US1801086A - Power plant - Google Patents

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US1801086A
US1801086A US344960A US34496029A US1801086A US 1801086 A US1801086 A US 1801086A US 344960 A US344960 A US 344960A US 34496029 A US34496029 A US 34496029A US 1801086 A US1801086 A US 1801086A
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Prior art keywords
air
cooling
fuel tank
crank case
crank
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US344960A
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Charles B Jahnke
Alfred C Boock
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Fairbanks Morse and Co
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Fairbanks Morse and Co
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Priority claimed from US240604A external-priority patent/US1843162A/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01PCOOLING OF MACHINES OR ENGINES IN GENERAL; COOLING OF INTERNAL-COMBUSTION ENGINES
    • F01P3/00Liquid cooling
    • F01P3/22Liquid cooling characterised by evaporation and condensation of coolant in closed cycles; characterised by the coolant reaching higher temperatures than normal atmospheric boiling-point
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23PMETAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
    • B23P11/00Connecting or disconnecting metal parts or objects by metal-working techniques not otherwise provided for 
    • B23P11/005Connecting or disconnecting metal parts or objects by metal-working techniques not otherwise provided for  by expanding or crimping
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01PCOOLING OF MACHINES OR ENGINES IN GENERAL; COOLING OF INTERNAL-COMBUSTION ENGINES
    • F01P3/00Liquid cooling
    • F01P3/22Liquid cooling characterised by evaporation and condensation of coolant in closed cycles; characterised by the coolant reaching higher temperatures than normal atmospheric boiling-point
    • F01P2003/2214Condensers
    • F01P2003/2221Condensers of the horizontal type
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02BINTERNAL-COMBUSTION PISTON ENGINES; COMBUSTION ENGINES IN GENERAL
    • F02B63/00Adaptations of engines for driving pumps, hand-held tools or electric generators; Portable combinations of engines with engine-driven devices
    • F02B63/04Adaptations of engines for driving pumps, hand-held tools or electric generators; Portable combinations of engines with engine-driven devices for electric generators
    • F02B63/044Adaptations of engines for driving pumps, hand-held tools or electric generators; Portable combinations of engines with engine-driven devices for electric generators the engine-generator unit being placed on a frame or in an housing
    • F02B2063/045Frames for generator-engine sets

Definitions

  • An object of the present invention isto provide a direct connected power plant Whlch is neat and compact in arrangement and which is economical to construct and malntain.
  • a further object is the provision of an irnproved and eiiicient cooling system, compr1sing a means for cooling the engine by vapor, and comprising a novel arrangement of cooling fans and air ducts adapted to direct and confine a current of cooling air about the various parts of the engine and through a condenser. Further, this system attains the object of controlling the temperature of the lubricating oil in the crank case, and of the fuel oil in the supply tank.
  • crank case which is preferably a casting serving as a frame for the assembly
  • a cylinder castin 11 This comprises a cylinder 12 in whic operates the power piston 13, which may be of any suitable form.
  • the cylinder casting 11 is separate from, and carried by the crank case ⁇ casting, and includes valve guides 14, and tappet guides 15. The guides serve to position and to determine the path of travel of valves 16 and tappets 17 respectively, both of which may be of any suitable, conventional type.
  • the head 18 may be provided with an opening to receive a spark plug 21, or equivalent ignition device.
  • a condenser or radiator 22 is located, by preference, above the cylinder head 18, and is disposed horizontally in order to minimize the over-all height of the plant.
  • the condenser 22 andthe cylinder head 18, as well as other adjacent parts of the plant, may be surrounded and enclosed by a hinged cover 23.
  • a hinged cover 23 For convenience in lifting the cover, it is preferably made of a light material, such as sheet metal, and may be provided with a retaining device such as a spring clip, (not shown), to prevent any movement or vibration thereof during the operation of the engine.
  • the top portion of the cover 23 consists of a screen 24. This permits the free passage of cool air through the top of cover 23, and serves as a guard for the parts enclosed thereby.
  • the cover 23 not only directs the air through the condenser or radiator, but causes a sufficient circulation of air over the cylinder head to permit the use, if preferred, of an air cooled head. If desired, the cover 23 may be made heavy enough to serve as a support for the condenser. It is more desirable, however, to hinge the cover as shown, to give access to the top portion of the engine without disconnecting any parts.
  • a crank shaft 25 Operating in the crank case, and projecting therethrough to the generator, is a crank shaft 25, on the inside end of which is a crank arm 26. The construction of the crank shaft and crank arm constitute this assembly as one of the so-called overhang type.
  • connecting rod 27 serves as the operative connection between crank arm 26 and the piston 13.
  • the crank is provided with a counterweight 28 which may be formed integrally therewith.
  • the crank shaft 25 is supported and carried by a bearing plate 30 and a bearing 31. These serve also as bearing members for the generator, hereinafter described.
  • the bearing plate 30 is fastened to the crank case or frame 10, which includes a member 32 within which the fly wheel 33' rotates.
  • the iiy wheel is keyed to the crank shaft, and is provided with a plurality of peripherally disposed, web-like The path of the cooling air is hereinafter described. Endwise movement of the fly wheel 33 is prevented by means of a plate 35 and a collar 36, in a manner which will be apparent from the drawings.
  • the armature is shown at 37.
  • This may be of any suitable form and is preferably mounted on a sleeve 38, in a manner described in detail in a copending application, Serial No. 240,466, filed December 16, 1927.
  • An end bearing for the armature shaft, such as 40, may be carried by a member 41, formed by the generator case 42, which may, in turn, be attached to the crank case 10.
  • Suitable ole pieces 43 are preferably attached to the Eanged portion 44 of the generator c ase 42.
  • a pivoted shutter 78 Beneath the crank case proper, more particularly below the oil chamber, is an air duct 80, preferably disposed longitudinally of the engine and serving to connect the openings in end cover 76, with the fan blades 34 on the fly wheel.
  • the generator end of the crank case 10 i-s preferably separated from the crank chamber 81 by means of plates 82 and 83, which' form a housing for the fly wheel, and also establish the course of the cooling air at these points.
  • passage 85 which is an air passage u through crank case 10.
  • tbe fuel tank whichis preferably cast integrally with the main casting comprising the crank case 10, etc.
  • This fuel tank is preferably of horseshoe shape so as partially to surround the cyl inder casting 11, including the cylinder 12.
  • the air passes upwardly through the passage 85 itis carried past the adjacent wall of the fuel tank, and thus assists in keeping the fuel at a safe and uniform temperature.
  • the cooling air proceeds upwardly, past the fuel tank, its course is determinedV by the hinged cover 23, by which the air stream is compelled to pass upwardly and outwardly through the radiator or condenser 22.
  • the present invention embodies means for cooling the lubricating oil and cooling the fuel supply in the tank 86.
  • the air in passing through the air duct 80, under the crank case is brought into immediate cooling contact with the bottom of the crank chamber 81, in which is located the oil supply.
  • This stream of air is thus utilized for
  • the air duct 80 may be provided with ribs (not shown) extending longitudinally of the duct or passage.
  • the bottom of the crank chamber 81 may be provided with internal, upwardly extending ribs (not shown) extending up into the body of lubricant in this chamber. passage of air beneath the crank chamber keeps the oil supply reasonably cool at all times. This cooled oil, in splashing up 'against the lower portion of the fuel tank 86,
  • the tank may be insulated from the cylinder 12 by an air space 90, which may be divided by a heat insulating shield 91.
  • the fuel tank is also heat insulated from the water jacket hereinafter described, by means of a narrow gasket 92, thereby providing a horizontal air space 93.
  • the vertical wall of the fuel tank 86 is, by preference, used to form part of the air passage from the fly wheel 33 to the radiator 22.
  • the cooling effect ma still further be increased, by cooling ribs or ns (not shown) placed on the bottom wall of the fuel tank.
  • a further objection to prevailing forms of engines is found in the fact that a substantial difference in fuel mixture results from a variation in fuel level, affecting the total head on the fuel suction.
  • the main fuel tank 86 is so located with respect to the cylinder of the engine that as the fuel level in tank 86 recedes, the heating effect of the cylinder will compensate for the lower level of the fuel.
  • the increase in volatility and decrease in viscosity due to this heating effect practically balance the tendenc toward a leaner mixture ordinarily caused y a receding fuel level.
  • This construction eliminates the necessity of using a float chamber, with its expense, uncertainty and liability to stoppage and leakave.
  • the cooling system for the head and cylinder proper of the engine is of the vapor type, comprising essentially a short cooling jacket 95, below which is located the air space 90, above described.
  • the level of the liquid in the jacket is determined by the height of a filler opening 96, and this level is such that the jacket is not completely filled.
  • the end of the radiator or condenser 22 opposite the vapor lead 97 may be provided with a small opening (not shown), leading to the atmosphere, in order to prevent the system from becoming air-bound.
  • the combined heating and cooling arrangement about the fuel tank is effective in maintaining the fuel at a temperature to insure correct volatilization and burning. It will be further understood that the arrangement of the cooling conduits, such as 80, 85, the condenser 22, and other constructional features of the assembly, provide a neat and compact arrangement, which is easily accessible and economically constructed and maintained.
  • a frame member comprising a crank case, an air conduit having a portion extending along and below the crank case, and a fuel tank above the crank case adapted partially to surround a power cylinder of the engine, said conduit having another portion extending laterally of the crank case and into adjacence with the fuel tank.
  • an element forming a crank ease and frame for the engine ineluding an air conduit having a portion disposed to cool the crank' case, and another portion extending parallel to the power cylinder, a fuel tank disposed above said crank case and cast integrally therewith, the fuel tank being adapted to be heated from the power cylinder of the engine and its heat content controlled by proximity to the air conduit.
  • a power cylinder In an internal combustion engine, a power cylinder, a frame member comprising a crank case and a fuel tank cast integrally with the frame, a power cylinder disposed partly within said casting, an air conduit extending partly along the crank case, and partly parallel to the cylinder, the fuel tank being disposed adjacent a portion of the air conduit and arranged to surround, partially, the power cylinder, and spaced therefrom, and a heatinsulating means disposed within the space between said tank and cylinder.
  • a frame member comprising as a single casting, a crank case adapted to contain a lubricant, a fuel tank disposed above the crank case and located adjacent a power cylinder of the engine, said frame member having an air passage therein, beneath the crank case, whereby the lubricant therein is cooled by the air in said passage; a portion of said fuel tank extending into said crank case and adapted to be cooled by the lubricant.
  • a cast frame member comprising a crank case forming a crank chamber adapted to contain a supply of lubricant, and comprising a fuel tank disposed above the crank chamber and adapted partially to extend into the crank case; said frame member having an air pas- VAl sage below the crank case, ada ted for the introduction of cooling air an adapted to cool the lubricant in the crank case and the contents of the fuel tank, said frame member comprising a second air passage formed in part by a wall of the fuel tank, and adapted thereby further to cool the contents of said tank.
  • said frame member comprising an air conduit disposed beneath the crank case and comprising a combined fan and fly wheel housing adapted to direct the air from said conduit to points adjacent said fuel tank and adjacent the cylinder head.
  • crank case adapted to contain a supply of lubricant
  • afuel tank disposed above the crank case and adapted to enclose a portion of the crank chamber
  • the crank case having an air conduit disposed adjacent the su ply of lubricant therein and adapted to cooi the lubricant, a wall of said fuel tank being adapted to be cooled by lubricant from said crank case.
  • a wheel having fan elements thereon, a cran case and frame member comprising as an integral part thereof a fuel tank located above and extending partly within the crank case, said frame member having an air conduit formed below the crank case adapted to cool the fluid contents of the crank case, said frame member further comprising a second air conduit in communication with the first, and forming a housing for the fly wheel and fan elements, said second named conduit being adapted to deliver cooling air about and above the power cylinder and through a heat radiating means.
  • a frame member comprising a crank case and a fuel tank disposed above the crank case and adapted to be heated by a power cylinder of the engine, a combined fly wheel and fan disposed within said frame member and a housing for said fan associated with the frame member, a portion of the fuel tank extending above said fly wheel and fan, whereby the fuel tank is adapted to be cooled directly by said fan.
  • a fuel 'tank located adjacent the power cylinder and adapted to be heated thereby, and means for directing a cooling fluid towardthe fuel tank and adapted to imit the temperature thereof.
  • a frame member comprising a crank case and a fuel tank cast integrally with the frame said frame member having an air conduit adapted to deliver cooling air about and above the power cylinder, a cylinder jacket for cooling fluid, a radiating condenser disposed above said cooling/jacket, and meanskfor directin said cooling air current through said con enser.
  • a power cylinder a frame member comprising a crank case and a fuel tank cast integrally with said frame, said frame member having air conduits adapted to direct cooling air about said crank case and fuel tank, a cylinder cooling jacket substantially shorter than said cylinder, means adapted to establish a level of cooling media below the top of said jacket, a condenser disposed above said jacket, and means for directing the cooling air current through said condenser.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • General Engineering & Computer Science (AREA)
  • Cylinder Crankcases Of Internal Combustion Engines (AREA)

Description

April 14, 1931. c. B. JAHNKE ET AL 1,801,085
POWER PLANT l Original Filed Dec. 16, 1927 ATTORNEY Patented Apr. 14, 1,931
UNITED sTATEs PATENT OFFICE CHARLES B. JAHNKE AND ALFRED C. IBOOCK, OF BELOIT, WISCONSIN, ASSIGNOBS T0 FAIRBANKS, MORSE & CO.,O1` CHICAGO, ILLINOIS, A CORPORATION OF ILLINOIS POWER PLANT Originalapplication led December 16, 1927, Serial No. 240,604. Divided and this application med March 7, 1,929. Serial No. 344,960.
This invention relates to improvements in power plants, and more particularly to means for cooling the parts of an internal combustion engine which is directly connected to a generator. c
An object of the present invention isto provide a direct connected power plant Whlch is neat and compact in arrangement and which is economical to construct and malntain.
A further object is the provision of an irnproved and eiiicient cooling system, compr1sing a means for cooling the engine by vapor, and comprising a novel arrangement of cooling fans and air ducts adapted to direct and confine a current of cooling air about the various parts of the engine and through a condenser. Further, this system attains the object of controlling the temperature of the lubricating oil in the crank case, and of the fuel oil in the supply tank.
Further objects `and advantages will appear from the following detaile description of the parts and the accompanying drawing, which is a longitudinal'section, partially in elevation, of a preferred form of power plant, to which the improvements are applied; and from a copending application filed December 16, 1927, and bearin Serial No. 240,604, of which the present su ject matter is a division.
It will, of course, be understood that the present detailed description of the parts and the accompanying drawing relate to a single preferred executional embodiment of the invention and that substantial changes may bemade in the described construction and arrangement of the parts, without departing from the spirit and full intendment of this invention.
The reference characters of the drawing are uniform with those a pearin in the copending application of erial o. 240,604, above mentioned. The same system of reference characters is used in order better to coordinate the subject matter of both the present and the parent application.
Referring by numerals to the drawings, 10 designates the crank case, which is preferably a casting serving as a frame for the assembly,
and on which is mounted a cylinder castin 11. This comprises a cylinder 12 in whic operates the power piston 13, which may be of any suitable form. The cylinder casting 11 is separate from, and carried by the crank case` casting, and includes valve guides 14, and tappet guides 15. The guides serve to position and to determine the path of travel of valves 16 and tappets 17 respectively, both of which may be of any suitable, conventional type. Mounted upon the member 11, and formed separately therefrom, is the cylinder head 18 provided with a passageway or opening 19 in communication with the combustion space 20. The head 18 may be provided with an opening to receive a spark plug 21, or equivalent ignition device. A condenser or radiator 22 is located, by preference, above the cylinder head 18, and is disposed horizontally in order to minimize the over-all height of the plant. The condenser 22 andthe cylinder head 18, as well as other adjacent parts of the plant, may be surrounded and enclosed by a hinged cover 23. For convenience in lifting the cover, it is preferably made of a light material, such as sheet metal, and may be provided with a retaining device such as a spring clip, (not shown), to prevent any movement or vibration thereof during the operation of the engine. yThe top portion of the cover 23 consists of a screen 24. This permits the free passage of cool air through the top of cover 23, and serves as a guard for the parts enclosed thereby. The cover 23 not only directs the air through the condenser or radiator, but causes a sufficient circulation of air over the cylinder head to permit the use, if preferred, of an air cooled head. If desired, the cover 23 may be made heavy enough to serve as a support for the condenser. It is more desirable, however, to hinge the cover as shown, to give access to the top portion of the engine without disconnecting any parts. Operating in the crank case, and projecting therethrough to the generator, is a crank shaft 25, on the inside end of which is a crank arm 26. The construction of the crank shaft and crank arm constitute this assembly as one of the so-called overhang type. A
- members 34 which serve the purpose of fan blades to move the air for cooling purposes..
connecting rod 27 serves as the operative connection between crank arm 26 and the piston 13. The crank is provided with a counterweight 28 which may be formed integrally therewith. By the use of a counterweight for balancing, the moment of reciprocating parts is balanced, both about the axis of the crank arm and about the axis of the crank shaft.
The crank shaft 25 is supported and carried by a bearing plate 30 and a bearing 31. These serve also as bearing members for the generator, hereinafter described. The bearing plate 30 is fastened to the crank case or frame 10, which includes a member 32 within which the fly wheel 33' rotates. The iiy wheel is keyed to the crank shaft, and is provided with a plurality of peripherally disposed, web-like The path of the cooling air is hereinafter described. Endwise movement of the fly wheel 33 is prevented by means of a plate 35 and a collar 36, in a manner which will be apparent from the drawings.
In the generator the armature is shown at 37. This may be of any suitable form and is preferably mounted on a sleeve 38, in a manner described in detail in a copending application, Serial No. 240,466, filed December 16, 1927.
An end bearing for the armature shaft, such as 40, may be carried by a member 41, formed by the generator case 42, which may, in turn, be attached to the crank case 10. Suitable ole pieces 43 are preferably attached to the Eanged portion 44 of the generator c ase 42.
It will be seen from the drawings and description that the generator serves to complete the .enclosure of on'e end of the crank case. Closure of the opposite end ofthe crank case is effected by a suitable cover such as 76.
Air for cooling the motor, vand also the air for mixture with the fuel in the carburetor, is drawn through openings 77 in the end cover 7 6, and this flow of air is regulated by means of a pivoted shutter 78, provided with openings 79, which are so disposed as to register with the openings 77. Beneath the crank case proper, more particularly below the oil chamber, is an air duct 80, preferably disposed longitudinally of the engine and serving to connect the openings in end cover 76, with the fan blades 34 on the fly wheel. The generator end of the crank case 10 i-s preferably separated from the crank chamber 81 by means of plates 82 and 83, which' form a housing for the fly wheel, and also establish the course of the cooling air at these points. Besides drawing air through the air duct 80, as described, some of the air for cooling and combustion may be introduced through the generator by means of the openings 84 in the generator case. All of the air drawn in through either of the two routes described is discharged upwardly through a cooling the oil in the crank chamber.
passage 85, which is an air passage u through crank case 10. At 86 is indicate tbe fuel tank, whichis preferably cast integrally with the main casting comprising the crank case 10, etc. This fuel tank is preferably of horseshoe shape so as partially to surround the cyl inder casting 11, including the cylinder 12. As the air passes upwardly through the passage 85 itis carried past the adjacent wall of the fuel tank, and thus assists in keeping the fuel at a safe and uniform temperature. As the cooling air proceeds upwardly, past the fuel tank, its course is determinedV by the hinged cover 23, by which the air stream is compelled to pass upwardly and outwardly through the radiator or condenser 22.
In connection with the air circulating system, the present invention embodies means for cooling the lubricating oil and cooling the fuel supply in the tank 86. As described, the air in passing through the air duct 80, under the crank case, is brought into immediate cooling contact with the bottom of the crank chamber 81, in which is located the oil supply. This stream of air is thus utilized for The air duct 80 may be provided with ribs (not shown) extending longitudinally of the duct or passage. In addition, the bottom of the crank chamber 81 may be provided with internal, upwardly extending ribs (not shown) extending up into the body of lubricant in this chamber. passage of air beneath the crank chamber keeps the oil supply reasonably cool at all times. This cooled oil, in splashing up 'against the lower portion of the fuel tank 86,
aids materially in maintaining the contents of the fuel tank at a safe temperature. Excessive cooling of the lubricating oil is prevented by control of the pivoted shutter 7 8, described above. yThe described apparatus contemplates the use of a combined splash and pressure lubricating system, but it will be Vseen that the cooling system for the oil is obviously adaptable to either system of lubrication alone. I In the above connection the shape and location of fuel tank 86 is of advantage in presenting a substantial surface to the cooling air stream. In other engines having a cast-in fuel tank, it has customarily been located either in lthe baseor the sub-base, and away from the engine proper. In order to keep the temperature of the fuel at all times safely below the flash point, the tank may be insulated from the cylinder 12 by an air space 90, which may be divided by a heat insulating shield 91. The fuel tank is also heat insulated from the water jacket hereinafter described, by means of a narrow gasket 92, thereby providing a horizontal air space 93. The vertical wall of the fuel tank 86 is, by preference, used to form part of the air passage from the fly wheel 33 to the radiator 22.
In practice it vis found that the If preferred, upwardly extending ribs (not shown) may be added to the outer wall of the fuel tank to increase further the cooling effeet from this air stream. Additional cooling of the fuel tank ma be obtained by provi ing openings, (not s own) in the webbed portion of the fly wheel 33, thereby causing air to circulate under that portion of the fuel tank which overhangs the fiy wheel, as shown at 94. The cooling effect ma still further be increased, by cooling ribs or ns (not shown) placed on the bottom wall of the fuel tank.
A further objection to prevailing forms of engines is found in the fact that a substantial difference in fuel mixture results from a variation in fuel level, affecting the total head on the fuel suction. In my arrangement the main fuel tank 86 is so located with respect to the cylinder of the engine that as the fuel level in tank 86 recedes, the heating effect of the cylinder will compensate for the lower level of the fuel. In practice it is found that the increase in volatility and decrease in viscosity due to this heating effect, practically balance the tendenc toward a leaner mixture ordinarily caused y a receding fuel level. This construction eliminates the necessity of using a float chamber, with its expense, uncertainty and liability to stoppage and leakave.
tThe cooling system for the head and cylinder proper of the engine, is of the vapor type, comprising essentially a short cooling jacket 95, below which is located the air space 90, above described. The level of the liquid in the jacket is determined by the height of a filler opening 96, and this level is such that the jacket is not completely filled. During operation of the engine, vapor rises through tubes 97 up into the vapor condenser or radiator 22, where it is condensed and returned by gravity, either through the vapor riser tubes 97 or through an additional tube 98. The end of the radiator or condenser 22 opposite the vapor lead 97, may be provided with a small opening (not shown), leading to the atmosphere, in order to prevent the system from becoming air-bound. There is no tendency for vapor to escape through this opening because the capacity of the condenser is sufiicient to condense all of the vapor before it reaches the opening. For this reason the system will very seldom require additional water or cooling fiuid. It will be seen from the drawing that the location of the condenser above the cylinder headand cooling jacket eliminates the necessity of a pump for returning condensed liqlgid to the system. The system offers the furt er advantage of enabling the use of cooling media of various boiling points thus permitting an exact temperature control of the engine.
While we have shown and described the cylinder head as being jacketed, and vapor cooled, it will be understood that due to the volume of air delivered by the fly wheel fan, an air cooled head may equally well be employed.
It will be readily understood that the combined heating and cooling arrangement about the fuel tank, is effective in maintaining the fuel at a temperature to insure correct volatilization and burning. It will be further understood that the arrangement of the cooling conduits, such as 80, 85, the condenser 22, and other constructional features of the assembly, provide a neat and compact arrangement, which is easily accessible and economically constructed and maintained.
We claim as our invention:
1. In an internal combustion engine, a frame member comprising a crank case, an air conduit having a portion extending along and below the crank case, and a fuel tank above the crank case adapted partially to surround a power cylinder of the engine, said conduit having another portion extending laterally of the crank case and into adjacence with the fuel tank.
2. In an internal combustion engine having a power cylinder, an element forming a crank ease and frame for the engine ineluding an air conduit having a portion disposed to cool the crank' case, and another portion extending parallel to the power cylinder, a fuel tank disposed above said crank case and cast integrally therewith, the fuel tank being adapted to be heated from the power cylinder of the engine and its heat content controlled by proximity to the air conduit.
3. In an internal combustion engine, a power cylinder, a frame member comprising a crank case and a fuel tank cast integrally with the frame, a power cylinder disposed partly within said casting, an air conduit extending partly along the crank case, and partly parallel to the cylinder, the fuel tank being disposed adjacent a portion of the air conduit and arranged to surround, partially, the power cylinder, and spaced therefrom, and a heatinsulating means disposed within the space between said tank and cylinder.
4. In an internal combustion engine, a frame member comprising as a single casting, a crank case adapted to contain a lubricant, a fuel tank disposed above the crank case and located adjacent a power cylinder of the engine, said frame member having an air passage therein, beneath the crank case, whereby the lubricant therein is cooled by the air in said passage; a portion of said fuel tank extending into said crank case and adapted to be cooled by the lubricant.
5. In an internal combustion engine, a cast frame member comprising a crank case forming a crank chamber adapted to contain a supply of lubricant, and comprising a fuel tank disposed above the crank chamber and adapted partially to extend into the crank case; said frame member having an air pas- VAl sage below the crank case, ada ted for the introduction of cooling air an adapted to cool the lubricant in the crank case and the contents of the fuel tank, said frame member comprising a second air passage formed in part by a wall of the fuel tank, and adapted thereby further to cool the contents of said tank.
6. In an internal combustion engme, a
- case and a fuel tank formed integrally therewith and disposed above the crank case, said frame member comprising an air conduit disposed beneath the crank case and comprising a combined fan and fly wheel housing adapted to direct the air from said conduit to points adjacent said fuel tank and adjacent the cylinder head.
8. In an internal combustion engine, a crank case adapted to contain a supply of lubricant, afuel tank disposed above the crank case and adapted to enclose a portion of the crank chamber, the crank case having an air conduit disposed adjacent the su ply of lubricant therein and adapted to cooi the lubricant, a wall of said fuel tank being adapted to be cooled by lubricant from said crank case.
9. In an internal combustion engine, a wheel having fan elements thereon, a cran case and frame member comprising as an integral part thereof a fuel tank located above and extending partly within the crank case, said frame member having an air conduit formed below the crank case adapted to cool the fluid contents of the crank case, said frame member further comprising a second air conduit in communication with the first, and forming a housing for the fly wheel and fan elements, said second named conduit being adapted to deliver cooling air about and above the power cylinder and through a heat radiating means.
10. In an internal combustion engine, a frame member comprising a crank case and a fuel tank disposed above the crank case and adapted to be heated by a power cylinder of the engine, a combined fly wheel and fan disposed within said frame member and a housing for said fan associated with the frame member, a portion of the fuel tank extending above said fly wheel and fan, whereby the fuel tank is adapted to be cooled directly by said fan.
11. In an internal combustion engine having a power cylinder, a fuel 'tank located adjacent the power cylinder and adapted to be heated thereby, and means for directing a cooling fluid towardthe fuel tank and adapted to imit the temperature thereof.'
12. In an internal combustion engine, a
power cylinder, a frame member comprising a crank case and a fuel tank cast integrally with the frame said frame member having an air conduit adapted to deliver cooling air about and above the power cylinder, a cylinder jacket for cooling fluid, a radiating condenser disposed above said cooling/jacket, and meanskfor directin said cooling air current through said con enser.
13. In an internal combustion engine, a power cylinder, a frame member comprising a crank case and a fuel tank cast integrally with said frame, said frame member having air conduits adapted to direct cooling air about said crank case and fuel tank, a cylinder cooling jacket substantially shorter than said cylinder, means adapted to establish a level of cooling media below the top of said jacket, a condenser disposed above said jacket, and means for directing the cooling air current through said condenser.
CHARLES B. JAI-INKE. ALFRED C. BOOCK.
roo
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0122557A2 (en) * 1983-04-13 1984-10-24 Nissan Motor Co., Ltd. Improved arrangement of boiling liquid cooling system of internal combustion engine

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0122557A2 (en) * 1983-04-13 1984-10-24 Nissan Motor Co., Ltd. Improved arrangement of boiling liquid cooling system of internal combustion engine
EP0122557A3 (en) * 1983-04-13 1985-03-13 Nissan Motor Company, Limited Improved arrangement of boiling liquid cooling system of internal combustion engine
US4538554A (en) * 1983-04-13 1985-09-03 Nissan Motor Co., Ltd. Arrangement of boiling liquid cooling system of internal combustion engine

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