US545502A - Gas-engine - Google Patents

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US545502A
US545502A US545502DA US545502A US 545502 A US545502 A US 545502A US 545502D A US545502D A US 545502DA US 545502 A US545502 A US 545502A
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piston
cylinders
engine
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B75/00Other engines
    • F02B75/02Engines characterised by their cycles, e.g. six-stroke
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B75/00Other engines
    • F02B75/02Engines characterised by their cycles, e.g. six-stroke
    • F02B2075/022Engines characterised by their cycles, e.g. six-stroke having less than six strokes per cycle
    • F02B2075/025Engines characterised by their cycles, e.g. six-stroke having less than six strokes per cycle two

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  • GAS ENGINE No. 545,502. Patented Sept. 3, 1895.
  • FIG. 1 is a side elevational view, the near fly-wheel being removed.
  • Fig. 2 is a longitudinal vertical' sectional view.
  • Fig. 3 is a longitudinal horizontal sectional View.
  • Fig. 4 is a cross-sectional view on line 4 4, Fig. 2.
  • Fig. 5 is a detail view of the valve which controls the admission of air and gas into the outer ends of the cylinders.
  • Fig. 6 is a diagrammatic view illustrating the position of the valves when the pistons are making their stroke to the right.
  • Fig. 7 is a similar view illustrating the positions ot' the valves when the pistons are making their stroke to the left.
  • Fig. 8 is a detailview of a form of igniter.
  • This invention relates to a new and useful improvement in gas-engines, the objects being to construct an engine of the class described Awhich will be simple, cheap, compact, light in weight, and powerful.
  • A which will be simple, cheap, compact, light in weight, and powerful.
  • My invention consists in the principles of operation and the construction involved in utilizing said .principles to accomplish the purposes above set forth.
  • A indicates a central box or housing in the sides of which are received boxes B, forming roller-bearings for shaft C, which extends out on each side and has mounted thereon -liy-wheels D and D", the one balancing the other.
  • a crank-pin is formed on the shaft within the housing, and has a bearingin a sliding block E, which is mounted in a cross-head F, to which the piston-rods 1 and 2 are secured. Secured to the ends of -inner ends of the cylinders, respectively,
  • cylinders II and H' which are preferably formed with spaces h. and h for g the circulation of water.
  • I and I are the heads on the outer ends of the cylinders, and J and J are heads on the which ylatter heads are preferably separate .6e from the housing.
  • FIGS. 3 and 4 are piston-heads on the rods l and 2,- which heads are provided with means for igniting the compressed air and gases therebetween and the heads I and I at their outstroke. This means is illustrated in Figs. l,
  • Fig. 8 I have illustrated another form ot' igniter,which I prefer to use in some instances. 8o
  • This igniter' consists of posts 7 and 7a, mounted in the heads I and-I and insulated therefrom.
  • an armuS which is impelled by a spring 9 to norma y rest uponktlre end of post 7a..
  • These pM and arm form onel terminal of a circuit, the wire being led from post 7a.
  • a projection l0 is provided upon the piston-heads, which include in 9o its path the short end of arm 8.
  • a spring Il extends beyond said projection and includes in its path the long end of arm 8.
  • inlet-ports 14 and 157 Leading from the outer ends of the cylina ders are inlet-ports 14 and 157 which are controlled by valves 16 and 17. These valves are spring-seated and are provided with stems 18,
  • a spring 2O surrounds this stem and exerts a tendency to normally seat the valve.
  • On the opposite side of these valves 16 and .1 7 are formed spaces, into which lead pipes 22 and 23 and 24 and 25.
  • the passages through pipes 22 and 23 are controlled by inwardlyopening check-valves 26 and 27, said pipes extending beyond said check-valves and being absolutely controlled by the air-intake valves 2S and 29.
  • the stems of these air-intake a valves pass through their respective casings inwardly and are connected to cross-heads 30,
  • rollers 33 On the inner ends of 5 these shanks are mounted rollers 33, which ride upon a'sleeve 34, slidingly keyed to the shaft C.
  • This sleeve is provided with a radially-increased projection 35, which in the ordinary operation of the engine is in the path of n the rollers, and operates the air-intake valves to unseat them to admit air at the proper time, and when the pistons are in proper positions to receive it.
  • Springs 36 are arranged to normally hold the rollers against the sleev9 34.
  • Sleeve 34 is provided witl/i/anfey/v fj r i groove in its outer/epd/wk/ lar projgtinuef" e i p G 1' f ne engine exceed that i i f "'j i; was set through the adjustability ot' the governor-spring, the governonarms 36 5 v by centrifugal force will overcome the resistance of the spring and the right-angular projections on the arms will slide the sleeve along the shaft C, removing the radial projection thereon from the path of the rollers. When a this occurs, the air-intake valves are not operated, and air not being admitted to the inner end of either cylinder will tend to retard. the speed by the creation of a partial vac num or rarefying the air. As soon as the centrifugal force of the governor-arms relaxes and is overcome by the tension of the spring,
  • the projecting face 35 is forced under the rollers and the air-intake valves are again operated.
  • plungers 39 Connected to the cross-heads 30 and mov-l ing therewith are plungers 39, which normally rest to one side of gas-inlets and 41, which lead into a chamber in which the plu ngers operate. Pressure causes the gas to constantly lill these chambers, and when the cross heads are actuated the plungers move out.- wardly, closing the gas-inlets and forcing the gas before them against a yielding plug 42, which closes the gas-opening in pipes 22 and 23. Inthismannerthefluid,inwhateverform it might be, is forced into pipe 22 or 23 only when its respective air-intake valve is unseated.
  • Pipes 24 and 25 lead from the inner ends of the cylinders to points between the valves 16 and 17 and 26 and 27.
  • ⁇ Piston 4 which we may consider a dead piston, draws, by suction, the air and gas through pipe 22, past check-valve 26, through pipe 25 and into the piston-chamber behind piston 4. In passing through these different courses the air and gas becomes intimately mixed.
  • the compressed air and gas in front of piston 4 is now ignited, it now becoming a live piston, and the operation of the parts is reversed-that is, the spent air and gases in front of piston 3, now dead, are exhausted lthrough port 12. (See Fig. 7.)
  • Valve 17 closes to prevent escape of expanding air and gases behind piston 4. The air and gases which were drawn in behind piston 4 in its outward movement are now forced infront of the same, back through pipe 25,
  • a gas engine the combination with the casing and the driving shaft, of a cam surface arranged on the driving shaft, a squared shank mounted in bearing on the casing, a roller mounted on the shank, a valve stem proja. ⁇ ing from the cross head, an air intake valve on said stem, a plunger adjustably mounted on the cross-head, a gas opening arranged in advance of the travel of said plunger, and a yielding plug for confining the gas in front of the plunger, which plug is unseated to permit the escape of the gas when the plunger is actuated, 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)
  • Combustion Methods Of Internal-Combustion Engines (AREA)

Description

5 Sheets-Sheet 1.
(NovModel.)
H. H. HBNNEGIN. GAS ENGINE.
No. 545,502. *Y I Patented Sept. 3,1895'.
(No Model.) 5 sheets-sheen 2.
H. H. H'ENNEGIN.
GAS ENGINE.
150.545,502. 5 Patented Sept. 8,1895.
Imm llnn vs ,7 l
X 1 lint I "tf .11' y /E W/l/f I Q lum v t i t (No Model.) 5 Sheets-Sheet 3.
H. H. HBNNBGIN. GAS ENGINE.
150.545,502. Patented sept. s, 1895.
(No Model.) 5 sheets-sheet 4.
H. H. HENNEGIN. f
GAS ENGINE. No. 545,502. Patented Sept. 3, 1895.
@y fw, fda/W hlillil 5 Sheets-sheet 5.
H. H. HENNEGIN.
l (Nomodel.)
. GAS ENGINE.'
N0.545,5o2. y Patented sept. 3,1895.
/M j d 3i! e8 e wwf 'a .341
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Uerrrnn raras HERBERT II. HENNEGIN, OF ST. LOUIS, MISSOURI.
GAS-ENGINE.
SPECIFICATION forming part of LettersPatent No. 545,502, dated September 3, 1895.
Application tiled February 11,1895. Serial No. 537,988. (No model.)
To all whom it may concern:
Be it known that I, HERBERT H. HENNEGIN, a citizen of the 'United States, residing at the city of St. Louis, State of Missouri, have inlvented a certain new and useful Improvement in Gas-Engines, of which the following is a full, clear, and exact description, reference being had to the accompanying drawings, forming part of this specication, wherein- Figure 1 is a side elevational view, the near fly-wheel being removed. Fig. 2 is a longitudinal vertical' sectional view. Fig. 3 is a longitudinal horizontal sectional View. Fig. 4 is a cross-sectional view on line 4 4, Fig. 2. Fig. 5 is a detail view of the valve which controls the admission of air and gas into the outer ends of the cylinders. Fig. 6 is a diagrammatic view illustrating the position of the valves when the pistons are making their stroke to the right. Fig. 7 is a similar view illustrating the positions ot' the valves when the pistons are making their stroke to the left. Fig. 8 is a detailview of a form of igniter.
This invention relates to a new and useful improvement in gas-engines, the objects being to construct an engine of the class described Awhich will be simple, cheap, compact, light in weight, and powerful. To attain these objects I construct a double cylinder-engine the pistons of which are connected to a common rod. These pistons in their movement mix the air and gas and force itin advance of the opposing piston, where it is exploded. There'are two explosions at each revolution, and suitable means are provided for admitting air and gas at the proper time to the mixing-chambers. y
My invention consists in the principles of operation and the construction involved in utilizing said .principles to accomplish the purposes above set forth.
In the drawings, A indicates a central box or housing in the sides of which are received boxes B, forming roller-bearings for shaft C, which extends out on each side and has mounted thereon -liy-wheels D and D", the one balancing the other. A crank-pin is formed on the shaft within the housing, and has a bearingin a sliding block E, which is mounted in a cross-head F, to which the piston-rods 1 and 2 are secured. Secured to the ends of -inner ends of the cylinders, respectively,
the housings by bolts G, which pass therethrough, are cylinders II and H', which are preferably formed with spaces h. and h for g the circulation of water. c
I and I are the heads on the outer ends of the cylinders, and J and J are heads on the which ylatter heads are preferably separate .6e from the housing.
3 and 4 are piston-heads on the rods l and 2,- which heads are provided with means for igniting the compressed air and gases therebetween and the heads I and I at their outstroke. This means is illustrated in Figs. l,
2, 3, and 4 as a spring 5 mounted on the pistons whichcontacts with a projection 6 in the path of its travel. At the beginning of its instroke the spring 5 leaves the point 6 and 7o forms an electric arc, which ignites the air and'gases, and the expansion thereof forces the piston inwardly. Contact 6 is insulated from the heads I and I', and forms one terminal of a circuit. Any part of the enginecasings formsthe other terminal, and the circuit is completed onlywhen one of the springs 5 contacts with their respective points 6.
' In Fig. 8 I have illustrated another form ot' igniter,which I prefer to use in some instances. 8o This igniter'consists of posts 7 and 7a, mounted in the heads I and-I and insulated therefrom. In the end of post 7 I pivot an armuS, which is impelled by a spring 9 to norma y rest uponktlre end of post 7a.. These pM and armform onel terminal of a circuit, the wire being led from post 7a. The casing in this, as in the other form of igni'ter, forms the other terminal. A projection l0 is provided upon the piston-heads, which include in 9o its path the short end of arm 8. A spring Il extends beyond said projection and includes in its path the long end of arm 8. When the piston is on its instroke, the spring Il first comes in contact with arm 8, completing the circuit. Then the projection 10 strikes the short end of the arm and immediately the long end of the arm leaves post 7a, forming the arc, which remains until the projection leaves the arm. The advantages ot' this conloo struction over the other are: that there islittle waste current; the arc is formed shortly before the piston completes its stroke and remains until the piston has started on its instroke, thus giving a longer time for ignition, and the spring is removed from the arc and its resiliency is not destroyed.
12 and 13 are exhaust-ports, which lead from the cylinders exhausting the spent air and gases when the pistons are forced inwardly, saidexhausts being closed when the piston is 1 'o'npr at the limit of its outstroke.
Leading from the outer ends of the cylina ders are inlet-ports 14 and 157 which are controlled by valves 16 and 17. These valves are spring-seated and are provided with stems 18,
(see Fig. 5,) which extend into a pocket 19.
A spring 2O surrounds this stem and exerts a tendency to normally seat the valve. To occupy space so that the pressure of the fluid passing through this valve will not be greatly influenced, I arrange on the stem and within the spring a thick sleeve 21,which almost ena tirely lills said pocket, except for the space required for proper operation of the spring. On the opposite side of these valves 16 and .1 7 are formed spaces, into which lead pipes 22 and 23 and 24 and 25. The passages through pipes 22 and 23 are controlled by inwardlyopening check- valves 26 and 27, said pipes extending beyond said check-valves and being absolutely controlled by the air-intake valves 2S and 29. The stems of these air-intake a valves pass through their respective casings inwardly and are connected to cross-heads 30,
which are mounted in suitable bearings 3l,
bolted to the housing A through the medium of squared shanks 32. On the inner ends of 5 these shanks are mounted rollers 33, which ride upon a'sleeve 34, slidingly keyed to the shaft C. This sleeve is provided with a radially-increased projection 35, which in the ordinary operation of the engine is in the path of n the rollers, and operates the air-intake valves to unseat them to admit air at the proper time, and when the pistons are in proper positions to receive it. Springs 36 are arranged to normally hold the rollers against the sleev9 34. Sleeve 34 is provided witl/i/anfey/v fj r i groove in its outer/epd/wk/ lar projgtinuef" e i p G 1' f ne engine exceed that i i f "'j i; was set through the adjustability ot' the governor-spring, the governonarms 36 5 v by centrifugal force will overcome the resistance of the spring and the right-angular projections on the arms will slide the sleeve along the shaft C, removing the radial projection thereon from the path of the rollers. When a this occurs, the air-intake valves are not operated, and air not being admitted to the inner end of either cylinder will tend to retard. the speed by the creation of a partial vac num or rarefying the air. As soon as the centrifugal force of the governor-arms relaxes and is overcome by the tension of the spring,
the projecting face 35 is forced under the rollers and the air-intake valves are again operated.
Connected to the cross-heads 30 and mov-l ing therewith are plungers 39, which normally rest to one side of gas-inlets and 41, which lead into a chamber in which the plu ngers operate. Pressure causes the gas to constantly lill these chambers, and when the cross heads are actuated the plungers move out.- wardly, closing the gas-inlets and forcing the gas before them against a yielding plug 42, which closes the gas-opening in pipes 22 and 23. Inthismannerthefluid,inwhateverform it might be, is forced into pipe 22 or 23 only when its respective air-intake valve is unseated. This results in a great saving of fuel and prevents the accumulation of fuel in these pipes, as the supply can be so regulated by the adjustable connections of the plungers to the cross-heads that only enough gas to support a charge is admitted at one time. It will be understood that'the connection between the plungers and cross-heads can be so arranged that the cross-heads will have a play on the plungers in each direction before actuation.
, Pipes 24 and 25 lead from the inner ends of the cylinders to points between the valves 16 and 17 and 26 and 27.
The operation is as follows: W'e will assume that the pistons are just commencing a stroke to the right, referring more particularly to Fig. 6. The spent air and gases in front of pistonhead 4 have been exhausted through 13, and this port is soon closed, beingcovered at an early stage by the advance movement of the piston. The explosion behind piston 3 will close valve 16, and the air (and gases) in front of said piston will be forced through pipe 24 (check-valve 27 being closed) past valve 17 and in front of advancing piston 4. In this manner the whole charge in fronilfof piston 3 is compressed in t r In this connection it might at, in order to give more space sion, the outer ends of both sed. The raised portion 35 alefthand roller, and air-in- ,raised from its seat, while nger forces a charge of gas into pipe 22.
`Piston 4, which we may consider a dead piston, draws, by suction, the air and gas through pipe 22, past check-valve 26, through pipe 25 and into the piston-chamber behind piston 4. In passing through these different courses the air and gas becomes intimately mixed. The compressed air and gas in front of piston 4 is now ignited, it now becoming a live piston, and the operation of the parts is reversed-that is, the spent air and gases in front of piston 3, now dead, are exhausted lthrough port 12. (See Fig. 7.) Valve 17 closes to prevent escape of expanding air and gases behind piston 4. The air and gases which were drawn in behind piston 4 in its outward movement are now forced infront of the same, back through pipe 25,
IOO
IZO
(valve 26 and intake-valve 28`being closed,) past valve 16, and in front of outgoing piston 3, where they are compressed. The raised portion 35 now operates the right-hand roller and air-intake valve 29 is raised from its seat, while the plunger forces a charge of gas into pipe 23. Piston 3 draws, by suction, the air and gas through pipe 23, past check-valve 27, through pipe 24, and into rthe pistonchamber behindvpiston 3. In this manner the cycle of operations is repeated. I t will be noted that both pistons 3 and 4 approach closely to the heads J and J', in order to leave as little air and gas therebetween as possible.
I am aware that many minor changes in the construction and arrangement of the parts of my device can be made. Therefore I do not wish to be understood as limiting myself to the exact arrangement or construction of the parts as herein shown and described.
Having thus described my invention, what I claim, and desire to secure by Letters Patent, is
1. In agas engine, the combination with 'two cylinders arranged inline with each other, of pistons operating in said cylinders, which pistous are connected to a colnmon rod, a crosshead arranged in the rod, a slide-block arranged in the cross-head, pipes which lead from the inner ends of the cylinders to the outer ends of the opposite cylinders, checkvalves which control the openings of said pipes into the outer ends of the cylinders, branch pipes which lead` from the first mentioned pipes, inwardly opening check-valves arranged in the branch pipes, air-intake valves in the outer ends of the branch pipes, pumps for forcing the oil into the branch pipes, the pumps and the air intake valves of each cylinder being operated together means for operating the pumps and air intake Valves, and a governor mounted on the 'engine shaft for controlling said means; substantially as described.
2. In a gas engine, the combination with the shaft, of a cam sleeve slidingly arranged thereon, a governor for said sleeve, rollers which bear against the cam surface of said sleeve, non-circular rods in which said rollers are mounted, air intake valves arranged on the ends of the rods, pump plungers which are adjnstably connected to the rods, and springs for forcing the rollers against the cam-surface, whereby when one air intake valve is open and the pump is forcing the oil in front thereof, the other air intake valve is seated and its connected pump is receiving a charge to be forced in front of its air-intake valve when the latter is unseated substantially as described.
3. In a gas engine, the combination with two cylinders arranged` in line with each other, pistons operating in said cylinders, said pistous being connected to a common rod and said pistonsalso controlling the cylinder exhaust ports, valved connections between the ends of the cylinders whereby the pistons compress the air and gases' for each other, an electric terminal on the pistons, an electric terminal on each of the cylinder heads with which the-piston terminals alternately contact to form an arc to ignite the compressed charges, air intake valves and gas pumps which are operated from the shaft of the engine, and a governor for controlling said valves and pumps; substantially as described.
4:. In a gas engine, the combination with the cylinder, and its piston, forming one terminal of an electric circuit, of posts mounted in the cylinder head and insulated therefrom, an arm pivoted in one of the posts and resting upon the other, said posts and pivoted arm forming the other ter-minal of an electric circuit, the wire being connected to the post upon which the arm rests, and means on the moving piston to complete the circuit through the arm, and, raising it, form an arc between its end and the post upon which it rested, substantially as described.
5. In a gas engine, the combination with the cylinder and its piston forming one terminal of an electric circuit, of posts mounted in the cylinder head and insulated therefrom, an
arm pivoted in one of the posts and resting upon the other, said posts vand arm forming the other terminal of an electric circuit, the wire being connected to the post upon which the arm rests, a spring on the piston for/contacting with the arm to complete the circuit, and a projection on the piston for contacting with the arm to raise its end from the post upon which it rested, to form an arc, substantially as described.
6. In a gas engine, the combination with a check-valve, of an open pocket for receiving the stem, a spring in the pocket, which surrounds the'stem and exerts a tendency to seat the valve, the diameter of said stem being increased or provided with a sleeve which entirely lls the space within the coils of the spring, substantially as described.
7. In a gas engine, the combination with the casing and the driving shaft, of a cam surface arranged on the driving shaft, a squared shank mounted in bearing on the casing, a roller mounted on the shank, a valve stem proja.` ing from the cross head, an air intake valve on said stem, a plunger adjustably mounted on the cross-head, a gas opening arranged in advance of the travel of said plunger, and a yielding plug for confining the gas in front of the plunger, which plug is unseated to permit the escape of the gas when the plunger is actuated, substantially as described.
8. In a gas engine, the combination with two cylinders arranged in line with each other, of pistons within said cylinders which are connected to a common rod, a cross -head ar ranged in the rod, a sliding block arranged in the cross-head, valved connections between ICO IIS
the ends of the cylinders, and a governed ends of the cylinders` and means located on sleeve which controls the air intake Valves the shaft for controlling the air intake Valves and gas pumps; substantially as described. and gas pumps; substantially as described.
9. Inagas engine, the combination with two In testimony whereof I hereunto alix myV I5 5 cylinders arranged in line with each other, signature, in presence ot' two witnesses, this pistons operating in said cylinders which con 2d day of February, 1895.
trol their own exhaust valved connections f v between the ends of the cylinders whereby HERBERF H' HENNEGIN the pistons compress the air and gases in ad- Vitnesses:
Io Vance of each other, means for exploding the F. R. CORNWALL,
compressed charges, connections between the HUGH K. WAGNER.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2571198A (en) * 1948-03-24 1951-10-16 Chrysler Corp Engine
US2613651A (en) * 1948-03-24 1952-10-14 Chrysler Corp Engine
US4013048A (en) * 1975-12-12 1977-03-22 Reitz Daniel M Bourke type engine

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2571198A (en) * 1948-03-24 1951-10-16 Chrysler Corp Engine
US2613651A (en) * 1948-03-24 1952-10-14 Chrysler Corp Engine
US4013048A (en) * 1975-12-12 1977-03-22 Reitz Daniel M Bourke type engine

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