High pressure gear pump with dual wall housing

What is claimed is: 1. A gear pump housing comprising: a pump housing having: an inner wall defining an inner pumping cavity having a pumping cavity inlet and a pumping cavity outlet; and an outer wall surrounding at least a portion of the inner wall, the outer wall being spaced apart from the inner wall defining a pressure cavity between the inner and outer walls, the pumping cavity outlet being in fluid communication with the pressure cavity; wherein the pump housing is an assembly of components including: an inner housing member that defines the inner wall, wherein the inner housing member defines a high pressure outlet, the pressure cavity fluidly coupling the pumping cavity outlet with the high pressure outlet; and an outer housing member that defines the outer wall. 2. The gear pump housing of claim 1 , wherein the outer housing member is an annular sleeve that surrounds a portion of the inner housing member. 3. The gear pump housing of claim 2 , wherein the outer housing member does not provide any inlet through which low pressure fluid enters the pump housing or any high pressure outlet through which high pressure fluid exits the pump housing. 4. The gear pump housing of claim 1 , further comprising an end plate operably mounted to the inner housing member, the end plate closing at least a portion of the pumping cavity. 5. A gear pump housing comprising: a pump housing having: an inner wall defining an inner pumping cavity having a pumping cavity inlet and a pumping cavity outlet; and an outer wall surrounding at least a portion of the inner wall, the outer wall being spaced apart from the inner wall defining a pressure cavity between the inner and outer walls, the pumping cavity outlet being in fluid communication with the pressure cavity; wherein the pump housing is an assembly of components including: an inner housing member that defines the inner wall, wherein the inner housing member defines a high pressure outlet, the pressure cavity fluidly coupling the pumping cavity outlet with the high pressure outlet; and an outer housing member that defines the outer wall, wherein the outer housing member is an annular sleeve that surrounds a portion of the inner housing member; and further comprising first and second seal members interposed between the inner and outer housing members, the first and second seal members being positioned proximate opposite axial ends of the pressure cavity. 6. A gear pump housing comprising: a pump housing having: an inner wall defining an inner pumping cavity having a pumping cavity inlet and a pumping cavity outlet; and an outer wall surrounding at least a portion of the inner wall, the outer wall being spaced apart from the inner wall defining a pressure cavity between the inner and outer walls, the pumping cavity outlet being in fluid communication with the pressure cavity; wherein the pump housing is an assembly of components including: an inner housing member that defines the inner wall; and an outer housing member that defines the outer wall; wherein the outer housing member is generally bowl shaped having a generally open end and a closed end, the open end being sized to receive the inner housing member therethrough; further comprising an end plate mounted at an opposite end of the closed end of the outer housing member, the end plate closing off at least a portion of the pressure cavity and a portion of the pumping cavity. 7. A gear pump comprising: a pump housing having: an inner wall defining an inner pumping cavity having a pumping cavity inlet and a pumping cavity outlet; an outer wall surrounding at least a portion of the inner wall, the outer wall being spaced apart from the inner wall defining a pressure cavity between the inner and outer walls, the pumping cavity outlet being in fluid communication with the pressure cavity; and a pair of pumping gears positioned within the inner pumping cavity between the pumping cavity inlet and pumping cavity outlet, wherein the pair of pumping gears includes a drive gear and a driven gear, the drive gear is rotatably supported for rotation about a drive gear axis of rotation, the driven gear is rotatably supported for rotation about a driven gear axis of rotation, the driven gear axis of rotation is parallel to and laterally offset from the drive gear axis of rotation; first, second, third and fourth pumping gear support bearings, the first and second pumping gear support bearings rotatably supporting the driven gear, the first and second pumping gear support bearings being located within the inner wall and within the inner pumping cavity, the third and fourth pumping gear support bearings rotatably supporting the drive gear, the third and fourth pumping gear support bearings being located within the inner wall and within the inner pumping cavity, wherein each of the first, second, third and fourth pumping gear support bearings defines a bearing pressure chamber with the inner wall, the bearing pressure chambers being in fluid communication with the pumping cavity outlet such that pumped fluid is supplied to the bearing pressure chambers; and wherein the bearing pressure chambers are in fluid communication with the pumping cavity outlet through the pressure cavity. 8. A gear pump comprising: a pump housing having: an inner wall defining an inner pumping cavity having a pumping cavity inlet and a pumping cavity outlet; an outer wall surrounding at least a portion of the inner wall, the outer wall being spaced apart from the inner wall defining a pressure cavity between the inner and outer walls, the pumping cavity outlet being in fluid communication with the pressure cavity; and a pair of pumping gears positioned within the inner pumping cavity between the pumping cavity inlet and pumping cavity outlet; wherein the pump housing is an assembly of components including: an inner housing member that defines the inner wall, wherein the inner housing member defines a high pressure outlet, the pressure cavity fluidly coupling the pumping cavity outlet with the high pressure outlet; and an outer housing member that defines the outer wall. 9. The gear pump of claim 8 , wherein the outer housing member is an annular sleeve that surrounds a portion of the inner housing member. 10. A gear pump comprising: a pump housing having: an inner wall defining an inner pumping cavity having a pumping cavity inlet and a pumping cavity outlet; an outer wall surrounding at least a portion of the inner wall, the outer wall being spaced apart from the inner wall defining a pressure cavity between the inner and outer walls, the pumping cavity outlet being in fluid communication with the pressure cavity; and a pair of pumping gears positioned within the inner pumping cavity between the pumping cavity inlet and pumping cavity outlet; wherein the pump housing is an assembly of components including: an inner housing member that defines the inner wall, wherein the inner housing member defines a high pressure outlet, the pressure cavity fluidly coupling the pumping cavity outlet with the high pressure outlet; and an outer housing member that defines the outer wall, wherein the outer housing member is an annular sleeve that surrounds a portion of the inner housing member; and first and second seal members interposed between the inner and outer housing members, the first and second seal members being positioned proximate opposite axial ends of the pressure cavity. 11. The gear pump of claim 9 , wherein the outer housing member does not provide any inlet through which low pressure fluid enters the pump housing or any high pressure outlet through which high pressure fluid exits the pum