US2058055A - Internal combustion engine - Google Patents

Internal combustion engine Download PDF

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US2058055A
US2058055A US387451A US38745129A US2058055A US 2058055 A US2058055 A US 2058055A US 387451 A US387451 A US 387451A US 38745129 A US38745129 A US 38745129A US 2058055 A US2058055 A US 2058055A
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shafts
shaft
bearing
crank
internal combustion
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US387451A
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Alfred C Boock
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Fairbanks Morse and Co
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Fairbanks Morse and Co
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02FCYLINDERS, PISTONS OR CASINGS, FOR COMBUSTION ENGINES; ARRANGEMENTS OF SEALINGS IN COMBUSTION ENGINES
    • F02F7/00Casings, e.g. crankcases or frames
    • F02F7/0043Arrangements of mechanical drive elements
    • F02F7/0053Crankshaft bearings fitted in the crankcase
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S123/00Internal-combustion engines
    • Y10S123/06Detachable
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/21Elements
    • Y10T74/2186Gear casings

Definitions

  • This invention relates to improvements in internal combustion engines, and particularly to improved engine frame and bearing constructions.
  • An object of the present invention is to provide an improved bearing arm which serves to support and carry a plurality of related engineshafts, which is readily removable, with its related shafts, from the engine, as a unit, which permits maximum ease and simplicity of assembly. and which l0 is simple and durable in construction.
  • a further object is to provide an improved enclosing means for the crank case of internal combustion engines, which serves to enclose entirely the crank case and bearing assembly, which provides an oil reservoir common to the crank case and enclosing means, and which is wholly and independently removable from the crank case without interference with or disturbance to, the bearing assembly.
  • a still further object is to provide an improved enclosing means for the crank case of an internal combustion engine of a type in which the crank case is employed partially to enclose apparatus to be gear driven from the engine, the enclosing 25 structure providing a splash-ailing reservoir common to the geared means and the crank case of the engine.
  • Fig. 1 is an en ⁇ d elevation, partially in section, of an internal combustion engine embodying a preferred arrangement of the improvements
  • Fig. 2 is a sectional elevation taken along the line l35 2'-2 of Fig. 1
  • Fig. 3 is a sectional elevation taken along the line 3-3 of Fig. 1
  • Fig. 4 is a sectional elevation taken along the line 4-4 of Fig. 1.
  • I0 designates a unitary frame and base structure for an internal combustion engine,A or the like, in or with which is cast integrally, a fuel tank Il, a
  • crank case l5 is provided with an open-end portion il for a purpose that will hereinafter appear.
  • crank shaft 20 Operating in the cylinder It is a piston it which is operatively related to a crank pin it by means of a connecting rod 20.
  • This rod is, by preference, formed in one piece, in order to eliminate the removable cap portion at the crank end thereof.
  • a builtup or separable crank shaft 2i is used, constructed as best seen in Fig. 1.
  • the preferred type of shaft, such as 2i comprises a pair of oppositely disposed crank members 22 with the crank pin i9 mounted therebetween.
  • These members 22 are similarly forged to include crank shaft portions 22, and y wheel or counterweight portions 24. It will be readily seen that the shaft portion 23, and the counterweight portion 24 are integrally formed with the member 22.
  • the pin it is flxedly mounted in one of the portions 24, but removably mounted in the other or companion portion 2l, in order to permit the separation of the parts of the crank shaft to enable the connecting rod to be assembled to the pin i9.
  • Roller bearings 25, or the equivalent are mounted on each end of the shaft 23, and are adapted to be carried in bearing openings 2B of bearing carriers 21.
  • Rotary movement of the crank shaft 2i is transmitted to a cam shaft 28 by means of meshing gears 29 and 30, carried on the crank shaft and cam shaft, respectively.
  • are rotatably mounted on each end of the cam shaft 28, and are carried in another pair of openings 26 provided in the carriers 21.
  • each bearing arm 21, is, by preference, formed in one piece, and that it is arranged to support a plurality of related engine shafts only, or in combination with the roller bearings and 3 I
  • the shafts are, preferably, so disposed as to be mounted in the open portion i1 of the crank case and to be supported therein, by the bearing arms 21 which are, by preference, removably attached by means of cap screws or bolts 32 associated with a nished face 23 of the frame i0.
  • the cam shaft 28 is provided with cams 34 and 35, which are operatively related to the inlet and exhaust valves 36 and 31 by means of rocker arms 88 pivotally attached to a stationary portion 88 of the frame (Fig. 3).
  • a gear 40 is mounted on the cam shaft 28, and is adapted .to mesh with a gear 4I, inorder to drive a magneto shaft 42.
  • the shaft 42 is, by preference, mounted in a tubular housing which is formed integrally with the frame and is adapted to provide a bearing and lubricating reservoir for the shaft. This tubular housing extends through the cooling hopper I8 and is adapted to becooled thereby, to effect a uniform operating temperature of this bearing.
  • a magneto 48 is removably attached to a plane face 44 of the frame, and is provided with a stub drive-shaft 45 which is tongued to be detachably but also drivingly engaged by a jawed portion of thedrive shaft 42,
  • the magneto 48 ⁇ may be readily removed from, or assembled to the drive shaft 42, without disturbing the operative mounting of this shaft, or the timing of the magneto with respect to the engine.
  • the cam shaft 28 is extended on either side beyond the frame I0, and is adapted to be attached to a pulley 46, or the like, (Fig. 1).
  • a gear 41 is, by preference, keyed to the cam shaft 28, and is adapted for connection with any desired gear-driven equipment.
  • a removable cover member 48 for enclosing the open-end portion I 1 of the crank ca se and the bearing assembly, there is provided a removable cover member 48, (Figs. 2 and 3) which is adapted to be bolted to the end face thereof, to effect an oil tight enclosure. It will be readily understood that the cover is wholly and independently removable from the frame without any disturbance to the bearing assembly. 'I'hiscover may be replaced by a power head, or the equivalent, (Fig. 4) which includes a gear 4! or the like, adapted to mesh with the gear 41 on the cam shaft, in order to drive equipment such as a deep well pump or other gear driven apparatus.
  • crank shaft and cam shaft assembly including the bearings therefor, all moving and wearing engine parts except the magneto shaft and valve mechanism, may be removed, endwise, from the engine, as a unit, simply upon removal of the end closure member 48, and detachment of the stud bolts 82 or the equivalent.
  • 'Ihe described unit includes all engine bearings, and the easy removability of the described crankand cam-shaft assembly, enables any adjustment of the bearings, to be made on the bench.
  • T'he unitary frame portion constructed preferably as a single casting, results in the formation ⁇ in one operation of the cylinder and all accessory containers, and eliminates the assembly costs Iusually incident thereto. It will be readily seen that the bearing assembly is removable from, and may be assembled to, the engine frame structure as a unit, in a manner to eliminate any expensive and troublesome machining of bearing surfaces case structure divided along a plane parallel to the shafts.
  • each plate including an integral annular bearing surrounding each shaft, seats for the ends of said plates, projecting internally of opposite walls of one division of said case structure, and threaded members associated with said plates, adapted to engage said seats and permit introduction and removal of said plates and shafts from said case as an asdivision of the case structure.
  • crank and cam-shafts in preassembled timed relation, said means including gearing operatively connecting the shafts in predetermined phase relation, a crank case or housing structure having an end opening, a closure member for said opening, the closure and housing provided with plane marginal mating surfaces, and a pair of spaced parallel, one-piece plates disposed transversely of the shafts and serving as bearing brackets distinct from the housing and closure member, each of said brackets having a securement lug at each of its opposite ends, and paired shaft-receiving bosses formed by integral annular enlargements of the plates, each of said bosses completely surrounding one of the shafts over a portion of its length to enable the brackets to be inserted over the ends of the shafts, with the shaft gearing between the brackets, the assembly including said shafts, gearing and brackets adapted to be inserted and removed as a unit transversely of said housing opening, plane extensions projecting inwardly of the marginal portions of the housing, and adapted for engagement
  • an enclosed mounting for conneotedcrank and cam shafts including a crank-case open at one end, a hollow closure for the open portion, a pair of elongate plates disposed transversely of the shafts and serving as bearing brackets therefor, each of said plates having spaced annular shaft bearing bosses formed by integral plate enlargements, and inserted over the ends of the shafts, antifriction bearings for said shafts, carried within the bearing apertures, shaft gearing between the brackets, threaded holding members for the brackets, apertured end projections on the brackets for receiving the holding members,
  • bracket projections extended inwardly of the mating surfaces of the case and closure, said projections and seats arranged substantially in the plane of said shafts whereby said assembly is detachably disposed in bridging relation across the open end of the casing, and adapted to be readily inserted and removed as an operative unit with the shafts in timed relation, upon removal of said closure.
  • a structure for removably supporting and enclosing connected crankand cam-shafts said structure including a crank-case having an end opening and a cover therefor, the case and cover provided with "acepte plane mating surfaces, a frame s.,- ing of two spaced parallel bracket plates, each disposed at a right angle to the shafts, and each provided with two integral annular bearing bosses, adapted to be inserted over the ends of said shafts, the 'frame being detachably mounted acrosslthe said case opening, roller bearings for each of said shafts, carried within'the annular bosses, gearing connecting said shafts, and disposed between said frame brackets, the case opening being of a size, and the bracket plates constructed to permit the ready introduction and removal of said frame, shafts and gearing as an assembled pretimed unit, bolts extended through the ends of said brackets at points inwardly of the mating surfaces of the closure portions, for securing the frame'and as- ⁇ plates
  • An enclosed mounting for operatively supporting paired connected parallel shafts in pretimed relation including a casing open at one end, a hollow closure for the open portion, a pair of elongate plates disposed transversely of the shafts and serving as bearing brackets therefor, each of said plates having spaced annular shaft bearing bosses formed by integral plate enlargements, and inserted over the ends of the shafts, anti-friction bearings for said shafts, carried within the bearing apertures, shaft gearing between the brackets.

Description

Oct. zo, 1936. A C, BOOCK 2,058,055
INTERNAL COMBUSTION ENGINE Filed Aug. 2l, 1929 4 Sheess-Sheet 1 ATTORNEY oct. 2o, 1936. A, C, BOOCK 2,058,055
INTERNAL COMBUST ION ENGINE Filed Aug. 2l, 1929 4 Sheets-Sheet 2 L I n INVENTOR 1 FEM? C 500C( BWM ATTORNEY Oct. 20, 1936. A Q BQQCK 2,058,055
INTERNAL COMBUSTION ENGINE Oct. 20, 1936. A. c. BoocK INTERNAL COMBUSTION ENGINE 4 Sheets-Sheet 4 Filed Aug. 21, 1929 V GQ INVENToR HAF/P5176 500e/r BY ATTORNEY Patented Oct. 20, 1936 UNITED STATES PATENT OFFICE INTERNAL COMBUSTION EWGINE of Illinois Application August 21, 1929, Serial No. 382,251
t Claims.
This invention relates to improvements in internal combustion engines, and particularly to improved engine frame and bearing constructions.
An object of the present invention is to provide an improved bearing arm which serves to support and carry a plurality of related engineshafts, which is readily removable, with its related shafts, from the engine, as a unit, which permits maximum ease and simplicity of assembly. and which l0 is simple and durable in construction.
A further object is to provide an improved enclosing means for the crank case of internal combustion engines, which serves to enclose entirely the crank case and bearing assembly, which provides an oil reservoir common to the crank case and enclosing means, and which is wholly and independently removable from the crank case without interference with or disturbance to, the bearing assembly.
A still further object is to provide an improved enclosing means for the crank case of an internal combustion engine of a type in which the crank case is employed partially to enclose apparatus to be gear driven from the engine, the enclosing 25 structure providing a splash-ailing reservoir common to the geared means and the crank case of the engine.
Further objects and advantages will appear from the following detailed description of the 30 parts and the accompanying drawings, in which Fig. 1 is an en`d elevation, partially in section, of an internal combustion engine embodying a preferred arrangement of the improvements; Fig. 2 is a sectional elevation taken along the line l35 2'-2 of Fig. 1; Fig. 3 is a sectional elevation taken along the line 3-3 of Fig. 1; and Fig. 4 is a sectional elevation taken along the line 4-4 of Fig. 1.
It will, of course, be understood that the pres- 40 ent detailed description of parts and the accompanying drawings relate to a single preferred executional embodiment of the 'present invention. and that substantial changes may be made without departing from the spirit and full intendment 45 of the invention.
Referring by numerals to the drawings, I0 designates a unitary frame and base structure for an internal combustion engine,A or the like, in or with which is cast integrally, a fuel tank Il, a
50 water jacket l2, a cooling hopper i3, a magneto drive-shaft bearing and lubricating chamber Il, a crank case chamber I5, and a cylinder I6. By this provision itis practically possible to cast the necessary finish surface of the frame in in 55 substantially vertical planes, in order to permit (m. R21-1M) maximum ease and simplicity in finish-machining such surfaces, and thereby to facilitate to a large extent the quantity production of such frames. lit will be noted that the crank case l5 is provided with an open-end portion il for a purpose that will hereinafter appear.
Operating in the cylinder It is a piston it which is operatively related to a crank pin it by means of a connecting rod 20. This rod is, by preference, formed in one piece, in order to eliminate the removable cap portion at the crank end thereof. To facilitate the assembly of this preferred type of rod to the crank pin i9, a builtup or separable crank shaft 2i is used, constructed as best seen in Fig. 1. The preferred type of shaft, such as 2i, comprises a pair of oppositely disposed crank members 22 with the crank pin i9 mounted therebetween. These members 22 are similarly forged to include crank shaft portions 22, and y wheel or counterweight portions 24. It will be readily seen that the shaft portion 23, and the counterweight portion 24 are integrally formed with the member 22. The pin it is flxedly mounted in one of the portions 24, but removably mounted in the other or companion portion 2l, in order to permit the separation of the parts of the crank shaft to enable the connecting rod to be assembled to the pin i9.
Roller bearings 25, or the equivalent, are mounted on each end of the shaft 23, and are adapted to be carried in bearing openings 2B of bearing carriers 21. Rotary movement of the crank shaft 2i is transmitted to a cam shaft 28 by means of meshing gears 29 and 30, carried on the crank shaft and cam shaft, respectively. Roller bearings 3| are rotatably mounted on each end of the cam shaft 28, and are carried in another pair of openings 26 provided in the carriers 21. It will be readily understood that each bearing arm 21, is, by preference, formed in one piece, and that it is arranged to support a plurality of related engine shafts only, or in combination with the roller bearings and 3 I Further, the shafts are, preferably, so disposed as to be mounted in the open portion i1 of the crank case and to be supported therein, by the bearing arms 21 which are, by preference, removably attached by means of cap screws or bolts 32 associated with a nished face 23 of the frame i0. By this provision, the bearing arms 21, together with their related shafts, are removable from the frame I0, as a unit.
The cam shaft 28 is provided with cams 34 and 35, which are operatively related to the inlet and exhaust valves 36 and 31 by means of rocker arms 88 pivotally attached to a stationary portion 88 of the frame (Fig. 3). A gear 40 is mounted on the cam shaft 28, and is adapted .to mesh with a gear 4I, inorder to drive a magneto shaft 42. It will be noted that the shaft 42 is, by preference, mounted in a tubular housing which is formed integrally with the frame and is adapted to provide a bearing and lubricating reservoir for the shaft. This tubular housing extends through the cooling hopper I8 and is adapted to becooled thereby, to effect a uniform operating temperature of this bearing. A magneto 48 is removably attached to a plane face 44 of the frame, and is provided with a stub drive-shaft 45 which is tongued to be detachably but also drivingly engaged by a jawed portion of thedrive shaft 42,
(Fig. 4). By such a provision, the magneto 48` may be readily removed from, or assembled to the drive shaft 42, without disturbing the operative mounting of this shaft, or the timing of the magneto with respect to the engine.
In order to provide means for delivering power from the engine, the cam shaft 28 is extended on either side beyond the frame I0, and is adapted to be attached to a pulley 46, or the like, (Fig. 1). A gear 41 is, by preference, keyed to the cam shaft 28, and is adapted for connection with any desired gear-driven equipment. For enclosing the open-end portion I 1 of the crank ca se and the bearing assembly, there is provided a removable cover member 48, (Figs. 2 and 3) which is adapted to be bolted to the end face thereof, to effect an oil tight enclosure. It will be readily understood that the cover is wholly and independently removable from the frame without any disturbance to the bearing assembly. 'I'hiscover may be replaced by a power head, or the equivalent, (Fig. 4) which includes a gear 4! or the like, adapted to mesh with the gear 41 on the cam shaft, in order to drive equipment such as a deep well pump or other gear driven apparatus.
In addition to the advantages heretofore noted in connection with the description of parts and their assembly, it will be noted that by the provision of a unitary crank shaft and cam shaft assembly, including the bearings therefor, all moving and wearing engine parts except the magneto shaft and valve mechanism, may be removed, endwise, from the engine, as a unit, simply upon removal of the end closure member 48, and detachment of the stud bolts 82 or the equivalent. 'Ihe described unit, as will be noted, includes all engine bearings, and the easy removability of the described crankand cam-shaft assembly, enables any adjustment of the bearings, to be made on the bench. It will be further seen that the present provision of engine bearings, supported entirely inside the crank case or frame portion of the engine, serves not only fully to protect the bearings from dirt and foreign matter, but is conducive to improved lubrication and oil economy, since the usual escape of oil about the crank shaft bearings is practically prevented by the present construction. This feature is of particular value in connection with high speed engines of a type chosen as an exampe in the present disclosure.
T'he unitary frame portion, constructed preferably as a single casting, results in the formation `in one operation of the cylinder and all accessory containers, and eliminates the assembly costs Iusually incident thereto. It will be readily seen that the bearing assembly is removable from, and may be assembled to, the engine frame structure as a unit, in a manner to eliminate any expensive and troublesome machining of bearing surfaces case structure divided along a plane parallel to the shafts. a pair of spaced bearingl plates disposed transversely of the shafts and adapted-.to be applied over the ends thereof, each plate including an integral annular bearing surrounding each shaft, seats for the ends of said plates, projecting internally of opposite walls of one division of said case structure, and threaded members associated with said plates, adapted to engage said seats and permit introduction and removal of said plates and shafts from said case as an asdivision of the case structure.
2. In an internal combustion engine, means formounting crank and cam-shafts in preassembled timed relation, said means including gearing operatively connecting the shafts in predetermined phase relation, a crank case or housing structure having an end opening, a closure member for said opening, the closure and housing provided with plane marginal mating surfaces, and a pair of spaced parallel, one-piece plates disposed transversely of the shafts and serving as bearing brackets distinct from the housing and closure member, each of said brackets having a securement lug at each of its opposite ends, and paired shaft-receiving bosses formed by integral annular enlargements of the plates, each of said bosses completely surrounding one of the shafts over a portion of its length to enable the brackets to be inserted over the ends of the shafts, with the shaft gearing between the brackets, the assembly including said shafts, gearing and brackets adapted to be inserted and removed as a unit transversely of said housing opening, plane extensions projecting inwardly of the marginal portions of the housing, and adapted for engagement by said securement lugs, and separate threaded elements adapted, respectively. for securement of the closure member to the housing structure, and for securing the bracket lugs to said extensions.
3. In an internal combustion engine, an enclosed mounting for conneotedcrank and cam shafts, including a crank-case open at one end, a hollow closure for the open portion, a pair of elongate plates disposed transversely of the shafts and serving as bearing brackets therefor, each of said plates having spaced annular shaft bearing bosses formed by integral plate enlargements, and inserted over the ends of the shafts, antifriction bearings for said shafts, carried within the bearing apertures, shaft gearing between the brackets, threaded holding members for the brackets, apertured end projections on the brackets for receiving the holding members,
tapped seats for said bracket projections, extended inwardly of the mating surfaces of the case and closure, said projections and seats arranged substantially in the plane of said shafts whereby said assembly is detachably disposed in bridging relation across the open end of the casing, and adapted to be readily inserted and removed as an operative unit with the shafts in timed relation, upon removal of said closure.
'4. In an internal combustion engine, a structure for removably supporting and enclosing connected crankand cam-shafts, said structure including a crank-case having an end opening and a cover therefor, the case and cover provided with "acepte plane mating surfaces, a frame s.,- ing of two spaced parallel bracket plates, each disposed at a right angle to the shafts, and each provided with two integral annular bearing bosses, adapted to be inserted over the ends of said shafts, the 'frame being detachably mounted acrosslthe said case opening, roller bearings for each of said shafts, carried within'the annular bosses, gearing connecting said shafts, and disposed between said frame brackets, the case opening being of a size, and the bracket plates constructed to permit the ready introduction and removal of said frame, shafts and gearing as an assembled pretimed unit, bolts extended through the ends of said brackets at points inwardly of the mating surfaces of the closure portions, for securing the frame'and as- `plates disposed transversely of the shafts and adapted to be applied over the ends thereof, each plate including an integral annular bearing surrounding each shaft, seats for the ends of said v plates, projecting internally of opposite walls of one division of' said casing structure, and threaded members associated with said plates. adapted to engage said seats and permit introduction and removal of said plates and shaftsv from said casing as an assembled unit with the shafts in pre- .determined phase relation, upon removal of the adiacenti division of the casing structure.
6. An enclosed mounting for operatively supporting paired connected parallel shafts in pretimed relation, including a casing open at one end, a hollow closure for the open portion, a pair of elongate plates disposed transversely of the shafts and serving as bearing brackets therefor, each of said plates having spaced annular shaft bearing bosses formed by integral plate enlargements, and inserted over the ends of the shafts, anti-friction bearings for said shafts, carried within the bearing apertures, shaft gearing between the brackets. threaded holding members for the brackets, apertured end projections on the brackets, for receiving the holding members, tapped seats for said Abracket projections, extended inwardly of the mating surfaces of the casing and closure, said projections and seats arranged substantially in the plane of said shafts whereby said assembly is detachably disposed in bridging relation across the open end ofthe casing, and adapted to be readily inserted and removed, as an operative unit while maintaining the shafts in predetermined phase relation, upon removal of said closure.
' ALFRED C. BOOCK.
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2658488A (en) * 1950-08-07 1953-11-10 Taub Engineering Company Internal-combustion engine
US2862484A (en) * 1956-08-10 1958-12-02 Continental Motors Corp Internal combustion engines
US2892362A (en) * 1956-03-23 1959-06-30 Bx Plastics Ltd Twin contra-rotating parallel drive shaft assemblies

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2658488A (en) * 1950-08-07 1953-11-10 Taub Engineering Company Internal-combustion engine
US2892362A (en) * 1956-03-23 1959-06-30 Bx Plastics Ltd Twin contra-rotating parallel drive shaft assemblies
US2862484A (en) * 1956-08-10 1958-12-02 Continental Motors Corp Internal combustion engines

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