tube sets being arranged vertically or substantially vertically built-up from substantially straight water tubes
    • F22B21/14Water-tube boilers of vertical or steeply-inclined type, i.e. the water-tube sets being arranged vertically or substantially vertically built-up from substantially straight water tubes involving a single upper drum and two or more lower drums
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S122/00Liquid heaters and vaporizers
    • Y10S122/03Gas flow baffles

Definitions

  • OSWALD FLAMM OF OIIARLOTTENBURG
  • FRIEDRICH ROMBERG OF NICOLASSE
  • NEAR WANN SEE NEAR WANN SEE
  • Our invention relates to water-tube boilers consisting of one or more lower boilers, one or more upper boilers, and a number of long narrow tubes situated between the upper and under boilers.
  • the diameter of the said water-tubes should not be below a distinct minimum, and in length these tubes should not surpass a distinct maximum length in order to maintain a good water circulation to prevent the tubes from burning and the passages therethrough from being obstructed by furring.
  • the boilers constructed according to our invention can be used in large sizes, and they permit of obtaining a large heating-surface and good exchange of heat, while saving much space and weight.
  • Figure 1 is a cross-section of our improved boiler.
  • Fig. 2 is a horizontal section on line A B in Fig. 1.
  • Fig. 3 is a partial front elevationof the water-tubes to a larger scale.
  • Fig. 4 is a side view.
  • Fig. 5 is a plan view in part of the water-tubes in a larger scale.
  • Fig. 6 is a cross-section of a nozzle provided at the ends of the water-tubes.
  • Fig. 7 shows in diagrammatical manner another constructional form of our improved tube-boiler, partly in front elevation and partly in crosssection.
  • Fig. 8 is a side view.
  • Figs. 9 and 10 show details of water-tubes as used in the construction according to Figs. 7 and 8.
  • a shows the upper boiler
  • c c are the Water-tubes, having a particular form and having in consequence of our improvements a very small diameter and a great length.
  • d is a pump by which the water circulation in the under boilers. the water-tubes, and in the upper boiler is maintained.
  • the upper boiler a is connected with the lower boiler by means of water-tubes arranged in the example Figs. 1 to 5 in three sets between the boilers.
  • the upper boiler a is connected by the suction-pipe f with the pump d, through which the superfluous water not evaporated is drawn off from the pum in order to pass for a second time the perio ical return.
  • the water-tubes are of special form, as illustrated in Figs. 3, 4, and 5.
  • the single watertubes have the form of a helical line having in all parts the same pitch and connected with the lower boiler with the ends a a, while the upper ends of the tubes discharge into the upper boiler a in the same manner.
  • the inner tube set lying next to the fire-gases may be made of a larger diameter, while the outer tube sets may have diameters gradually decreasing.
  • the water-tubes c form a righthand helical line, and in order to permit them to be ut together with the tube a the latter must ave the form of a left-hand helical line, While its pitch is the same as that of the wator-tubes 6 6
  • water- 'tubes are combined having a considerable length and occupying only a small space.
  • Each set of water-tubes is made in this way and the single screw-shaped. water-tubes forming the single sets are connected at c and c with the lower and upper boilers, respectively.
  • the ends 0 of the water-tubes are provided with nozzles 'i, screwed upon the tube end 0 as indicated in Fig. 6. According to the diameter of the nozzle it is possible to alter the pres sure in the tubes when water is pumped through and the speed of the water is constant.
  • the same reference-letters designate the same parts as in Figs. 1 and 2.
  • the lower boilers b are connected with the upper boiler a by means of serpentine-shaped water-tubes c and for the formation of fire-passages by the water-tubes themselves series of serpentine-shaped tubes, being combined in the manner indicated by Figs. 9 and 10, are arranged outside and in the midst of serpentine-shaped tubes 0
  • the tubes of the series 0 are divided 0r drawn from each other, so as to form a passage for the heating-gases coming from the fire-grate of the boiler.
  • the middle tube series 0 is arranged in an in verse manner as compared with 0 and an outer tube series 0 is provided, having the same construction as the inner tube series 0 so that the heating gases fiow first upward, meet transversely the serpentine tubes a arranged between the inner and the middle tube series, flow then downward andpass through the middle tube series c and go then again upward, as indicated by the arrows.
  • the upper and lower ends of these tube series are connected with the upper and the lower boilers in the manner described before.
  • Fig. 8 the arrangement of the tubes situated between the series 0 and c or c and c is. illustrated by the water-tubes c a and, furthermore, the arrangement in example of the tube series 0 is illustrated by the tubes 0 0 the latter forming in this way a tight wall and forcing the combustion-gas to flow in the manner before described and indicated by the arrows.
  • Figs. 9 and 10 the inner tube series a is illustrated in side view and in cross-section on line C D of Fig. 9,0n a larger scale, from which can be seen that the serpentine tube 8 is combined with the serpentine tube 8 the tubes being laterally drawn off from each other in the upper part for formingthe abovementioned passage for the fire-gases.
  • tand t are tubes which may be employed if a natural water circulae tion shall be maintained between the upper and lower boiler. In case of an artificial circulation the valve 12 is to be shut ofi.
  • the circulating-pump (not shown in the figure) is connected to the boiler arrangement by long narrow water-tubes, and a pipe in communication with the upper boiler and the circulating-pump for the purpose of conveying the water not evaporated to the pump.
  • a water-tube boiler comprising in combination a lower boiler, a connecting-pipe joining the said lower boilers, a circulatingpump in communication with said connecting-pipe and forcing water into said connecting-pipe and said lower boilers for producing a rapid water circulation, long and narrow watertubes being joined with their lower ends to said lower boilers, nozzles provided at the tube ends, an upper boiler into which said nozzles discharge, a pipe in communicationwith the upper boiler and thecirculatingpump.- for the purpose of conveying the water not evaporated to the pump.
  • a water-tube boiler comprising in combination lower boilers, an upper boiler, long and narrow water-tubes situatedv between said boiler and formed of helical tubes alternatingly right-hand and left-hand threaded, and put together with their windings, a circulating-pump forcing water into said boilers and water-tubes for producing a rapid water circulation, and a pipe in communication with the upper boiler and the circulatingpump for the purpose of conveying the Water notevaporated to the pump.
  • a water-tube boiler comprising combination lower boilers, a connecting pipe joining said lower boilers, a circulating-pump in communication with said connecting-pipe and forcing water into the connecting-pipe and said lower boilers for producing a rapid water circulation, long and narrow watertubes joined with their lower ends to the lower boilers and formed of serpentine tubes 0 c c forming gas-passages, and of serpentine tubes 0 an upper boiler in communication with the upper ends of said water-tubes,

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)

Description

PATBNTED PEB.19,'1907. 0.3mm & F. ROMBBRG.
No. s44,343.
WATER TUBE BOILER.
. APPLICATION FILED 8IEPT.16,1906.
B SHEETS-SHEET 1.
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PATENTED FEB. 19, 1907. 0. FLAMMK: F. ROMBERG.
WATER TU-BE BOILER.
APPLICATION FILED SEPT. 15, 1906.
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0. FLAMM '& F. ROMBERG. WATER TUBE BOILER.
APPLICATION FILED BEIT.16,1905.
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UNITED STATES PATENT OFFICE.
OSWALD FLAMM, OF OIIARLOTTENBURG, AND FRIEDRICH ROMBERG, OF NICOLASSE, NEAR WANN SEE, GERMANY.
WATER-TUBE BOILER.
Specification of Letters Patent.
Patented Feb 19, 1907.
Application filed September 15,1905. Serial No. 278,688.
To all whom, it may concern.-
Be it known that we, OSWALD FLAMM and I FRIEDRICH RoMBERe, both subjects of the King of Prussia, German Emperor, and residents of Charlottenburg, near Berlin, Kingdom of Prussia, German Empire, and of Nicolasse, near Wannsee, Germany, respectively, have jointly invented certain new and useful Improvements in Water-Tube Boilers, of which the following is an exact specification.
Our invention relates to water-tube boilers consisting of one or more lower boilers, one or more upper boilers, and a number of long narrow tubes situated between the upper and under boilers.
In boilers of the above-mentioned type the diameter of the said water-tubes should not be below a distinct minimum, and in length these tubes should not surpass a distinct maximum length in order to maintain a good water circulation to prevent the tubes from burning and the passages therethrough from being obstructed by furring.
For obtaining the advantages of very narrow and long tubes, whereby a particularly large heating-surface and an excellent exchange of heat are insured, and, on the other hand, for avoiding burning and choking of the tubes, we employ according to our invention an artificial acceleratedwater circulation for boilers of this type. For this purpose one or several pumps are inserted between the upper and the lower boiler for the purpose of forcing feed-water, as well as circulating water, through the tubes. We are thus enabled to use very narrow and long watertubes and to obtain the above-mentioned advantages, and the considerable defects usually experienced with such tubes when natural circulation is used are overcome. It has been heretofore proposed to employ a plurality of short straight water-tubes in communication with a water-drum, the water being forced through such tubes by a propeller, or to employ very long tubes connected between steam and water chambers. It has not, however, been proposed to employ long and narrow tubes in connection with such a pump.
In order that the fur-stone may be precipitated, receptacles or any suitable devices are provided behind, as well as before, the
circulating-pump and arranged either in or at the upper or the lower boiler and in such a way that the fur-stone and other impurities deposited in that receptacle can be removed therefrom while the burner is working.
The boilers constructed according to our invention can be used in large sizes, and they permit of obtaining a large heating-surface and good exchange of heat, while saving much space and weight.
In order to make our invention more clear, we refer to the accompanying drawings, in which Figure 1 is a cross-section of our improved boiler. Fig. 2 is a horizontal section on line A B in Fig. 1. Fig. 3 is a partial front elevationof the water-tubes to a larger scale. Fig. 4 is a side view. Fig. 5 is a plan view in part of the water-tubes in a larger scale. Fig. 6 is a cross-section of a nozzle provided at the ends of the water-tubes. Fig. 7 shows in diagrammatical manner another constructional form of our improved tube-boiler, partly in front elevation and partly in crosssection. Fig. 8 is a side view. Figs. 9 and 10 show details of water-tubes as used in the construction according to Figs. 7 and 8.
In the figures, a shows the upper boiler; b b, the lower boilers, and c c are the Water-tubes, having a particular form and having in consequence of our improvements a very small diameter and a great length.
d is a pump by which the water circulation in the under boilers. the water-tubes, and in the upper boiler is maintained.
e is a forcing-pipe leading to the lower right-hand boiler, from which a forcing-pipe e passes to the lower left-hand boiler b. The upper boiler a is connected with the lower boiler by means of water-tubes arranged in the example Figs. 1 to 5 in three sets between the boilers. The upper boiler a is connected by the suction-pipe f with the pump d, through which the superfluous water not evaporated is drawn off from the pum in order to pass for a second time the perio ical return.
9 is a fire-grate which is surrounded by walls h. s
The water-tubes are of special form, as illustrated in Figs. 3, 4, and 5. The single watertubes have the form of a helical line having in all parts the same pitch and connected with the lower boiler with the ends a a, while the upper ends of the tubes discharge into the upper boiler a in the same manner. In order to obtain a good exchange of heat, the inner tube set lying next to the fire-gases may be made of a larger diameter, while the outer tube sets may have diameters gradually decreasing. The water-tubes c form a righthand helical line, and in order to permit them to be ut together with the tube a the latter must ave the form of a left-hand helical line, While its pitch is the same as that of the wator-tubes 6 6 By this arrangement water- 'tubes are combined having a considerable length and occupying only a small space. Each set of water-tubes is made in this way and the single screw-shaped. water-tubes forming the single sets are connected at c and c with the lower and upper boilers, respectively.
In order to obtain in the present boiler a regulation of pressure and speed of the water and the steam in the narrow water-tubes, the ends 0 of the water-tubes are provided with nozzles 'i, screwed upon the tube end 0 as indicated in Fig. 6. According to the diameter of the nozzle it is possible to alter the pres sure in the tubes when water is pumped through and the speed of the water is constant.
In the construction illustrated in Figs. 7 and 8 a modified formand arrangement of the water-tubes is provided.
The same reference-letters designate the same parts as in Figs. 1 and 2. The lower boilers b are connected with the upper boiler a by means of serpentine-shaped water-tubes c and for the formation of fire-passages by the water-tubes themselves series of serpentine-shaped tubes, being combined in the manner indicated by Figs. 9 and 10, are arranged outside and in the midst of serpentine-shaped tubes 0 The tubes of the series 0 are divided 0r drawn from each other, so as to form a passage for the heating-gases coming from the fire-grate of the boiler. The middle tube series 0 is arranged in an in verse manner as compared with 0 and an outer tube series 0 is provided, having the same construction as the inner tube series 0 so that the heating gases fiow first upward, meet transversely the serpentine tubes a arranged between the inner and the middle tube series, flow then downward andpass through the middle tube series c and go then again upward, as indicated by the arrows. The upper and lower ends of these tube series are connected with the upper and the lower boilers in the manner described before.
In Fig. 8 the arrangement of the tubes situated between the series 0 and c or c and c is. illustrated by the water-tubes c a and, furthermore, the arrangement in example of the tube series 0 is illustrated by the tubes 0 0 the latter forming in this way a tight wall and forcing the combustion-gas to flow in the manner before described and indicated by the arrows.
In Figs. 9 and 10 the inner tube series a is illustrated in side view and in cross-section on line C D of Fig. 9,0n a larger scale, from which can be seen that the serpentine tube 8 is combined with the serpentine tube 8 the tubes being laterally drawn off from each other in the upper part for formingthe abovementioned passage for the fire-gases.
In Figs. 7 and 8, tand t are tubes which may be employed if a natural water circulae tion shall be maintained between the upper and lower boiler. In case of an artificial circulation the valve 12 is to be shut ofi. The circulating-pump (not shown in the figure) is connected to the boiler arrangement by long narrow water-tubes, and a pipe in communication with the upper boiler and the circulating-pump for the purpose of conveying the water not evaporated to the pump.
2. A water-tube boiler comprising in combination a lower boiler, a connecting-pipe joining the said lower boilers, a circulatingpump in communication with said connecting-pipe and forcing water into said connecting-pipe and said lower boilers for producing a rapid water circulation, long and narrow watertubes being joined with their lower ends to said lower boilers, nozzles provided at the tube ends, an upper boiler into which said nozzles discharge, a pipe in communicationwith the upper boiler and thecirculatingpump.- for the purpose of conveying the water not evaporated to the pump. 7
3. A water-tube boiler comprising in combination lower boilers, an upper boiler, long and narrow water-tubes situatedv between said boiler and formed of helical tubes alternatingly right-hand and left-hand threaded, and put together with their windings, a circulating-pump forcing water into said boilers and water-tubes for producing a rapid water circulation, anda pipe in communication with the upper boiler and the circulatingpump for the purpose of conveying the Water notevaporated to the pump.
4.. A water-tube boiler comprising combination lower boilers, a connecting pipe joining said lower boilers, a circulating-pump in communication with said connecting-pipe and forcing water into the connecting-pipe and said lower boilers for producing a rapid water circulation, long and narrow watertubes joined with their lower ends to the lower boilers and formed of serpentine tubes 0 c c forming gas-passages, and of serpentine tubes 0 an upper boiler in communication with the upper ends of said water-tubes,
10 and a pipe in communication with the upper boiler and the circulating-pump for the purpose of conveying the waternot evaporated to the pump.
In witness whereof we havehereunto set our hands in the presence of two witnesses.
OSWALD FLAMM. FRIEDRICH ROMBERG. Witnesses:
HENRY HAsPER, WOLDEMAR HAUPT.
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