Unloader valve apparatus for an air compressor

What is claimed is: 1. An unloader valve apparatus for an air compressor, the unloader valve apparatus comprising: a cylindrical piston having a cut-out central chamber and a longitudinal central axis and movable along the longitudinal central axis between a loaded position and an unloaded position; a stopper member collapsible within the cut-out central chamber of the cylindrical piston and pivotable about a pivot axis between a blocking position in which the stopper member blocks an unloader port when the piston is in the loaded position and an unblocking position in which the stopper member is not blocking the unloader port and is thereby allowing compressed air from the compressor to flow through the unloader port when the piston is in the unloaded position and; a first biasing member arranged to (i) bias the stopper member in a direction about the pivot axis of the stopper member to move the stopper member from the unblocking position to the blocking position when the piston moves from the unloaded position to the loaded position, and (ii) bias the stopper member to maintain the stopper member in the blocking position when the piston is at the loaded position, wherein the first biasing member comprises a torsion spring connectable between an interior surface of the piston and an interior surface of the stopper member. 2. An unloader apparatus according to claim 1 , wherein the pivot axis of the stopper member extends transversely to the longitudinal central axis of the piston. 3. An unloader valve apparatus according to claim 1 , further comprising: a second biasing member arranged to (i) bias the piston at a second end portion of the piston in a direction along the longitudinal central axis of the piston to move the piston from the unloaded position to the loaded position when the compressor changes from running in the unloaded mode to running in the loaded mode, and (ii) bias the piston to maintain the piston in the loaded position when the compressor is running in the loaded mode. 4. An unloader valve apparatus according to claim 3 , wherein the second biasing member comprises a coil spring connectable between an exterior surface of the piston and an interior surface of the compressor. 5. An unloader valve apparatus according to claim 3 , further comprising: an O-ring disposed at a first end portion of the piston which is opposite the second end portion of the piston spaced apart along the longitudinal central axis of the piston from the pivot axis of the stopper member, wherein the O-ring provides an air-tight seal between a bearing surface on the first portion of the piston and a bearing surface within the compressor. 6. An unloader valve apparatus according to claim 3 , wherein the piston is responsive to a control signal pressure to move the piston against bias of the second biasing member and thereby to move the piston from the loaded position to the unloaded position. 7. An unloader valve apparatus according to claim 1 , wherein the stopper member is capable of blocking the unloader port up to a pressure of about 200 to about 400 pounds per square inch (psi). 8. A vehicle air compressor apparatus for a heavy vehicle braking system, the vehicle air compressor apparatus comprising: a compressor crankcase assembly; a compressor cylinder head assembly disposed on the crankcase assembly and co-operating with the crankcase assembly to generate compressed air, wherein the cylinder head assembly includes (i) an air inlet port through which air can be received for compression within the crankcase and cylinder head assemblies, and (ii) a discharge port through which compressed air can be delivered from the cylinder head assembly; and an unloader valve assembly disposed between the crankcase and cylinder head assemblies and for unloading compressed air from the crankcase and cylinder head assemblies, wherein the unloader valve assembly includes (i) a piston having a cut-out central chamber and movable between a loaded position in which the crankcase and cylinder head assemblies are running in loaded mode and an unloaded position in which the crankcase and cylinder head assemblies are running in unloaded mode, and (ii) a stopper member collapsible within the cut-out central chamber of the piston and movable between a blocking position in which a portion of the stopper member is located in the cut-out central chamber of the piston to block compressed air running in loaded mode from being vented to a location other than the discharge port and an unblocking position in which more of a portion of the stopper member is located in the cut-out central chamber of the piston to unblock compressed air in running unloaded mode to allow the compressed air running in unloaded mode to vent to a location other than the discharge port. 9. A vehicle air compressor apparatus according to claim 8 , further comprising: a first biasing member arranged to (i) bias the stopper member in a direction about a pivot axis of the stopper member to move the stopper member from the unblocking position to the blocking position when the piston moves from the unloaded position to the loaded position, and (ii) bias the stopper member to maintain the stopper member in the blocking position when the piston is at the loaded position; and a second biasing member arranged to (i) bias the piston at an end portion of the piston in a direction along a longitudinal central axis of the piston to move the piston from the unloaded position to the loaded position when the compressor changes from running in the unloaded mode to running in the loaded mode, and (ii) bias the piston to maintain the piston in the loaded position and the stopper member in the blocking position when the compressor is running in the loaded mode. 10. A vehicle air compressor apparatus according to claim 9 , wherein (i) the first biasing member comprises a torsion spring connectable between an interior surface of the piston and an interior surface of the stopper member, and (ii) the second biasing member comprises coil spring connectable between a surface of the piston and an interior surface of the compressor. 11. A vehicle air compressor apparatus according to claim 10 , further comprising: an O-ring disposed at an opposite end portion of the piston spaced apart along the longitudinal central axis of the piston from the pivot axis of the stopper member, wherein the O-ring provides an air-tight seal between a bearing surface on the piston and a bearing surface within the crankcase and cylinder head assemblies. 12. A vehicle air compressor apparatus for a heavy vehicle braking system, the vehicle air compressor apparatus comprising: a compressor crankcase assembly; a compressor cylinder head assembly disposed on the crankcase assembly and co-operating with the crankcase assembly to generate compressed air, wherein the cylinder head assembly includes (i) an air inlet port through which air can be received for compression within the crankcase and cylinder head assemblies, and (ii) a discharge port through which compressed air can be delivered from the cylinder head assembly; and an unloader valve assembly connected internally of the crankcase and cylinder head assemblies and including (i) a cylindrical piston having a cut-out central chamber and movable along longitudinal central axis of the piston, and (ii) a stopper member collapsible within the cut-out central chamber of the cylindrical piston and pivotable about a pivot axis which extends transversely to the longitudinal central axis of the piston and between a blocking position in which the stopper member blocks compressed air from leaving the unloader port as compressed air is being delivered t