US186535A - Improvement in caloric-engines - Google Patents
Improvement in caloric-engines Download PDFInfo
- Publication number
- US186535A US186535A US186535DA US186535A US 186535 A US186535 A US 186535A US 186535D A US186535D A US 186535DA US 186535 A US186535 A US 186535A
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- US
- United States
- Prior art keywords
- engine
- valve
- air
- caloric
- lever
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
- 239000000446 fuel Substances 0.000 description 4
- 239000010985 leather Substances 0.000 description 4
- 229920002456 HOTAIR Polymers 0.000 description 2
- 206010022114 Injury Diseases 0.000 description 2
- OKTJSMMVPCPJKN-UHFFFAOYSA-N carbon Chemical compound [C] OKTJSMMVPCPJKN-UHFFFAOYSA-N 0.000 description 2
- 239000003245 coal Substances 0.000 description 2
- 239000000126 substance Substances 0.000 description 2
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02C—GAS-TURBINE PLANTS; AIR INTAKES FOR JET-PROPULSION PLANTS; CONTROLLING FUEL SUPPLY IN AIR-BREATHING JET-PROPULSION PLANTS
- F02C1/00—Gas-turbine plants characterised by the use of hot gases or unheated pressurised gases, as the working fluid
- F02C1/04—Gas-turbine plants characterised by the use of hot gases or unheated pressurised gases, as the working fluid the working fluid being heated indirectly
- F02C1/10—Closed cycles
Definitions
- This invention pertains to certain improvements in caloric-engines, whereby an engine may be causedto work at variable pressures, independentof the pressure due tothe expansion of the air in the heater and the invention consists, chiefly, in the combination, with the inlet and exhaust valvesof a caloric-engine, of a cut-off mechanism, with double eccentrics,'whereby the engine may work with a full exhaust and cut-off at any desired point of the. stroke, and by which" an increase of pressure is provided in the fire-box greater than is due to the initial expansionof the air,
- the bed-plate of the engine on the under side of which is shown the coldair passage B, or channel-way from the air pump at G to the heaterat D.
- the workingcyli'nder is shown at E, and the connectingrod of the piston at F is attached to one end of a working-beam, as at G, to the opposite end of which the. pitman H is connected for giving motion to.
- the crank-shaft K upon which is the driving-pulley or fly-wheel, indicated in Fig. 1 bythe circle in a broken line, as at L.
- the fuel is supplied to the heater through the hopper or feeder at N, the top of which can be removed to introduce the coal, the bottom being closed by a valve, as at N to prevent the escape of the air when the engine is working, but which is dropped or opened as soon asthe cover is fastened on the top to resist the pressure of the air in the heater.
- the valve N is of very large area it will be very diflicult to force it down against the air-pressure in the heater. Therefore, to give.
- a tube as at N, connects the lower chamber or heater with the upper one, and it is provided with a valve or stop-cock, so that as soon as the cover is replaced the air from the heater is let into the fuel-chamber, and balances the pressure on the valve N when it drops, and permits the fuel to descend upon the grate-bars below.
- U is operated to charge the heater with a sufficient supply of air to set the engine in motion after being heated; and, to enable the operator to start the machine without working against avacuum below the piston, there is provided an adjustable lever, as at W, in combination with the lever that lifts the in let-valve, so that the air may be worked full stroke at the start, and then reduced to whatever it is desired to run the engine at afterward.
- This adjustable lever W is pivoted in the upper end of the inlet-valve stem, and it is vibrated and held by a hand-screw, W, which works through a ball in a socket in the end of the lever 0 and through a nut in the end of the lever W, and in this manner the two vibrate together to a certain extent; but one end of the lever W is turned down, as shownin the drawings, and is set over to one side of the lifting-lever 0 so that the curved end will be over the arm that works the .exhaust-valve; consequently, when it is desired for the inlet-valve to be held open to the full stroke the hand-screw is turned until the lever W is raised to the position shown in the dotted lines, and thereby depresses the opposite end until it comes in contact with the crank-arm of the exhaust, so that when it reverses it will lift the inlet-valve instead of by its own lever O and its own eccentric, which works much faster and may be arranged to cut-off at half-stroke
- Such a combination of the parts constitutes the chief element of improvement in this invention, as it permits an engine of any size to be easily started after lighting the tire, by turning the crank up to depress the piston to its lowest point and letting it remain on its centers; then by charging the heater with the hand-pump until the gage indicates a working-pressure in the heater, when a slight turn of the crank will start the engine, and, if the valves are set to give the air-pressure its full stroke, the engine will continue to run as before, as no vacuum will be produced in the cylinder, and no pressure to resist the proper action of the Working-valves.
- valves in the air-pump are shown in an enlarged form in Figs. 2, 3, and 4, the inlet-valve being .shown at Figs. 2 and 8, and the check-valves at Fig. 4; but they are substantially the same in both, being puppet "alves, as at m, faced with a leather facing, as at w, to work against a raised seat, as at w, or the seat may be flat, if desired.
- the valve is provided with a stem, as at 00 and passes through a guide, as at :0 and is held to its seat by a spiral spring, as at :0 but the check-valves are inclosed in a case made of two parts, 3 and. 2 which forms a chamber for the valve.
- the stem is surrounded with the packing, as at g and around the stem and within the lower part of the case y there is a raised seat, as at 2, upon the upper end of which, at z, is a cushion of leather or other elastic substance that receives the valve in its open position, and thereby prevents the metallic noise produced in their action.
- the coldair channel B connecting the supply-pump with the healer, when provided with a gate at one end for opening the chan-v nel, substantially as described.
- the cylinder mounted on studs between it and the bed-plate, to permit of the expansion of the parts without injury to the same, substantially as described.
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Mechanically-Actuated Valves (AREA)
Description
. ZSheets-Sheetlf F. BROWN.
' CALORIC ENGINE.
N 186,535 Patented Jan. 23, 1877.
N-PETERS. PNOYO-UTdOGRA'HER, WASNIW ATCJNv D C.
'1. BROWN. CALORIC ENGINE.
I Patented Jan. 23, 1877. 1
2 Sh eets-Sheet 2 I UNITED STATES PATENT Grates,
FELIX BROWN, OF NEW YORK, N. Y.
IMPROVEMENTVILN CALORlC-ENGINES.
Specification forming part of Letters Patent No. 186,535, dated January 23, 1877; application filed December 20, 1876. V i
To all whom it may concern:
Be it known that I, FELIX BROWN, of the city, county, and State of New York, have lnvented a new and useful Improvement in Caloric-Engines,- which improvement is fully set forth in the following specification and accompanying drawings, in which- Figure l isa side elevation of i the engine, with fuelfeeder and air'pump-iu section. Fig. 2 is a plan of the lower end of the air-pump. Fig. 3 is a vertical section of the same. Fig.- 4 is an enlarged view of the valves in the airpump; and Fig. 5 is a partial view, in section, ofthe lower end of the working-cylinder, and shows its method of being mounted on the bed-plate. I l
This invention pertains to certain improvements in caloric-engines, whereby an engine may be causedto work at variable pressures, independentof the pressure due tothe expansion of the air in the heater and the invention consists, chiefly, in the combination, with the inlet and exhaust valvesof a caloric-engine, of a cut-off mechanism, with double eccentrics,'whereby the engine may work with a full exhaust and cut-off at any desired point of the. stroke, and by which" an increase of pressure is provided in the fire-box greater than is due to the initial expansionof the air,
small air-pump, to be worked by hand, is attached to the cold-air channel B, as shown at as will hereinafter appear.
At Ais shown the bed-plate of the engine, on the under side of which is shown the coldair passage B, or channel-way from the air pump at G to the heaterat D. The workingcyli'nder is shown at E, and the connectingrod of the piston at F is attached to one end of a working-beam, as at G, to the opposite end of which the. pitman H is connected for giving motion to. the crank-shaft K, upon which is the driving-pulley or fly-wheel, indicated in Fig. 1 bythe circle in a broken line, as at L. The fuel is supplied to the heater through the hopper or feeder at N, the top of which can be removed to introduce the coal, the bottom being closed by a valve, as at N to prevent the escape of the air when the engine is working, but which is dropped or opened as soon asthe cover is fastened on the top to resist the pressure of the air in the heater. But as the valve N is of very large area it will be very diflicult to force it down against the air-pressure in the heater. Therefore, to give. it the required relief, a tube, as at N, connects the lower chamber or heater with the upper one, and it is provided with a valve or stop-cock, so that as soon as the cover is replaced the air from the heater is let into the fuel-chamber, and balances the pressure on the valve N when it drops, and permits the fuel to descend upon the grate-bars below.
The hot-air pipe from the heater to the working-cylinder is shown'at O, and the inletvalve in the chamber at O is raised by the lever at 0 working through the valve-stem,
right-angled lever on the axis P, and is operated by a second eccentric on the crank-shaft,
just behind the first, as shown in Fig. 1, which at the proper time depresses the lever T over the exhaust-valve stem, and thus the two valves may be set to work independently of each other, as may be desired.
To facilitate the starting of the engine, a
U, and is operated to charge the heater with a sufficient supply of air to set the engine in motion after being heated; and, to enable the operator to start the machine without working against avacuum below the piston, there is provided an adjustable lever, as at W, in combination with the lever that lifts the in let-valve, so that the air may be worked full stroke at the start, and then reduced to whatever it is desired to run the engine at afterward. This adjustable lever W is pivoted in the upper end of the inlet-valve stem, and it is vibrated and held by a hand-screw, W, which works through a ball in a socket in the end of the lever 0 and through a nut in the end of the lever W, and in this manner the two vibrate together to a certain extent; but one end of the lever W is turned down, as shownin the drawings, and is set over to one side of the lifting-lever 0 so that the curved end will be over the arm that works the .exhaust-valve; consequently, when it is desired for the inlet-valve to be held open to the full stroke the hand-screw is turned until the lever W is raised to the position shown in the dotted lines, and thereby depresses the opposite end until it comes in contact with the crank-arm of the exhaust, so that when it reverses it will lift the inlet-valve instead of by its own lever O and its own eccentric, which works much faster and may be arranged to cut-off at half-stroke or less. As soon as the engine has fairly started, then the handscrew is reversed gradually until the inlet-valve is operated by its own lever and eccentric, as already explained.
' Such a combination of the parts constitutes the chief element of improvement in this invention, as it permits an engine of any size to be easily started after lighting the tire, by turning the crank up to depress the piston to its lowest point and letting it remain on its centers; then by charging the heater with the hand-pump until the gage indicates a working-pressure in the heater, when a slight turn of the crank will start the engine, and, if the valves are set to give the air-pressure its full stroke, the engine will continue to run as before, as no vacuum will be produced in the cylinder, and no pressure to resist the proper action of the Working-valves.
The valves in the air-pump are shown in an enlarged form in Figs. 2, 3, and 4, the inlet-valve being .shown at Figs. 2 and 8, and the check-valves at Fig. 4; but they are substantially the same in both, being puppet "alves, as at m, faced with a leather facing, as at w, to work against a raised seat, as at w, or the seat may be flat, if desired.
The valve is provided with a stem, as at 00 and passes through a guide, as at :0 and is held to its seat by a spiral spring, as at :0 but the check-valves are inclosed in a case made of two parts, 3 and. 2 which forms a chamber for the valve.
To prevent leakage, the stem is surrounded with the packing, as at g and around the stem and within the lower part of the case y there is a raised seat, as at 2, upon the upper end of which, at z, is a cushion of leather or other elastic substance that receives the valve in its open position, and thereby prevents the metallic noise produced in their action.
The upper portion of this case, as at y, is screwed into the bed'plate over the cold-air passage B, as shown at Fig. 1; and in this manner the entire space may be covered with such valves, so that very little motion is required of them, and all metallic contact to produce noise is prevented.
Having thus described the several parts, I desire to clai1n 1. In a caloric-engine, a cut-off mechanism, whereby an increase of pressure is produced in the fire-box greater than is due to the initial expansion of the air.
2. The combination, in a caloric-engine, of two eccentrics, and valve-gear, with the inlet and exhaust valves, wherebythe pressure in the working-cylinder is increased beyond the initial pressure of the air-pump.
3. The combination, in a caloric-engine, of the two eccentrics, with the valve-gear, inlet and exhaust valves, and graduating-screw, or its equivalent, as described, for the purposes set forth.
4.. The combination of the relief tube and valve with the fuel-chamber and heater of a caloricengine, substantially as described, and for the purposes set forth.
5. The coldair channel B, connecting the supply-pump with the healer, when provided with a gate at one end for opening the chan-v nel, substantially as described.
6. The combination of an auxiliary [)llilll) with the cold-air channel and heater of a caloric-engine, to assist in starting the'engine, as described.
7. The cylinder mounted on studs between it and the bed-plate, to permit of the expansion of the parts without injury to the same, substantially as described.
FELIX BROWN. Attest: I
JOHN W. RIPLEY,
FRANK MOLAUGHLIN.
Publications (1)
Publication Number | Publication Date |
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US186535A true US186535A (en) | 1877-01-23 |
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US186535D Expired - Lifetime US186535A (en) | Improvement in caloric-engines |
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