Heat exchanger assemblies with integrated valve

What is claimed is: 1. A heat exchanger assembly comprising: a heat exchanger having a plurality of alternating first and second fluid passages in heat exchange relation; at least one inlet manifold and at least one outlet manifold interconnected by one of the plurality of first or second fluid passages for the flow of a heat exchange fluid through the heat exchanger; a valve integration unit fixedly attached or mounted to a bottom end of the heat exchanger, the valve integration unit comprising: a base plate having a first surface in contact with the bottom end of the heat exchanger and an opposed second surface, the base plate having an inlet port for inletting said heat exchange fluid into said heat exchanger assembly and an outlet port for discharging the heat exchange fluid from the heat exchanger assembly; an internal valve cavity formed in and protruding outwardly from the second surface of the base plate, the internal valve cavity being fluidly coupled to said inlet port, said outlet port and the at least one inlet manifold of the heat exchanger; and a valve mechanism mounted within the internal valve cavity, the valve mechanism controlling the flow of said heat exchange fluid to said outlet port and the at least one inlet manifold of the heat exchanger, wherein the valve mechanism comprises a valve disk or spool-type valve member coupled to a thermal actuator, the thermal actuator responsive to temperature of the heat exchange fluid in said internal valve cavity. 2. The heat exchanger assembly of claim 1 , wherein the thermal actuator is in the form of a wax motor. 3. The heat exchanger assembly of claim 1 , wherein the valve mechanism is an electronic valve mechanism. 4. The heat exchanger assembly of claim 1 , wherein the valve mechanism is moveable between a first valve position establishing fluid communication between said inlet port of said base plate and said outlet port of said base plate via said internal valve cavity, and a second valve position establishing fluid communication between said inlet port of the base plate and the at least one inlet manifold of the heat exchanger. 5. The heat exchanger assembly of claim 1 , wherein: the internal valve cavity has an inlet port and first and second outlet ports, the base plate further comprising: a first fluid passage formed in the first surface of the base plate in fluid communication with the base plate inlet port the inlet port of said internal valve cavity: a second fluid passage formed in the first surface of the base plate in fluid communication with the first outlet port of the internal valve cavity, the base plate outlet port and the at least one outlet manifold of the heat exchanger; and a third fluid passage formed in the first surface of the base plate in fluid communication with the second outlet port of the internal valve cavity and the at least one inlet manifold of the heat exchanger; wherein the valve mechanism establishes fluid communication between said first fluid passage and said second fluid passage when said valve mechanism is in its first valve position and establishes fluid communication between the first fluid passage and said third fluid passage when said valve mechanism is in its second valve position. 6. A heat exchanger assembly comprising: a heat exchanger having alternating first and second fluid passages in heat exchange relation; a first inlet manifold and a first outlet manifold interconnected by the first fluid passages for the flow of a first heat exchange fluid through the heat exchanger; and a second inlet manifold and a second outlet manifold interconnected by the second fluid passages for the flow of a second heat exchange fluid through the heat exchanger; a base plate having a first surface and a second surface, the first surface fixedly attached to an end of the heat exchanger and the second surface having an outwardly extending protrusion, the base plate comprising: a pair of inlet and outlet ports formed in the second surface of the base plate for directing one of said first and second heat exchange fluids to and from said heat exchanger assembly; an internal valve cavity formed in the outwardly extending protrusion in the base plate, the internal valve cavity having an inlet port and first and second outlet ports, the internal valve cavity adapted for fluid communication with the inlet port of the base plate, the outlet port of the base plate and one of the inlet manifolds of the heat exchanger; a first fluid channel formed in said base plate interconnecting said inlet port of the internal valve cavity and the inlet port of the base plate; a second fluid channel formed in said base plate interconnecting said first outlet port of the internal valve cavity and the outlet port of the base plate and one of the outlet manifolds of the heat exchanger and the outlet port of the base plate; a third fluid channel formed in the base plate interconnecting the second outlet port of the internal valve cavity and said inlet manifold of the heat exchanger; a valve mechanism positioned within the internal valve cavity and operable between a first valve position establishing fluid communication between said first fluid channel and said second fluid channel and a second valve position establishing fluid communication between said first fluid channel and said third fluid channel, wherein the valve mechanism comprises a valve disk or spool-type valve member coupled to a thermal actuator, the thermal actuator responsive to temperature of the heat exchange fluid in said internal valve cavity. 7. The heat exchanger assembly of claim 6 , wherein the base plate further comprises a plurality of mounting holes. 8. The heat exchanger assembly of claim 6 , wherein the valve mechanism comprises a thermal actuator in the form of a wax motor. 9. The heat exchanger assembly of claim 6 , wherein the valve mechanism is an electronic valve mechanism.