US1001293A - Boiler washout and refilling system. - Google Patents

Boiler washout and refilling system. Download PDF

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Publication number
US1001293A
US1001293A US1911636996A US1001293A US 1001293 A US1001293 A US 1001293A US 1911636996 A US1911636996 A US 1911636996A US 1001293 A US1001293 A US 1001293A
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Prior art keywords
boiler
water
pipe
cold water
hot
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Frank W Miller
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61CLOCOMOTIVES; MOTOR RAILCARS
    • B61C8/00Filling stations for steam- or pneumatic-accumulator locomotives or motor railcars
    • 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
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/8593Systems
    • Y10T137/87571Multiple inlet with single outlet
    • Y10T137/87652With means to promote mixing or combining of plural fluids
    • Y10T137/8766With selectively operated flow control means
    • Y10T137/87668Single actuator operates plural flow control means
    • 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
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T137/00Fluid handling
    • Y10T137/8593Systems
    • Y10T137/87571Multiple inlet with single outlet
    • Y10T137/87676With flow control
    • Y10T137/87684Valve in each inlet
    • Y10T137/87692With common valve operator

Definitions

  • the object of my invention is to provide an improvement in the connections for a system of piping adapted to lead wash water and feed water to a boiler.
  • the invention relates to the means foi controlling the relative proportion of hot and cold water supplied to the boiler.
  • Figure 1 is an elevation showing my improved system
  • Fig. 2 is an elevation of a detail thereof on an enlarged scale.
  • a main pipe 15 extends through the roundhouse passing near each of the engine stalls'and has branches 47 with connections 48 b which. the dirty water in the boiler may e blown o ,into the conduit 15.
  • conduit 15 delivers the blow-ofi ⁇ Water into the branch 16 and thence into the head 18 of the heat transferrin apparatus 17.
  • This has a plurality of tu es 19 extendin between the two heads 18 and 20, an the blow-off water passes from the head 18 through tubes 19 into the head 20. From the latter, steam may escape through the pipe 21; hot water may be drawn ofi' for further use through the pipe 22, or the hot water may be sent to the sewer through the pipe 23.
  • a cold Water supply pipe 25 leads into the drum 17 around the tubes 19. An outlet from this drum is aiorded by the pipe 26 which passes along the axis of the pipe 16 into the main pipe 27, which is in the axis of the conduit 15.
  • a cold Water main 30 extends through the roundhouse with a branch 31 at each locomotive stall.
  • the hotwater pipe 28 leads through a valve 33 and a branch 32 to the mixing chamber 34, and the cold water pipe 31 leads through a rotary valve 35 and pipe 36 to the same mixing chamber.
  • a pipe 37 leads through the valve 38 to the locomotive.
  • Above the mixing chamber 34 is a cross pipe 39 with a rotary valve 42 therein connecting the hot water pipe 28 and the cold water pipe 31.
  • a branch 40 leads to a pump 41 and thence to the drum 17.
  • the arm 43 on the valve 35 has a handle 44 and is connected by a link 46 to the arm 45 of the valve 42.
  • the cross pipe 39 delivers into the pipe 36 by means of a nozzle 49.
  • blow-off water from the various locomotives in the roundhouse is delivered into the conduit 15 and thence finds its way through the branch 16 through the heat transferring apparatus 17, where it gives up heat to the water delivered b the pump 24 into the space surrounding t e tubes 19.
  • the water thus heated goes into the main 27, and by the principle of counterilow may be made nearly as hot as the blow-off water from the boiler.
  • valve 35 in t e cold water pipe and the valve 42 in the branch from thehot water ipe are oonnected in the manner that been described., so that any eilort to open the cold Water valve must necessarily open the hot water valve to a considerable extent. Thus it is never possible for a workman to use water that is too cold for washing the boiler.
  • the nozzle 49 and the mixing chamber 34' secure thorough intermingling of the hot and cold Water. But when it is desired to put hot Water alone into the boiler, as in refillin it, this may be done by opening the va ve 33.
  • the pump 41 keeps the Water in tlie hot water main circu lating, so that the Water in the branch pipe 28 shall not become cold.

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  • Engineering & Computer Science (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Cleaning In General (AREA)

Description

UNITED sTATEsingrENT OFFICE.
IFRANK W. MILLER, 0F CHICAGG, ILLINOIS.
BOILER WASHOUT AND REFILLING SYSTEM.
Patented Aug. 22, 1911.
Application led February 17, 1908, Serial No. 416,216. Renewed July 5, 1911. Serial No. 636,996.
To all whom it may concern:
Be it known that I, FRANK W. MILLER, a citizen of the United States, residin at Chicago, in the county of Cook and l tate of Illinois, have invented certain new and useful Improvements in Boiler Washout and Relilling Systems, of which the following is a specification.
The object of my invention is to provide an improvement in the connections for a system of piping adapted to lead wash water and feed water to a boiler.
I have illustrated my invention as applied to a locomotive boiler, but I desire to have it understood that it may be used for any steam boiler. l
The invention relates to the means foi controlling the relative proportion of hot and cold water supplied to the boiler.
In washin locomotive boilers in the round-house 1t is important to avoid sudden or extreme changes of temperature because the unequal contractions and expansions set up thereby are liable to strain the rivets or other parts and thus seriously damage the boiler. Hence it becomes desirable to arrange the valves controlling the Wash water supply pipes so that it shall be impossible to turn cold water into the boiler after the hot has been blown oft therefrom. In addition to this it is desirable to arrange a simultaneous control for both the hot and cold water conduits so that the water may be mixed with a minimum necessity for care on the part of the attendant. When itis considered that the labor of washing a boiler is easier for the operators by using cold water, it becomes obvious that there is a tem tation to lighten their labor in this way at tiie expense of the boiler. The men who ordinarily do the work of boiler washing in the round-houses are not highly skilled or highly paid operativesand for this as well as the other reasons I believe that there is great advantage in employing my invention so as to make it impossible for them to damage the boiler by the use of cold water.
Re erring to the drawings- Figure 1 is an elevation showing my improved system, and Fig. 2 is an elevation of a detail thereof on an enlarged scale.
A main pipe 15 extends through the roundhouse passing near each of the engine stalls'and has branches 47 with connections 48 b which. the dirty water in the boiler may e blown o ,into the conduit 15. The
conduit 15 delivers the blow-ofi` Water into the branch 16 and thence into the head 18 of the heat transferrin apparatus 17. This has a plurality of tu es 19 extendin between the two heads 18 and 20, an the blow-off water passes from the head 18 through tubes 19 into the head 20. From the latter, steam may escape through the pipe 21; hot water may be drawn ofi' for further use through the pipe 22, or the hot water may be sent to the sewer through the pipe 23. A cold Water supply pipe 25 leads into the drum 17 around the tubes 19. An outlet from this drum is aiorded by the pipe 26 which passes along the axis of the pipe 16 into the main pipe 27, which is in the axis of the conduit 15. At each locomotive stall a branch 28 is taken olf leading to thel locomotive 29. A cold Water main 30 extends through the roundhouse with a branch 31 at each locomotive stall. The hotwater pipe 28 leads through a valve 33 and a branch 32 to the mixing chamber 34, and the cold water pipe 31 leads through a rotary valve 35 and pipe 36 to the same mixing chamber. From this mixing chamber a pipe 37 leads through the valve 38 to the locomotive. Above the mixing chamber 34 is a cross pipe 39 with a rotary valve 42 therein connecting the hot water pipe 28 and the cold water pipe 31. From this cross pipe a branch 40 leads to a pump 41 and thence to the drum 17. The arm 43 on the valve 35 has a handle 44 and is connected by a link 46 to the arm 45 of the valve 42. The cross pipe 39 delivers into the pipe 36 by means of a nozzle 49.
The blow-off water from the various locomotives in the roundhouse is delivered into the conduit 15 and thence finds its way through the branch 16 through the heat transferring apparatus 17, where it gives up heat to the water delivered b the pump 24 into the space surrounding t e tubes 19. The water thus heated goes into the main 27, and by the principle of counterilow may be made nearly as hot as the blow-off water from the boiler. When it is desired to wash the boiler itis imperative that the water should not ,be cold else it will cause unequal contraction of the boiler shell and conseuent damage. Therefore, the valve 35 in t e cold water pipe and the valve 42 in the branch from thehot water ipe are oonnected in the manner that been described., so that any eilort to open the cold Water valve must necessarily open the hot water valve to a considerable extent. Thus it is never possible for a workman to use water that is too cold for washing the boiler. The nozzle 49 and the mixing chamber 34' secure thorough intermingling of the hot and cold Water. But when it is desired to put hot Water alone into the boiler, as in refillin it, this may be done by opening the va ve 33. y The pump 41 keeps the Water in tlie hot water main circu lating, so that the Water in the branch pipe 28 shall not become cold.
It will be Seen that I have provided a system by which it is impossible to supply cold water to the boiler Without the admixture of a suicient amount of hot water to modify its temperature to'a desirable extent, but it is possible at any time to supply hot water Without mixing in the cold water.
I claim:
1. In a. system for supplying Water to a boiler, the combination with a hot water sup ly conduit leading to the boiler, of a co1 Water supply conduit also leading to the boiler, a cross conduit connecting said hot and cold Water conduits, a valve in said hot water conduit intermediate of said cross conduit and the boiler, and vulve mechanism for controlling the flow throufgh the 1,
cold water conduit and Simultaneous y controlling the fiow of hot water through said the flow of hot Water through said cross con! duit to the cold Water conduit.
FRANK W. MILLER.
Witnesses:
GEO. L. WILKINSON, ANNA L. SAVOIE.
Copies o'f this patent Inay 'be obtained for ve cents each, by addressing the Commissioner of Patents, Washington, C.
US1911636996 1911-07-05 1911-07-05 Boiler washout and refilling system. Expired - Lifetime US1001293A (en)

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