초록 ▼

Rotary valve system for controlling communication with a port in an internal combustion engine which, in one disclosed embodiment, has a crankshaft, compression and expansion pistons connected to the crankshaft for reciprocating movement within compression and expansion chambers, a combustion chambe

Rotary valve system for controlling communication with a port in an internal combustion engine which, in one disclosed embodiment, has a crankshaft, compression and expansion pistons connected to the crankshaft for reciprocating movement within compression and expansion chambers, a combustion chamber in which air from the compression chamber is combined with fuel and burned to produce an increased gas volume. The valve system has an outer valve member which is rotatively mounted in a bore and has an opening which moves into and out of communication with the port as the outer valve member rotates, an inner valve member rotatably mounted within the outer valve member with an opening at least partly overlapping the opening in the outer valve member, a flange extending along one edge of the opening in the inner valve member and through the opening in the outer valve member for sealing engagement with the wall of the bore, and means for effecting rotation of the valve members to change the degree of overlap between the openings and thereby control the timing and duration of communication between the openings and the port.

대표청구항 ▼

The invention claimed is: 1. A rotary valve system for controlling communication with a port in an internal combustion engine, comprising: an outer valve member which is rotatively mounted in a bore and has an opening which moves into and out of communication with the port as the outer valve member

The invention claimed is: 1. A rotary valve system for controlling communication with a port in an internal combustion engine, comprising: an outer valve member which is rotatively mounted in a bore and has an opening which moves into and out of communication with the port as the outer valve member rotates, an inner valve member rotatably mounted within the outer valve member with an opening at least partly overlapping the opening in the outer valve member, an endless drive element trained about a drive wheel and a wheel connected to one of the valve members with runs of the drive element between the wheels on opposite sides of the wheel connected to the one valve member, and means for differentially varying the relative lengths of the runs to advance and retard the one valve member relative to the drive wheel to change the degree of overlap between the openings and thereby control the timing and duration of communication between the openings and the port. 2. The rotary valve system of claim 1 wherein the drive element is a toothed belt. 3. An internal combustion engine having compression and expansion pistons constrained for reciprocating movement within compression and expansion chambers, a combustion chamber in which air from the compression chamber is combined with fuel and burned to produce an increased gas volume, an intake valve for controlling airflow to the compression chamber, and outlet valve for controlling air flow from the compression chamber to the combustion chamber, an inlet valve for controlling communication between the combustion chamber and the expansion chamber, and an exhaust valve for controlling exhaust gas flow from the expansion chamber, at least one of the valves comprising an outer valve member which is rotatively mounted in a bore and has an opening which moves into and out of communication with the chamber as the outer valve member rotates, an inner valve member rotatably mounted within the outer valve member with an opening at least partly overlapping the opening in the outer valve member, an endless drive element trained about a drive wheel and a wheel connected to one of the valve members with runs of the drive element between the wheels on opposite sides of the wheel connected to the one valve member, and means for differentially varying the relative lengths of the runs to advance and retard the one valve member relative to the drive wheel to change the degree of overlap between the openings and thereby control the timing and duration of communication between the openings and the port. 4. The internal combustion engine of claim 3 wherein the drive element is a toothed belt. 5. The internal combustion engine of claim 3 wherein the drive element is a chain. 6. The internal combustion engine of claim 3 wherein the compression and expansion pistons are connected to a crankshaft, and the drive wheel is also connected to the crankshaft. 7. An internal combustion engine having a cylinder, crankshaft, a piston connected to the crankshaft for reciprocating movement within the cylinder, an outer valve member rotatively mounted in a bore with an opening which moves into and out of communication the cylinder as the outer valve member rotates, an inner valve member rotatably mounted within the outer valve member with an opening at least partly overlapping the opening in the outer valve member, an endless drive element trained about a drive wheel and a wheel connected to one of the valve members with runs of the drive element between the wheels on opposite sides of the wheel connected to the one valve member, and means for differentially varying the relative lengths of the runs to advance and retard the one valve member relative to the drive wheel to change the degree of overlap between the openings and thereby control the timing and duration of communication between the openings and the port. 8. The internal combustion engine of claim 7 wherein the drive element is a toothed belt. 9. The internal combustion engine of claim 7 wherein the drive element is a chain. 10. An internal combustion engine having a chamber of variable volume, an outer valve member which is rotatively mounted in a bore and has an opening which moves into and out of communication with the chamber as the outer valve member rotates, an inner valve member rotatably mounted within the outer valve member with an opening at least partly overlapping the opening in the outer valve member, an endless drive element trained about a drive wheel and a wheel connected to one of the valve members with runs of the drive element between the wheels on opposite sides of the wheel connected to the one valve member, and means for differentially varying the relative lengths of the runs to advance and retard the one valve member relative to the drive wheel to change the degree of overlap between the openings and thereby control the timing and duration of communication between the openings and the port. 11. The internal combustion engine of claim 10 wherein the drive element is a toothed belt. 12. The internal combustion engine of claim 10 wherein the drive element is a chain. 13. A rotary valve system for controlling communication with a port in an internal combustion engine, comprising: an outer valve member comprising a sleeve which is rotatively mounted in a bore and has an opening which moves into and out of communication with the port as the sleeve rotates, an inner valve member rotatably mounted within the outer sleeve with an opening at least partly overlapping the opening in the outer sleeve, a flange extending along one edge of the opening in the inner valve member and through the opening in the outer sleeve for sealing engagement with the wall of the bore, a drive shaft connected to a first one of the valve members for rotating the same, a drive wheel connected to the drive shaft, an endless drive element trained about the drive wheel and a wheel connected to a second one of the valve members with runs of the drive element between the wheels on opposite sides of the wheel connected to the valve member, and means for differentially varying the relative lengths of the runs to advance and retard the second valve member relative to the first. 14. The rotary valve system of claim 13 wherein the means for differentially varying the lengths of the runs comprises idler wheels which engage the drive element between the drive wheel and the wheel connected to the second valve member and are adapted for movement in concert for simultaneously increasing the length of one of the runs and decreasing the length of the other. 15. The rotary valve system of claim 13 wherein the drive element is a tooted belt, and the drive wheel and the wheel connected to the second valve member are cog wheels. 16. The rotary valve system of claim 13 wherein the drive element is a chain, and the drive wheel and the wheel connected to the second valve member are sprockets. 17. The rotary valve system of claim 13 wherein the drive shaft is connected to the outer sleeve, and the wheel connected to the second valve member is connected to the inner valve member.