Patent ID: 8763571

Claim:
A system for supplying compressed air to a component requiring a supply of compressed air, the system comprising: an engine, comprising: a crankshaft rotatable about a crankshaft axis; a compression piston slidably received within a compression cylinder and operatively connected to the crankshaft such that the compression piston is operable to reciprocate through an intake stroke and a compression stroke during a single rotation of the crankshaft; an expansion (power) piston slidably received within an expansion cylinder and operatively connected to the crankshaft such that the expansion piston is operable to reciprocate through an expansion stroke and an exhaust stroke during a single rotation of the crankshaft; a crossover passage interconnecting the compression and expansion cylinders, the crossover passage including a crossover compression (XovrC) valve and a crossover expansion (XovrE) valve operable to define a pressure chamber therebetween; an air tank connected to the crossover passage via a control valve, the air tank being operable to store compressed air supplied from the crossover passage and feed compressed air into the crossover passage; an air processing system operable to process compressed air compressed into the crossover passage by the compression piston and supply processed, compressed air to the component; and a first air input line connected directly between the crossover passage and the air processing system, the first air input line operable to supply compressed air from the crossover passage to the air processing system; wherein the air processing system is operable to process the compressed air compressed by the compression piston prior to supplying the compressed air to the component; wherein the air processing system comprises a cooler for cooling compressed air and an air pressure regulator for controlling air pressure supplied to the component such that the air pressure supplied to the component is substantially constant; and wherein the component comprises at least one of an air spring that supports a valve operable to control fluid communication to or from at least one of the compression cylinder, the expansion cylinder, and the crossover passage and a pneumatic actuator for a pneumatically actuated valve operable to control fluid communication to or from at least one of the compression cylinder, the expansion cylinder, and the crossover passage.