US694206A - Hot-water heating system. - Google Patents

Hot-water heating system. Download PDF

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Publication number
US694206A
US694206A US7849501A US1901078495A US694206A US 694206 A US694206 A US 694206A US 7849501 A US7849501 A US 7849501A US 1901078495 A US1901078495 A US 1901078495A US 694206 A US694206 A US 694206A
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water
reservoir
steam
pipe
diaphragm
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US7849501A
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Isaac D Smead
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F22STEAM GENERATION
    • F22BMETHODS OF STEAM GENERATION; STEAM BOILERS
    • F22B37/00Component parts or details of steam boilers

Definitions

  • the present invention relates to plants of this type, and has for its object the production of a heaterl wherein the steam, exhaust or live, may be utilized to the best advantage and without creating any back pressure in the steam-supply pipe, but rather,
  • A indicates the water reservoir or boiler, provided with adiaphragm B, near its upper end, forming a chamber C between it and the upper end of the boiler, which will be hereinafter referred to as the expansion-chamber.
  • a hopper or funnel-shaped memberD secured to the diaphragm, affords communication be.
  • E indicates the return-line of the heatingsystem and, as will be seen, it enters the reservoir near the bottom thereof, extendsl upwardly therein, and discharges into the eX- pansion-chamber above the diaphragm.
  • the How-line or outgoing pipe F is connected to the lower end of the reservoir, a pump Gr being employed to insure proper circulation of l the water through the heating system.
  • H denotes the pipe leading from the source of exhaust-steam.
  • the pipe extends n p to a point above the boiler through casing I, surrounding the upper end thereof, to the atmosphere.
  • a yvalve J is interposed in the pipe to cause the steam when so desired to pass through a lateral or branch pipe K, the pipe entering the upper end of the boiler and passing down through the funnel or hopper D to a point slightly below the lower end thereof.
  • the lower end of said pipe K is preferably perforated, as shown, and eX- tends downwardly below the point of normal water-level of the boiler.
  • a live-steam pipe L may be connected to the exhaust-steam pipe II, the live steam being employed as an auxiliary to the exhauststeam in severe weather' or being used above when the power plant is not operating, eX- haust-steam being not available at such times.
  • An overflow-pipe (designated by M) is employed, onemember N thereof terminating at a point below the diaphragm and the other, O, extending up through the diaphragm into the upper part of the expansion-chamber.
  • This overflow-pipe permits the oil introduced by the steam to pass out of bothv tanks. It also prevents any pressure caused by overheating of the water and likewise permits an overflow if the system gets full.
  • the reservoir or boiler is of such height or is so elevated that water will be supplied therefrom to the highest radiator included in the system.
  • a fire-chamber is placed below the boiler or reservoir, tubes or iues P passing up there from into the boiler and connecting with a smoke-drum Q.
  • a iiue or stack R extends from the drum out through the boiler to a point above the same. Under ordinary conditions this portion of the apparatus will not be employed, but is provided in order to present an additional factor of safety and employed when for any reason the steam-supply fails. It may be entirely omitted, if so desired.
  • a circulating system in communication therewith; means for withdrawing the water from the lower portion of said reservoir and returning it to the upper end thereof; means for admitting steam to the upper portion of the reservoir and bringing it in intimate contact with the'water as it is returned to the upper end of the reservoir; and a furnace 1ocated below the reservoir.
  • a circulating system in communication therewith; means for withdrawing the water from the lower portion of said reservoir and returning it to the upper end thereof; means for admitting steam to the upper portion of the reservoir and bringing it in intimate contact with the water as it is returned to the upper end of the reservoir; a fire-drum 1ocated within the reservoir; a iiue connected to said drum and extending outwardly through the reservoir above the drum; a fire-chamber located beneath the reservoir; and tubes extending from the fire-chamber to the drum.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Control Of Steam Boilers And Waste-Gas Boilers (AREA)

Description

No. 694,206. v Patente'd-Feh.'25, |902.
I. D.` SMEAD.
IIOT WATER HEATING SYSTEIL (Application led Oct. 12, 1901.) (No Model.) v Z-ShBeIs-Sheet I.
No. 694,206. Patented Feb. 25, |902.
l. n. sMEAn.
HOT WATER HEATING SYSTEM.
Application md ocr. 12, 1901.) (No Mode-I.) 2 Sheets-Sheet 2.
UNITED STATES y"AT'ENT muon.
ISAAC D. SIWIEAD, OF CINCINNATI, OHIO.
HOT-WATER HEATING SYSTEM.
SPECIFICATION forming part of Letters Patent No. 694,206, dated February 25, 1902.
`Application led October 12, 1901. Serial No. 78,495. (No model.)
To all whom t may concern.:
Beit known that I, ISAAC D. SMEAD, a cilizen of the United States, residing at Cincinnati, in the county of Hamilton and State of Ohio, have invented certain new and use ful Improvementsin Hot-Water Heating Systems, of which the following is a specification.
My present invention pertains to hot-water heating systems, the construction and advantages of which will be hereinafter pointed out, reference being had to the annexed drawings, wherein- Figure 1 is a vertical sectional view of a plant constructed in accordance with my invention, and Fig. 2 an enlarged detail View of the upper portion of the reservoir or boiler.
It has heretofore been proposed to utilize exhaust-steam from various forms of power plants in the heating of a body of water and to employ the water'so heated in the warming or heating of buildings and for other commercial purposes. The present invention relates to plants of this type, and has for its object the production of a heaterl wherein the steam, exhaust or live, may be utilized to the best advantage and without creating any back pressure in the steam-supply pipe, but rather,
if at all, tending to draw the steam from the supply-pipe. Y
Referring more particularly to Fig. l, A indicates the water reservoir or boiler, provided with adiaphragm B, near its upper end, forming a chamber C between it and the upper end of the boiler, which will be hereinafter referred to as the expansion-chamber. A hopper or funnel-shaped memberD, secured to the diaphragm, affords communication be.
tween the reservoir or boiler proper and the expansion-chamber.
E indicates the return-line of the heatingsystem and, as will be seen, it enters the reservoir near the bottom thereof, extendsl upwardly therein, and discharges into the eX- pansion-chamber above the diaphragm. The How-line or outgoing pipe F is connected to the lower end of the reservoir, a pump Gr being employed to insure proper circulation of l the water through the heating system.
H denotes the pipe leading from the source of exhaust-steam. As will be seen, the pipe extends n p to a point above the boiler through casing I, surrounding the upper end thereof, to the atmosphere. A yvalve J is interposed in the pipe to cause the steam when so desired to pass through a lateral or branch pipe K, the pipe entering the upper end of the boiler and passing down through the funnel or hopper D to a point slightly below the lower end thereof. The lower end of said pipe K is preferably perforated, as shown, and eX- tends downwardly below the point of normal water-level of the boiler.
A live-steam pipe L may be connected to the exhaust-steam pipe II, the live steam being employed as an auxiliary to the exhauststeam in severe weather' or being used above when the power plant is not operating, eX- haust-steam being not available at such times.
An overflow-pipe (designated by M) is employed, onemember N thereof terminating at a point below the diaphragm and the other, O, extending up through the diaphragm into the upper part of the expansion-chamber. This overflow-pipe permits the oil introduced by the steam to pass out of bothv tanks. It also prevents any pressure caused by overheating of the water and likewise permits an overflow if the system gets full.
It will be understood that the reservoir or boiler is of such height or is so elevated that water will be supplied therefrom to the highest radiator included in the system.
The operation of the apparatus is apparent. Water to a sufficient amount having been admitted to the system, the pump is started, forcing the water through the system and up through the return-pipe E into the'expansion-chamber. It then iiows down through the funnel and around the pipe K, coming into intimate contactwith the steam passing from the pipe. The stream of water passing by the openings and the end of the pipe tends to create a suction in the pipe, and thus` counteract any back pressure which mayexist in the exhaust-steam pipe.v The water in the reservoir is constantly agitated by the stream passing from the funnel, and the steam is thoroughly commingled therewith, the heat of the steam being thus thoroughly utilized.
As will be seen upon reference to Fig. l, a fire-chamber is placed below the boiler or reservoir, tubes or iues P passing up there from into the boiler and connecting with a smoke-drum Q. A iiue or stack R extends from the drum out through the boiler to a point above the same. Under ordinary conditions this portion of the apparatus will not be employed, but is provided in order to present an additional factor of safety and employed when for any reason the steam-supply fails. It may be entirely omitted, if so desired.
I-Iaving thus described my invention, what I claim is- 1. In combination with a water-reservoir; a diaphragm mounted in the upper end thereof a funnel extending down from said diaphragm; a steam-supply pipe passing down through the funnel and terminating at a. point slightly below the same; and means for supplying water to the reservoir at a point above the diaphragm.
2'. In combination with a water-reservoir; a diaphragm mounted in the upper end thereof and provided with an opening; means for withdrawing water from said reservoir and returning the same thereto at a point above the diaphragm; and means for introducing steam into the water as il; flows downwardly through the opening in the diaphragm.
3. In combination with a water-reservoir; a diaphragm secured in the upper portion thereof; a funnel extending downwardly from said diaphragm; means for withdrawing water from the reservoir and returning the same thereto at a point above the diaphragm; and a steam-supply pipe extending down through the funnel.
4. In combination with a water-reservoir; a diaphragm secured in the upper end thereof; a funnel extending downwardly from said diaphragm; a steam-supply pipe extending through the funnel and havinga perforated end, and means for withdrawing water from the reservoir and returning the samethereto at a point above the diaphragm.
5. In combination with a water-reservoir; a diaphragm secured in the upper end thereof a funnel extending downwardly from said diaphragm; a steam-supply pipe extending into said funnel; an overflow-pipe having openings above and below the diaphragm; and means for withdrawing water from the reservoir and returning the same thereto at a point above the diaphragm..
6. In combination with a water-reservoir; a circulating system in communication therewith; means for withdrawing the water from the lower portion of said reservoir and returning it to the upper end thereof; means for admitting steam to the upper portion of the reservoir and bringing it in intimate contact with the'water as it is returned to the upper end of the reservoir; and a furnace 1ocated below the reservoir.
7. In combination with a water-reservoir; a circulating system in communication therewith; means for withdrawing the water from the lower portion of said reservoir and returning it to the upper end thereof; means for admitting steam to the upper portion of the reservoir and bringing it in intimate contact with the water as it is returned to the upper end of the reservoir; a fire-drum 1ocated within the reservoir; a iiue connected to said drum and extending outwardly through the reservoir above the drum; a fire-chamber located beneath the reservoir; and tubes extending from the fire-chamber to the drum.
In testimony whereof I have signed my name to thisv specication in the presence of two subscribing witnesses.
ISAAC D. SMEAD. AWitnesses:
A. M. AINSLIE, BURTON A. SMEAD.
US7849501A 1901-10-12 1901-10-12 Hot-water heating system. Expired - Lifetime US694206A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4834049A (en) * 1988-07-19 1989-05-30 Modern Fibers Incorporated Heat reclaiming system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4834049A (en) * 1988-07-19 1989-05-30 Modern Fibers Incorporated Heat reclaiming system

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