US652618A - Boiler-furnace. - Google Patents
Boiler-furnace. Download PDFInfo
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- US652618A US652618A US784000A US1900007840A US652618A US 652618 A US652618 A US 652618A US 784000 A US784000 A US 784000A US 1900007840 A US1900007840 A US 1900007840A US 652618 A US652618 A US 652618A
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- Prior art keywords
- pipe
- air
- furnace
- doors
- door
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F23—COMBUSTION APPARATUS; COMBUSTION PROCESSES
- F23B—METHODS OR APPARATUS FOR COMBUSTION USING ONLY SOLID FUEL
- F23B5/00—Combustion apparatus with arrangements for burning uncombusted material from primary combustion
- F23B5/02—Combustion apparatus with arrangements for burning uncombusted material from primary combustion in main combustion chamber
Definitions
- This invention is an improvement in boilerfurnaces; and its object is to reduce the expense of operating such furnaces by increasing the efficiency thereof, so that less fuel will be consumed in' producing the necessary amount of heat to maintain the desired'pres sure of steam in the boiler.
- the invention therefore consists in the novel construction of the apparatus for supplying the boiler with mixtures of heated air and gases, and has particular reference to the means for introducing the gaseous mixtures into the fire-chamber through the furnacedoors and in connection therewith novel regulating devices whereby the supply of air and gases will beautomatically controlled, so that when the proper" ste'aln-pressure'has been once obtained the proper supply of the gases and air to maintain same will be automatically regulated.
- FIG. 1 is a front elevation of a boilerfurnace provided with my improved autoi matic air and gas supplying and regulating devices.
- Fig. 2 is a perspective view of one of the doors.
- Fig. 3 is alongitudinal section through Fig. 2.
- Fig. 4 is a vertical section on line 4 4, Fig. 3.
- A designates a boiler-furnace of any preferred construction, 13 the doors leading to the ash-pit, and O the doors leading to the fire-chamber above the grate.
- D is a smoke-flue from the furnace, the escape of the products of combustion thereto being regulated by a sliding damper d.
- a pipe E is agas-return pipe located above the smoke-flue D and communicating therewith by short pipes e, which may be provided with dampers, as shown, and this pipe E communicates by a valved pipe F with a pump f, which is adapted to suck the products of comand discharge the same through pipes Gand 9 into the fire-chamber of the furnace.
- the pump fis also adapted to draw in air and force the same, commingled withthe gases drawn from flue D, into the fire-chamber, the mixture of air and gas forced into the firechamber by fan f ordinarily having a temperature of about 140.
- steam may also be admitted into the pipe G from a pipe H, connected therewith between the fan and the fire-chamber, as indicated in Fig. 1.
- Said pipe may receive steam from the exhaust or take live steam direct from the boiler. It is not necessaryto show the particular connection thereof, such being well understood.
- the doors 0 are provided with an exterior hood or casing I, which forms a chamber on said doors, which chamber is provided with a short pipe J, telescoping with the upper arm of'an elbow-pipej, the lower arm of which is connected to a pipe 9, as indicated in Fig. 2, so as to rotate thereon, and on the upper end of pipe g is preferably fixed one member 7a of a circular valve, the other member K of which-is fixed to pipe j.
- the doors O are also provided with apertures c, communicating with the fire-chamber, which apertures may be closed by suitable valves L, which valves may be connected by a rod Z, so as to operate together, and the upper valve may be loosely connected by a rodM to a link'm, which is in'turn connected to a crank n on a rockshaft N, which is j ournaled in suitable bear- O, this connection betweenthe shaft N and bustion'from pipe D through pipes E and F ings on the front of the furnace above doors IOO cred to the desired point.
- the dampers being such as to permit the doors 0 to be readily opened, and yet when closed will allow the dampers to be operated properly by the rock-shaft N.
- Shaft N is controlled by an automatic regulator O, of any suitableconstruction.
- a steam-regulator may be used, such as is indicated in the drawings, which is connected to the steam-space as usual, and the piston o of this regulator may be connected by a rope P, running over suitable sheaves to a crank 19 on shaft N.
- the particular construction of the regulator and the connection thereof to the shaft is immaterial, the essential feature being that the shaft N shall be automatically rocked, so as to open or close the dampers L, according to the pressure of steam.
- the supply of air and gases may be further controlled by means of a valve Q in pipe G, which is connected to crank 19, (by means of a cord q, operated on a pulley q or other suitable means,) so that valve Q will be closed simultaneously with the closing of dampers L.
- a valve Q in pipe G which is connected to crank 19, (by means of a cord q, operated on a pulley q or other suitable means,) so that valve Q will be closed simultaneously with the closing of dampers L.
- a number of air-inlet openings S which may be closed by suitable slides 8.
- the casings I may be provided with damper-valves i, so that atmospheric air can be admitted directly through the doors 0 when desired.
- the pipe T may be provided with a valve V, which may be operated by suitable connections (such as a cord and pulley o) from the shaft N, as shown in Fig. 1.
- This second airforcing apparatus is used to maintain a sufficient draft of fresh air under the grate to prevent deadening of the fire.
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Thermal Sciences (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
Description
No. 652,6l8. Patentd lune 26, I900.
' A. HYMi *BUILER FURNAFG-EJ (Application filed Mar. 8, 1900.) I (No Model.) 2 Sheets-Sheet I.
J IN
% I alibi 444 154;
m: NORRIS PETERS c0. EHO1OJ \THO.. WMHINGTQN D c Patented June 26, I900.
' No. 652,6I8.
I A. HYMAS. BOILER FURNACE.
(Application filed Mar. 3, 1900.)
2 Sheets$heet 2.
' (No Mpdel.)
F J. llllll 19/444,3 viii/11194 /////4 'NITED STATES PATENT Fries.
ALFRED HYMAS, OF TROY, NEW YORK, 'ASSIGNOR OF TWO-THIRDS TO ROBERT PINKERTON AND ABR YORK.
BOILER- AM MULL, OF GREEN ISLAND, NEW
l-URNAC E SPECIFICATION forming part Of Letters Patent 652,618, dated June 26, 1900. Application filed March 8, 1900. Serial No. 7,840. (No model.) I
To all wh0mit may concern;
Be it known that I,ALFRED HYMAS, of Troy, in the county of Rensselaer and State of New York, have invented certain new and useful Improvements in Boiler-Furnaces; and I hereby declare that the following is a full, clear,and exact description thereof, reference being had to the accompanying drawings, which form part of this specification.
This invention is an improvement in boilerfurnaces; and its object is to reduce the expense of operating such furnaces by increasing the efficiency thereof, so that less fuel will be consumed in' producing the necessary amount of heat to maintain the desired'pres sure of steam in the boiler.
The invention therefore consists in the novel construction of the apparatus for supplying the boiler with mixtures of heated air and gases, and has particular reference to the means for introducing the gaseous mixtures into the fire-chamber through the furnacedoors and in connection therewith novel regulating devices whereby the supply of air and gases will beautomatically controlled, so that when the proper" ste'aln-pressure'has been once obtained the proper supply of the gases and air to maintain same will be automatically regulated.
The invention will be sufficiently understood from the following description in connection with the accompanying drawings, in
whicha Figure 1 is a front elevation of a boilerfurnace provided with my improved autoi matic air and gas supplying and regulating devices. Fig. 2 is a perspective view of one of the doors. Fig. 3 is alongitudinal section through Fig. 2. Fig. 4 is a vertical section on line 4 4, Fig. 3.
A designates a boiler-furnace of any preferred construction, 13 the doors leading to the ash-pit, and O the doors leading to the fire-chamber above the grate.
D is a smoke-flue from the furnace, the escape of the products of combustion thereto being regulated by a sliding damper d.
E is agas-return pipe located above the smoke-flue D and communicating therewith by short pipes e, which may be provided with dampers, as shown, and this pipe E communicates by a valved pipe F with a pump f, which is adapted to suck the products of comand discharge the same through pipes Gand 9 into the fire-chamber of the furnace. The pump fis also adapted to draw in air and force the same, commingled withthe gases drawn from flue D, into the fire-chamber, the mixture of air and gas forced into the firechamber by fan f ordinarily having a temperature of about 140. If desired, steam may also be admitted into the pipe G from a pipe H, connected therewith between the fan and the fire-chamber, as indicated in Fig. 1. Said pipe may receive steam from the exhaust or take live steam direct from the boiler. It is not necessaryto show the particular connection thereof, such being well understood.
Preferably the doors 0 are provided with an exterior hood or casing I, which forms a chamber on said doors, which chamber is provided with a short pipe J, telescoping with the upper arm of'an elbow-pipej, the lower arm of which is connected to a pipe 9, as indicated in Fig. 2, so as to rotate thereon, and on the upper end of pipe g is preferably fixed one member 7a of a circular valve, the other member K of which-is fixed to pipe j. By reason of the telescopic connection of pipe j with pipe J and its rotatable connection with pipe 9 the door 0 can be swung open as needed without breaking the connection between casing I and pipe g, but when so swung open the valve K will be automatically closed, so that the gaseous mixture will not be blown into the room or into the face of the fireman, but upon the closing of door 0 the valve K will be opened. The doors O are also provided with apertures c, communicating with the fire-chamber, which apertures may be closed by suitable valves L, which valves may be connected by a rod Z, so as to operate together, and the upper valve may be loosely connected by a rodM to a link'm, which is in'turn connected to a crank n on a rockshaft N, which is j ournaled in suitable bear- O, this connection betweenthe shaft N and bustion'from pipe D through pipes E and F ings on the front of the furnace above doors IOO cred to the desired point.
the dampers being such as to permit the doors 0 to be readily opened, and yet when closed will allow the dampers to be operated properly by the rock-shaft N.
Shaft N is controlled by an automatic regulator O, of any suitableconstruction. Preferably a steam-regulator may be used, such as is indicated in the drawings, which is connected to the steam-space as usual, and the piston o of this regulator may be connected by a rope P, running over suitable sheaves to a crank 19 on shaft N. The particular construction of the regulator and the connection thereof to the shaft is immaterial, the essential feature being that the shaft N shall be automatically rocked, so as to open or close the dampers L, according to the pressure of steam. In addition the supply of air and gases may be further controlled by means of a valve Q in pipe G, which is connected to crank 19, (by means of a cord q, operated on a pulley q or other suitable means,) so that valve Q will be closed simultaneously with the closing of dampers L. In the front of the furnace and communicating with the firechamber is a number of air-inlet openings S, which may be closed by suitable slides 8. If desired, the casings I may be provided with damper-valves i, so that atmospheric air can be admitted directly through the doors 0 when desired.
Atmospheric air is supplied directly to the ash=pits of the furnace by means of valved pipes t, communicating directly with the air supply pipe T, leading from an air-pump U. The pipe T may be provided with a valve V, which may be operated by suitable connections (such as a cord and pulley o) from the shaft N, as shown in Fig. 1. This second airforcing apparatus is used to maintain a sufficient draft of fresh air under the grate to prevent deadening of the fire.
In operation part of the products of combustion are sucked back from the flue D through the pipes E F by the pump f and mingled with the air and forced through the 'pipes G g to and through the doors 0 above or less close the valves V and Q and dampers- L until the temperature and pressure are low- If the pressure falls, the valves and dampers will be opened, so as to give a full supply of air and gases to the furnace, which will rapidly promote GOlIlbustion and quickly raise the steam to the desired pressure.
' What I claim as new is-=- 1. In a boiler-furnace, the combination of a pipe for Withdrawing gases from the smokeflue, a pump for sucking the gases through said pipe, pipes connecting the pump with the doors of the furnace, said doors being provided with chambers into which the gases are admitted, and with openings leading into the furnace, means for regulating these openings automatically, and connections between said chambered doors and the pipes whereby the doors may be opened without destroying the connection. v
. 2. The combination in aboilerfu'rnace, of a pipe for withdrawing gases from the smokefiue, a pump for sucking the gases through said pipe,pipes for connecting the fan or pump with the doors of the furnace, said doors being provided with chambers into which the gases are admitted, and with openings leading into the furnace, provided with dampers, an automatic regulator and connections be tween said regulator and the dampers in the doors whereby the latter may be regulated automatically, and a valve in the air-pipe adapted to be automatically closed when the doors are opened.
3. The combination in a boiler-furnace, an.
air pump and pipes for forcing air into the ash-pit of the furnace, an air pump and pipes for forcing air into the fire-chamber of the furnace, a pipe connecting the latter pump with the smoke-flue for drawing gases there from and returning same to the fire-chamber, and'a series of openings in the walls of the furnace leading to the lire-chamber, and slides covering said openings; with an automatic regulator and connections between said regu lator and the valves in the said pipes, whereby the supply of the air to the ash-pit and the supply of mixed air and gas to the fire-chamher are automatically regulated.
4. The combination of the furnace-door, the
casing attached thereto, a pipe telescoping into said casing and having a swinging con nection with an air-supply pipe whereby the door may be opened without destroying the connection between the air-pipe and casing and a valve in the hinge-joint of said pipes whereby the air will be shut 0% when the door is opened.
5. The combination of the furnace -door provided with apertures, the casing attached thereto, a pipe and pump for withdrawing products of combustion from the smoke-flue, a pipe connected to said casing having a connection with said smoke-withdrawing pipe such that the door may be opened without-destroying the connection between the air-pipe and easing, dampers for closing the apertures in said door for admitting air to the furnace, an automatic regulator, and connections between said dampers and regulator whereby the latter are controlled by said regulator, for
the purpose and substantially as described.
6. The combination of the furnace-door provided with apertures, the casing attached thereto, a pipe telescoping into said casing and having a hinged connection with an airsupply pipe whereby the door may be opened without destroying the connection, between the air-pipe and casing, and a valve in the hinge-joint of 'saidpipe whereby the air will be shut off when the door is opened, dampers esaeis e for closing the apertures in said door for admitting air to the furnace, an automatic regulator, and connections between said regulator and the said dampers whereby the latter are opened or closed by said regulator, for the purpose and substantially as described.
7. The combination of the furnace-door, the casing attached thereto, a pipe telescoping into said casing and having a hinged connection with an air-supply pipe, whereby the door may be opened without destroying the connection between the air-pipe and casing, and a valve in the hinged joint of said pipe whereby the air will be shut off when the door is opened; with a pump and pipe for withdrawing gases from the smoke-flue, a pipe leading from said pump to said furnace-doors, an air pump and pipe for supplying air .to the ash-pit of the furnace, and means whereby the supply of air and gas is automatically con-' trolled, all substantially as and for the purpose described.
8. The combination of the furnace door provided with apertures, the casing attached thereto, a pipe connected to said casing and having a hinged connection with an air-supply pipe whereby the door may be opened without destroying the connection between the air-pipe and casing, dampers for closing the apertures in said door for admitting air to the furnace, an automatic regulator, a rock-shaft operated thereby and connections between said rock-shaft and the said dampers whereby the latter are opened or closed by said regulator; with a pump and pipe for withdrawing gases from the smoke-flue, and a pipe leading from said pump to said furnace-doors; an air pump and pipe for supplying air to the ash-pitof the furnace, valves in said air and gas pipe, and connections between said valve and said rock-shaft whereby the supply of air and gas is automatically controlled by said regulator, all substantially as and for the purpose described.
In testimony that I claim the foregoing as my own I affix my signature in presence of two witnesses.
ALFRED l-IYMAS.
Witnesses:
J AMES R. MANSFIELD, T. H. ALEXANDER.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US784000A US652618A (en) | 1900-03-08 | 1900-03-08 | Boiler-furnace. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US784000A US652618A (en) | 1900-03-08 | 1900-03-08 | Boiler-furnace. |
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US652618A true US652618A (en) | 1900-06-26 |
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US784000A Expired - Lifetime US652618A (en) | 1900-03-08 | 1900-03-08 | Boiler-furnace. |
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1900
- 1900-03-08 US US784000A patent/US652618A/en not_active Expired - Lifetime
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