US718819A - Feed-water heater. - Google Patents

Feed-water heater. Download PDF

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Publication number
US718819A
US718819A US10742602A US1902107426A US718819A US 718819 A US718819 A US 718819A US 10742602 A US10742602 A US 10742602A US 1902107426 A US1902107426 A US 1902107426A US 718819 A US718819 A US 718819A
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Prior art keywords
pump
pipe
engine
feed
cylinder
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US10742602A
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Goerge F Conner
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Priority to US138085A priority patent/US741627A/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01KSTEAM ENGINE PLANTS; STEAM ACCUMULATORS; ENGINE PLANTS NOT OTHERWISE PROVIDED FOR; ENGINES USING SPECIAL WORKING FLUIDS OR CYCLES
    • F01K7/00Steam engine plants characterised by the use of specific types of engine; Plants or engines characterised by their use of special steam systems, cycles or processes; Control means specially adapted for such systems, cycles or processes; Use of withdrawn or exhaust steam for feed-water heating
    • F01K7/16Steam engine plants characterised by the use of specific types of engine; Plants or engines characterised by their use of special steam systems, cycles or processes; Control means specially adapted for such systems, cycles or processes; Use of withdrawn or exhaust steam for feed-water heating the engines being only of turbine type
    • F01K7/22Steam engine plants characterised by the use of specific types of engine; Plants or engines characterised by their use of special steam systems, cycles or processes; Control means specially adapted for such systems, cycles or processes; Use of withdrawn or exhaust steam for feed-water heating the engines being only of turbine type the turbines having inter-stage steam heating
    • F01K7/24Control or safety means specially adapted therefor
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01DNON-POSITIVE DISPLACEMENT MACHINES OR ENGINES, e.g. STEAM TURBINES
    • F01D11/00Preventing or minimising internal leakage of working-fluid, e.g. between stages
    • F01D11/02Preventing or minimising internal leakage of working-fluid, e.g. between stages by non-contact sealings, e.g. of labyrinth type
    • F01D11/04Preventing or minimising internal leakage of working-fluid, e.g. between stages by non-contact sealings, e.g. of labyrinth type using sealing fluid, e.g. steam

Definitions

  • This invention relates to feed-water heaters of the type wherein the temperature of the water is raised before it passes through the feed-pump,and especially to means whereby the exhaust-steam of the engine may be utilized by direct condensation and whereby the difficulty arising from the collecting of gas and air in the feed-pump and its connections is obviated.
  • the invention is hereinafter shown and described as adapted for use with a portable engine. It may be used in connection with any type of engine.
  • Figure 1 is a view in elevation, showing an engine and boiler fitted with a feed-pump and connections embodying the features of the invention.
  • Fig. 2 is a View in longitudinal section through the barrel of the pump.
  • Fig. 3 is a view in crossseotion on line 3 3 of Fig. 2.
  • A represents a horizontal engine of the usual portable type, mounted upon a boiler A in the customary manner.
  • a single-acting horizontal pump B is suitably secured to the engine-frame or the boiler, its piston 19 being operatively connected to the cross-head of the engine by a
  • a suction-pipe 0 leads from the feed-water tank or other source of supply to the outboard end of the pump-cylinder through a controlling stop-cock c and checkvalve 0.
  • said pipe is carried back to the fire-box end of the boiler, so that the controlling-valves are within easy reach of the engine-driver.
  • Said pipe 0 is not carried in a right line from the stop-cocks to the pump, but is provided with a T 0 to the outer end of which an air-chamber D is connected.
  • An exhaust-steam pipe E leads from the steam-chest a of the engine, through a controlling-Valve e, to the suction-pipe O,
  • the pump discharges through a pressure-chamber F of the usual type and a check-valve f into a pipe G, which enters the boiler.
  • a stop-cock f is provided in this pipe to control the flow.
  • the usual overflow-pipe H, with its controlling valve h, is connected to this discharge-pipe, and, as shown herein, a long stem h, provided at its outer end with a handle, permits the manipulation of the valve from the drivers station.
  • the overflow-pipe H performs the usual oflice of relieving the pump when the engine is first started up.
  • the latter comprises apumpbarrel b, in which the piston b reciprocates in unison with the cross-head of the engine.
  • Said piston b is cylindrical, while the bore of the pump-barrel is shaped in cross-section,
  • This arrangement provides an air-space in the cylinder above the piston.
  • the vertical diameter of the pump-bore is gradually increased in length from either end of the cylinder until the discharge-aperture b is reached.
  • the vertical diameter reaches its greatest length, and a gland or upward swelling in the cylinder itself carries the wall at this point still farther away from the piston.
  • the operation of the device is as follows: After starting the pump through the open overflow the latter is closed, and the exhauststeam from the engine is then introduced through the regulating-cock into the suctionpump. Through the synchronous action of the engine and pump the exhaust-steam enters the cylinder of the pump at each outstroke of the cylinder, so as to thoroughly heat the body of water therein, the steam itself condensing, while the gas and air accompanying it collect in the chamber above the piston, as already shown, and are carried out through the pressure-chamber of the pump.
  • the vacuum in the pump-cylinder is never perfect, but is constant, and as a result the pump is easily adjusted to take care of the air and gas brought into its barrel and does not check or jump, as it otherwise might do.
  • the air-chamber D connected to the T in the feed-water pipe, also serves as a collecting-chamber to the air and aids in cushioning the pipe and preventing to a large extent the formation of a water-hammer therein, due to the sudden condensation of the steam after striking the cold body of water, the air in the chamber returning into the pipe and effectually eliminating the formation of a vacuum therein.
  • a feed-water heater the combination with a steam-engine and feed-pump operated thereby, having a recess extending longitudinally along the inner face of its cylinder above the path of travel of the piston, of a suction-pipe discharging into the pump-cylinder, a steam-pipe leading from the exhaust of the engine into the suction-pipe, and a discharge-pipe leading from the pump to the engine-boiler.
  • a feed-water heater having a recess extending longitudinally along the inner face of the cylinder above the path of travel of the piston, of a suction-pipe discharging into the pump-cylinder, a check-valve in said pipe, an airchamber opening into said pipe between said check-valve and the pump, a steam-pipe leading from the exhaust of the engine discharging into the suction-pipe between the checkvalve and pump, and a discharge-pipe leading from the pump-outlet to the boiler.
  • the combination with a steam-engine and feed-pump operated thereby having a recess extending longitudinally along the inner face of its cylinder above the path of travel of the piston, Whose height reaches its maximum at the dischargeport of the cylinder, of a suction-pipe discharging into the pump-cylinder, a steampipe leading from the exhaust of the engine into the suction-pipe, and a discharge-pipe leading from the pump to the engine-boiler.
  • a feed-water heater having a recess extending longitudinally along the inner face of the cylinder above the path of travel of the piston, whose height reaches its maximum at the dischargeport of the cylinder, of a suction-pipe discharging into the pump-cylinder, a checkvalve in said pipe, an air-chamber opening into said pipe between said check-valve and the pump, a steam-pipe leading from the exhaust of the engine, discharging into the suction-pipe between the check-valve and the pump, and a discharge-pipe leading from the pump-outlet to the boiler.
  • asingle-acting feed-pump comprising a horizontal cylinder having a recess extending longitudinally along the inner face of the cylinder, above the piston, Whose height reaches its maximum at the dischargeport of said cylinder, a piston whose stem is operatively connected to the engine, a feedpipe leading from the discharge of said pump to the boiler, a pressure-chamber opening into said pipe, a suction-pipe discharginginto said pump-cylinder, a check-valve in said suctionpipe, a pressure-chamber opening into said suction-pipe between said check-valve and said cylinder, a steam-pipe leading from the exhaust of said engine and discharging into said suction-pipe between said check-valve and air-chamber, and a check-valve in said steam-pipe.

Description

'PATENTED JAN..20, 190B.
G; PQGONNER, I FEED WATER HEATER.
APPLICATION FILED MAY 15, 1902.
I0 MODEL.
l MVWIIV$ I George. .71" 6'01: 72 er:
film-2225 n RRIS pzrzns 1:0 PHOTO UNITED STATES PATENT OFFICE.
GEORGE F. CONNER, OF PORT HURON, MICHIGAN.
FEED-WATER H EATER.
SPECIFICATION forming part of Letters Patent No. 718,819, dated January 20, 1903.
Application filed May 15, 1902. Serial No. 107,426. (No model.)
To a whom it may concern/.-
Be it known that I, GEORGE F. CONNER, a citizen of the United States of America, residing at the city of Port Huron, in the county of St. Clair and State of Michigan, have invented new and useful Improvements in Feed-Water Heaters, of which the following rigid arm a.
is a full, clear, and exact specification.
This invention relates to feed-water heaters of the type wherein the temperature of the water is raised before it passes through the feed-pump,and especially to means whereby the exhaust-steam of the engine may be utilized by direct condensation and whereby the difficulty arising from the collecting of gas and air in the feed-pump and its connections is obviated.
The invention consists in the matters hereinafter set forth and more particularly pointed out in the appended claims.
The invention is hereinafter shown and described as adapted for use with a portable engine. It may be used in connection with any type of engine.
In the drawings, Figure 1 is a view in elevation, showing an engine and boiler fitted with a feed-pump and connections embodying the features of the invention. Fig. 2 is a View in longitudinal section through the barrel of the pump. Fig. 3 is a view in crossseotion on line 3 3 of Fig. 2.
Referring to the drawings, A represents a horizontal engine of the usual portable type, mounted upon a boiler A in the customary manner. A single-acting horizontal pump B is suitably secured to the engine-frame or the boiler, its piston 19 being operatively connected to the cross-head of the engine by a A suction-pipe 0 leads from the feed-water tank or other source of supply to the outboard end of the pump-cylinder through a controlling stop-cock c and checkvalve 0. As herein indicated, said pipe is carried back to the fire-box end of the boiler, so that the controlling-valves are within easy reach of the engine-driver. Said pipe 0 is not carried in a right line from the stop-cocks to the pump, but is provided with a T 0 to the outer end of which an air-chamber D is connected. An exhaust-steam pipe E leads from the steam-chest a of the engine, through a controlling-Valve e, to the suction-pipe O,
which it enters between the air-chamber D and the controlling-cock c. The pump discharges through a pressure-chamber F of the usual type and a check-valve f into a pipe G, which enters the boiler. A stop-cock f is provided in this pipe to control the flow. The usual overflow-pipe H, with its controlling valve h, is connected to this discharge-pipe, and, as shown herein, a long stem h, provided at its outer end with a handle, permits the manipulation of the valve from the drivers station. The overflow-pipe H performs the usual oflice of relieving the pump when the engine is first started up.
Referring now especiallyto the construction of the pump, the latter comprises apumpbarrel b, in which the piston b reciprocates in unison with the cross-head of the engine. Said piston b is cylindrical, while the bore of the pump-barrel is shaped in cross-section,
as indicated. This arrangement provides an air-space in the cylinder above the piston. The vertical diameter of the pump-bore is gradually increased in length from either end of the cylinder until the discharge-aperture b is reached. Here the vertical diameter reaches its greatest length, and a gland or upward swelling in the cylinder itself carries the wall at this point still farther away from the piston. As a result of this construction in the pump any air which may enter through the suction-pipe collects in the top of the cylinder and readily escapes through the discharge-port of the pump without interfering in any manner with the vacuum of the pump that is to say, by the collection of the air in this upper chamber and its constant passage therethrough at each outstroke of the pump the degree of exhaust in the barrel is practically constant and as a result the water is forced out of the pump at a constant head.
The operation of the device is as follows: After starting the pump through the open overflow the latter is closed, and the exhauststeam from the engine is then introduced through the regulating-cock into the suctionpump. Through the synchronous action of the engine and pump the exhaust-steam enters the cylinder of the pump at each outstroke of the cylinder, so as to thoroughly heat the body of water therein, the steam itself condensing, while the gas and air accompanying it collect in the chamber above the piston, as already shown, and are carried out through the pressure-chamber of the pump. Of course the vacuum in the pump-cylinder is never perfect, but is constant, and as a result the pump is easily adjusted to take care of the air and gas brought into its barrel and does not check or jump, as it otherwise might do. The air-chamber D, connected to the T in the feed-water pipe, also serves as a collecting-chamber to the air and aids in cushioning the pipe and preventing to a large extent the formation of a water-hammer therein, due to the sudden condensation of the steam after striking the cold body of water, the air in the chamber returning into the pipe and effectually eliminating the formation of a vacuum therein.
The details of construction may of course be varied to adapt the apparatus to different forms of engines, and the inventor does not limit himself to any particular forms of construction except as set forth in the appended claims.'
I claim as my invention 1. In a feed-water heater, the combination with a steam-engine and feed-pump operated thereby, having a recess extending longitudinally along the inner face of its cylinder above the path of travel of the piston, of a suction-pipe discharging into the pump-cylinder, a steam-pipe leading from the exhaust of the engine into the suction-pipe, and a discharge-pipe leading from the pump to the engine-boiler.
2. In a feed-water heater, the combination with a steam-engine and feed-pu mp operated thereby, having a recess extending longitudinally along the inner face of the cylinder above the path of travel of the piston, of a suction-pipe discharging into the pump-cylinder, a check-valve in said pipe, an airchamber opening into said pipe between said check-valve and the pump, a steam-pipe leading from the exhaust of the engine discharging into the suction-pipe between the checkvalve and pump, and a discharge-pipe leading from the pump-outlet to the boiler.
3. In a feed-water heater, the combination with a steam-engine and feed-pump operated thereby, having a recess extending longitudinally along the inner face of its cylinder above the path of travel of the piston, Whose height reaches its maximum at the dischargeport of the cylinder, of a suction-pipe discharging into the pump-cylinder, a steampipe leading from the exhaust of the engine into the suction-pipe, and a discharge-pipe leading from the pump to the engine-boiler.
4. In a feed-water heater, the combination with a steam-engine and feed-pump operated thereby, having a recess extending longitudinally along the inner face of the cylinder above the path of travel of the piston, whose height reaches its maximum at the dischargeport of the cylinder, of a suction-pipe discharging into the pump-cylinder, a checkvalve in said pipe, an air-chamber opening into said pipe between said check-valve and the pump, a steam-pipe leading from the exhaust of the engine, discharging into the suction-pipe between the check-valve and the pump, and a discharge-pipe leading from the pump-outlet to the boiler.
5. In a feed-water heater for the boiler of ahorizontal engine, asingle-acting feed-pump comprising a horizontal cylinder having a recess extending longitudinally along the inner face of the cylinder, above the piston, Whose height reaches its maximum at the dischargeport of said cylinder, a piston whose stem is operatively connected to the engine, a feedpipe leading from the discharge of said pump to the boiler, a pressure-chamber opening into said pipe, a suction-pipe discharginginto said pump-cylinder, a check-valve in said suctionpipe, a pressure-chamber opening into said suction-pipe between said check-valve and said cylinder, a steam-pipe leading from the exhaust of said engine and discharging into said suction-pipe between said check-valve and air-chamber, and a check-valve in said steam-pipe.
In testimony whereof I have signed my name to this specification in the presence of two subscribing Witnesses.
GEORGE F. CONNER.
Witnesses:
D. E. PURDY, H. E. HALL.
US10742602A 1902-05-15 1902-05-15 Feed-water heater. Expired - Lifetime US718819A (en)

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US10742602A US718819A (en) 1902-05-15 1902-05-15 Feed-water heater.
US138085A US741627A (en) 1902-05-15 1903-01-07 Pump.

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