CLAIMS What is claimed is:
1. An internal combustion engine having a piston reciprocable within a bore of a cylinder, said piston being pivotally connected to a crankshaft by a piston rod having a wrist pin at one end engaging said piston and a crank bearing at the opposite end engaging a throw of said crankshaft, said crankshaft being rotatably mounted on a main bearing within a crankcase positioned beneath said cylinder bore, an oil reservoir being mounted on said engine, said engine comprising: an oil sleeve positioned between said cylinder and said crankcase, said oil sleeve having a bore therethrough coaxially aligned with said cylinder bore and sized to receive said piston, said piston being reciprocable within said oil sleeve bore, an annular oil space being defined between said piston and said oil sleeve; a first seal positioned between said cylinder and said oil sleeve, said first seal circumferentially surrounding said piston and permitting a predetermined amount of oil to flow from said annular oil space to said cylinder bore for lubricating said piston within said cylinder; a second seal mounted on and circumferentially around said piston between said wrist pin and said crankshaft, said second seal having an outer circumference engaging said oil sleeve to substantially prevent oil within said annular oil space from flowing into said crankcase; a first conduit extending between said oil reservoir and a first port within said oil sleeve in fluid communication with said annular oil space, said first port being positioned so as to always be between said first and second seals regardless of the position of said piston within said cylinder bore and said oil sleeve bore; a check valve mounted within said first conduit to prevent oil back flow from said annular oil space to said reservoir; a second conduit extending through said piston from a second port in fluid communication with said annular oil space to said piston rod and along said piston rod to said crank bearing
and from said crank bearing to said main bearing and then to said oil reservoir; and upon motion of said piston moving said second seal away from said first seal, lubricating oil being drawn from said oil reservoir through said first conduit and into said annular oil space to lubricate said piston, upon further motion of said piston moving said second seal toward said first seal, lubricating oil within said annular oil space being forced through said second conduit back to said oil reservoir in a closed loop circulation, thereby lubricating said wrist pin, said crank bearing and said main bearing.
2. An engine according to Claim 1, wherein said first and second seals comprise rings of sintered bronze.
3. An.engine according to Claim 1, wherein said first oil port is positioned adjacent to said first seal.
4. An engine according to Claim 1, wherein a portion of said second conduit comprises a groove arranged lengthwise along said wrist pin.
5. An engine according to Claim 1, wherein a portion of said second conduit comprises a passageway extending lengthwise through said piston rod from said wrist pin to said crank bearing.
6. An engine according to Claim 5, wherein said piston rod is formed of two elongated portions joined together along facing surfaces, at least one of said portions having a groove arranged lengthwise therealong, thereby forming said portion of said second conduit.
7. An engine according to Claim 1, wherein said piston rod has a groove arranged substantially along its length and a cover positioned over said groove thereby forming a portion of said second conduit.
8. An engine according to Claim 7, wherein said cover comprises sheet metal wrapped around said piston rod.
9. An engine according to Claim 7, wherein said cover comprises a metal foil wrapped around said piston rod.
10. An engine according to Claim 1, said engine being a spark plug ignited two-stroke engine having a fuel supply and an exhaust port in said cylinder, said engine further comprising:
a one-way valve positioned in said crankcase allowing ambient air to enter therein; a scavenging port positioned in said cylinder substantially between said exhaust port and said crankcase; a scavenging tube extending from said crankcase to said scavenging port and providing fluid communication between said crankcase and said cylinder bore; a charging port positioned in said cylinder substantially between said scavenging port and said crankcase; a charging tube extending from said crankcase to said charging port and providing fluid communication between said crankcase and said cylinder bore; a fuel metering device receiving fuel from said fuel supply and positioned on said charging tube between said crankcase and said charging port; during engine operation, said exhaust port being first uncovered upon a power stroke of said piston allowing exhaust gases to exit said cylinder bore, said scavenging port being next uncovered upon further motion of said piston, air within said crankcase being compressed by said piston and forced through said scavenging tube and entering said cylinder bore through said scavenging port thereby forcing exhaust gases out through said exhaust port, said charging port being next uncovered upon further motion of said piston, air within said crankcase being further compressed by said piston and forced through said scavenging tube and said charging tube, said air flowing through said fuel metering device and receiving a charge of fuel therefrom, said air and said fuel charge entering said cylinder bore through said charging port; and upon the compression stroke of said piston ambient air being drawn into said crankcase through said one way valve, said charging port first being covered by said piston, said scavenging port being next covered by said piston, and said exhaust port being finally covered by said piston, said air and fuel charge within said cylinder bore being compressed by said piston and ignited by said sparkplug to initiate a subsequent power stroke of said piston.
11. An engine according to Claim 10, further comprising a throttle valve positioned within said charging tube, said
throttle valve being adjustable to control the amount of fuel and air entering the cylinder bore.
12. An engine according to Claim 10, wherein said fuel metering device comprises 'a carburetor. 13. An engine according to Claim 10, wherein said fuel metering device comprises a fuel injector unit.
14. An engine according to Claim 10, wherein said fuel metering device comprises a manifold fuel injector system.
15. An engine according to Claim 10, wherein a portion of said scavenging tube adjoining said scavenging port is oriented angularly relatively to the diameter of said cylinder bore and in a direction pointing away from said exhaust port, thereby inducing looping scavenging flow to clear said cylinder bore.
16. An engine according to Claim 10, wherein a portion of said charging tube adjoining said charging port is oriented in a direction pointing toward said spark plug, thereby forming a stratified charge within said cylinder bore.
17. An engine according to Claim 10, further comprising a movable exhaust port valve pivotally mounted on said cylinder within said exhaust port, said exhaust port valve being pivotal between a first position partially blocking said exhaust port and thereby impeding the flow through said exhaust port, and a second position away from said exhaust port allowing unrestricted flow through said exhaust port, and a means for setting the position of said exhaust port valve in one of said first and said second positions .
18. An engine according to Claim 17, wherein said setting means comprises a lever attached to said exhaust port valve for manually positioning said exhaust port valve in one of said first and second positions.
19. An engine according to Claim 17, wherein said setting means comprises a cam and a cam follower mounted on said engine, said cam being driven by said engine, said cam follower being connected to said exhaust port valve and being reciprocably movable by said cam to pivot said exhaust port valve between said first and said second positions in proportion to engine speed, said exhaust port valve being in said second position during each exhaust stroke of said piston and moving into said first position blocking said exhaust port upon each compression stroke of said
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a charging port positioned in said cylinder substantially between said scavenging port and said crankcase; a charging tube extending from said crankcase to said charging port and providing fluid communication between said crankcase and said cylinder bore; a fuel metering device receiving fuel from said fuel supply and connected to said charging tube between said crankcase and said charging port; during engine operation said exhaust port being first uncovered upon a downstroke of said piston allowing exhaust gases to exit said cylinder bore, said scavenging port being next uncovered upon further motion of said piston, air within said crankcase being compressed by said piston and forced through said scavenging tube and entering said cylinder bore through said scavenging port thereby forcing exhaust gases out through said exhaust port, said charging port being next uncovered upon further motion of said piston, air within said crankcase being further compressed by said piston and forced through said scavenging tube and said charging tube, said air flowing through said fuel metering device and receiving a charge of fuel therefrom, said air and said fuel charge entering said cylinder bore through said charging port ; and upon the upstroke of said piston ambient air being drawn into said crankcase through said one way valve, said charging port first being covered by said piston, said scavenging port being next covered by said piston, and said exhaust port being finally covered by said piston, said air and fuel charge within said cylinder bore being compressed by said piston and ignited by said sparkplug to initiate a subsequent downstroke of said piston.
28. An engine according to Claim 27, further comprising a throttle valve positioned within said charging tube, said throttle valve being adjustable to control the amount of fuel and air entering the cylinder bore. 29. An engine according to Claim 27, further comprising a gate valve pivotally mounted on said cylinder adjacent to said exhaust port, said gate valve being pivotal between a first position partially blocking said exhaust port and thereby impeding the flow through said exhaust port, and a second
position away from said exhaust port allowing unrestricted flow through said exhaust valve, and a means for setting the position of said gate valve in one of said first and said second positions . 30. An engine according to Claim 29, wherein said setting means comprises a lever attached to said gate valve for manually positioning said gate valve in one of said first and second positions .
31. An engine according to Claim 29, wherein said setting means comprises a cam and a cam follower mounted on said engine, said cam being driven by said engine, said cam follower being connected to said gate valve and being reciprocably movable by said cam to pivot said gate valve between said first and said second positions in proportion to engine speed, said gate valve being in said second position during each exhaust stroke of said piston and moving into said first position blocking said exhaust port upon each compression stroke of said piston, said gate valve thereby promoting trapping of said fuel and air charge in said cylinder bore. 32. A lubrication system for a device having a piston reciprocable within a cylinder, said piston being pivotally connected to a crankshaft by a piston rod having a wrist pin at one end engaging said piston and a crank bearing at the opposite end engaging a throw of said crankshaft, said crankshaft being rotatably mounted on a main bearing within a crankcase positioned beneath said cylinder, an oil reservoir being mounted on said device, said device comprising: an oil sleeve positioned between said cylinder and said crankcase, said oil sleeve having a bore therethrough coaxially aligned with said cylinder bore and sized to receive said piston, said piston being reciprocable within said oil sleeve bore, an annular oil space being defined between said piston and said oil sleeve; a first seal positioned between said cylinder and said oil sleeve, said first seal circumferentially surrounding said piston and permitting a predetermined amount of oil to flow from said annular oil space to said cylinder bore for lubricating said piston within said cylinder;
a second seal mounted on and circumferentially around said piston between said wrist pin and said crankshaft, said second seal having an outer circumference engaging said oil sleeve to substantially prevent oil within said annular oil space from flowing into said crankcase; a first conduit extending between said oil reservoir and a first port within said oil sleeve in fluid communication with said annular oil space, said first port being positioned so as to always be between said first and second seals regardless of the position of said piston within said cylinder bore and said oil sleeve bore; a check valve mounted within said first conduit to prevent oil back flow from said annular oil space to said reservoir; a second conduit extending along said wrist pin from a port in fluid communication with said annular oil space to said piston rod and along said piston rod to said crank bearing and from said crank bearing to said main bearing and then to said oil reservoir; and upon motion of said piston moving said second seal away from said first seal, lubricating oil being drawn from said oil reservoir through said first conduit and into said annular oil space to lubricate said piston, upon further motion of said piston moving said second seal toward said first seal, lubricating oil within said annular oil space being forced through said second conduit back to said oil reservoir in a closed loop circulation, thereby lubricating said wrist pin, said crank bearing and said main bearing.
33. A two-stroke, spark-ignited internal combustion engine having a piston reciprocable within a bore of a cylinder, said piston being pivotally connected to a crankshaft rotatably mounted within a sealed crankcase positioned beneath said cylinder bore, said engine comprising: a cylinder head positioned at an end of said cylinder opposite said crankcase; an exhaust port positioned in said cylinder between said cylinder head and said crankcase; a scavenging port positioned in said cylinder substantially between said exhaust port and said crankcase;
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piston and said cylinder and a second annular oil space being defined between said piston and said oil sleeve; a first seal positioned between said cylinder and said oil sleeve, said first seal circumferentially surrounding said piston and permitting a predetermined amount of oil to flow between said annular oil space and said cylinder bore; a second seal mounted on and circumferentially around said piston between said wrist pin and said crankshaft, said second seal having an outer circumference engaging said oil sleeve to substantially prevent oil within said annular oil space from flowing into said crankcase; a first conduit extending between said oil reservoir and a first port within said cylinder, said first port being positioned so as to always be between said first seal and said oil ring regardless of the position of said piston within said cylinder bore; a check valve mounted within said first conduit to prevent oil back flow from said cylinder to said reservoir; a second conduit extending through said piston from a second port in fluid communication with said second annular oil space to said wrist pin; and upon motion of said piston moving said piston ring away from said first seal, lubricating oil being drawn from said oil reservoir through said first conduit and into said first annular oil space between said piston and said cylinder to lubricate said piston, upon further motion of said piston moving said cylinder ring toward said first seal, lubricating oil within said first annular oil space being forced past said first seal into said second annular oil space between said piston and said sleeve, and further through said second conduit, thereby lubricating said wrist pin.
39. An engine according to Claim 38, wherein said second conduit extends along said piston rod to said crank bearing, said crank bearing being lubricated by said oil from said second annular oil space passing through said second conduit.
40. An engine according to Claim 39, wherein said second conduit extends along said crankshaft to said main bearing, said main bearing being lubricated by said oil from said second annular oil space passing through said second conduit.
41. An engine according to Claim 40, wherein said second conduit extends from said main bearing to said oil reservoir, oil from said second annular oil space being forced through said second conduit back to said reservoir in a closed loop circulation.
42. A method of operating a spark-ignited, two-stroke engine having a piston reciprocable within a bore of a cylinder, said cylinder having a spark plug, an exhaust port, a scavenging port, a charging port, and a fuel metering system operatively associated with said charging port, said method comprising the steps of: opening said exhaust port upon a power stroke of said piston allowing exhaust gases to exit said cylinder bore; opening said scavenging port upon further motion of said piston; forcing air through said scavenging port into said cylinder bore; opening said charging port upon further motion of said piston; forcing air through said fuel metering device; charging said air forced through said fuel metering device with fuel; forcing said air charged with fuel into said cylinder bore through said charging port; closing said charging port upon a compression stroke of said piston; closing said scavenging port upon further motion of said piston; and closing said exhaust port upon further motion of said piston, said air and fuel charge within said cylinder bore being compressed by said piston and ignited by said sparkplug to initiate a subsequent power stroke of said piston.
43. A method according to Claim 42, further comprising the step of metering fuel to provide a rich fuel mixture within said cylinder bore.
44. A method according to Claim 42, further comprising the step of throttling said air forced through said charging port.
45. A method according to Claim 42, wherein said engine further comprises a crankcase substantially free of lubricating oil, said method further comprising the steps of: providing a scavenging tube from said crankcase to said scavenging port; providing a charging tube between said crankcase and said charging port ; said step of forcing said air through said scavenging port comprising the step of compressing air in said crankcase with said piston, thereby forcing said air through said scavenging tube into said cylinder bore; and said step of forcing said air through said charging port comprising the step of compressing air in said crankcase with said piston, thereby forcing said air through said charging tube into said cylinder bore.
46. An internal combustion engine having a piston reciprocable within a bore of a cylinder, said piston having a piston ring and being pivotally connected to a crankshaft by a piston rod having a wrist pin at one end engaging said piston and a crank bearing at the opposite end engaging a throw of said crankshaft, said crankshaft being rotatably mounted on a main bearing within a crankcase positioned beneath said cylinder bore, an oil reservoir being mounted on said engine, said engine comprising : an annular oil space being defined between said piston and said cylinder; a first seal positioned between said cylinder and said crankcase, said first seal circumferentially surrounding said piston and substantially preventing oil from entering said crankcase from said annular oil space; a first conduit extending between said oil reservoir and a first port within said cylinder, said first port being positioned so as to always be between said first seal and said piston ring regardless of the position of said piston within said cylinder bore; a check valve mounted within said first conduit to prevent oil back flow from said annular oil space to said reservoir;
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an oil sleeve positioned between said cylinder and said crankcase, said oil sleeve having a bore therethrough coaxially aligned with said cylinder bore and sized to receive said piston, said piston being reciprocable within said oil sleeve bore, an annular oil space being defined between said piston and said oil sleeve; a first seal positioned between said cylinder and said oil sleeve, said first seal circumferentially surrounding said piston and permitting a predetermined amount of oil to flow from said annular oil space to said cylinder bore for lubricating said piston within said cylinder; a second seal mounted on and circum erentially around said piston between said wrist pin and said crankshaft, said second seal having an outer circumference engaging said oil sleeve to substantially prevent oil within said annular oil space from flowing into said crankcase; a first conduit extending between said oil reservoir and a first port within said oil sleeve in fluid communication with said annular oil space, said first port being positioned so as to always be between said first and second seals regardless of the position of said piston within said cylinder bore and said oil sleeve bore,- and upon motion of said piston moving said second seal away from said first seal, lubricating oil being drawn from said oil reservoir through said first conduit and into said annular oil space to lubricate said piston, upon further motion of said piston moving said second seal toward said first seal said predetermined amount of lubricating oil within said annular oil space being forced past said first seal to said cylinder bore for lubricating said piston within said cylinder.
51. An engine according to Claim 50, further comprising: a check valve mounted within said first conduit to prevent oil back flow from said annular oil space to said reservoir; a second conduit extending through said piston from a second port in fluid communication with said annular oil space to said wrist pin; and upon motion of said piston moving said second seal toward said first seal, lubricating oil within said annular oil
space being forced through said second conduit to lubricate said wrist pin.
52. An engine according to Claim 51, wherein said second conduit extends from said wrist pin along said piston rod to said crank bearing, and upon motion of said piston moving said second seal toward said first seal, lubricating oil within said annular oil space being forced through said second conduit lubricating said crank bearing.
53. An engine according to Claim 52, wherein said second conduit extends from said crank bearing along said crankshaft to said main bearing, and upon motion of said piston moving said second seal toward said first seal, lubricating oil within said annular oil space being forced through said second conduit lubricating said main bearing. 54. An engine according to Claim 53, wherein said second conduit extends from said main bearing to said reservoir, and upon motion of said piston moving said second seal toward said first seal, lubricating oil within said annular oil space being forced through said second conduit back to said oil reservoir in a closed loop circulation, thereby lubricating said wrist pin, said crank bearing and said main bearing.