Hydraulic motor disc valve optimization

What is claimed is: 1. A disc valve assembly configured to control a flow of hydraulic fluid to and from a hydraulic motor in a hydraulic fluid system, the disc valve assembly comprising: a disc element comprising an inlet facing side and a second side opposite to the inlet facing side, and flow pathways configured as a plurality of different pressure zones with the flow pathways extending axially along a longitudinal axis of the disc element from at or adjacent to the inlet facing side to the second side; and a valve housing that houses the disc element, the valve housing comprising porting configured as part of the plurality of different pressure zones respectively in fluid communication with the flow pathways of the disc element; wherein the disc element is configured to rotate to control a flow of hydraulic fluid through the disc valve assembly; and wherein the plurality of different pressure zones comprises a Zone 1 pressure zone, a Zone 2 pressure zone, and a Zone 3 pressure zone, wherein flow pathways of the Zone 1 pressure zone, the Zone 2 pressure zone, and the Zone 3 pressure zone are fluidly isolated from each other; the disc valve assembly further comprising a plurality of annular sealing rings that are configured to isolate the plurality of different pressure zones from each other; wherein: the Zone 1 pressure zone comprises a plurality of Zone 1 flow pathways through the disc element, the Zone 1 flow pathways being located on an outer diameter face of the disc element; the Zone 2 pressure zone comprises a plurality of Zone 2 flow pathways through the disc element, the Zone 2 flow pathways being located at a mid diameter location between a center and the outer diameter face of the disc element; and the plurality of annular sealing rings includes a first sealing ring located on the inlet facing side of the disc element and extending annularly at a radial position between the outer diameter face and the mid diameter location of the Zone 2 flow pathways, thereby isolating the flow in the Zone 1 pressure zone from the flow in the Zone 2 pressure zone. 2. The disc valve assembly of claim 1 , wherein the Zone 1 flow pathways extend axially along the longitudinal axis of the disc element from adjacent to the inlet facing side to the second side, and do not extend through the entirety of the disc element in the axial direction. 3. The disc valve assembly of claim 2 , wherein the Zone 1 pressure zone further comprises a first port constituting an external port of the valve housing, and a second port providing fluid communication between the valve housing and the Zone 1 flow pathways of the disc element, and wherein during operation of the disc element the second port is aligned with the plurality of Zone 1 flow pathways to control the flow of hydraulic fluid through the disc valve assembly. 4. The disc valve assembly of claim 1 , wherein the Zone 2 flow pathways extend axially along the longitudinal axis of the disc element from the inlet facing side to the second side, and extend through the entirety of the disc element in the axial direction. 5. The disc valve assembly of claim 4 , wherein the Zone 2 pressure zone further comprises a third port providing fluid communication between the Zone 2 flow pathways of the disc element and the valve housing, and a fourth port constituting another external port of the valve housing, wherein during operation of the disc element the third port is aligned with the plurality of Zone 2 flow pathways to control the flow of hydraulic fluid through the disc valve assembly. 6. The disc valve assembly of claim 1 , wherein the Zone 3 pressure zone comprises a Zone 3 flow pathway through the disc element, the Zone 3 flow pathway being located at the center of the disc element. 7. The disc valve assembly of claim 6 , wherein the Zone 3 flow pathway extends axially along the longitudinal axis of the disc element from the inlet facing side to the second side, and extends through the entirety of the disc element in the axial direction. 8. The disc valve assembly of claim 7 , wherein the Zone 3 pressure zone further comprises a fifth port providing fluid communication between the Zone 3 flow pathway of the disc element and the valve housing, and a sixth port constituting another external port of the valve housing. 9. The disc valve assembly of claim 1 , wherein: the Zone 1 pressure zone comprises a high pressure side for a forward flow of hydraulic fluid from the valve housing through the disc element; the Zone 2 pressure zone comprises a low pressure side relative to the high pressure side for a return flow of hydraulic fluid through the disc element back through the valve housing; and the Zone 3 pressure zone comprises a drain pathway for draining a leakage flow from the hydraulic motor through the disc valve assembly. 10. The disc valve assembly of claim 1 , wherein each of the plurality of annular sealing rings is located on the inlet facing side of the disc element. 11. The disc valve assembly of claim 1 , wherein: the Zone 3 pressure zone comprises a Zone 3 flow pathway through the disc element, the Zone 3 flow pathway extending through the center of the disc element; and the plurality of annular sealing rings includes a second sealing ring located on the inlet facing side of the disc element and extending annularly at a radial position between the Zone 3 fluid pathway radially inward relative to the mid diameter location of the Zone 2 flow pathways, thereby isolating the flow in the Zone 2 pressure zone from the flow in the Zone 3 pressure zone. 12. A hydraulic motor system comprising: the disc valve assembly of claim 1 ; a manifold, wherein the second side of the disc element is a manifold facing side and the disc valve assembly is mounted to the manifold with the manifold facing side of the disc element being mounted against the manifold; and a hydraulic motor; wherein the manifold includes porting for communicating fluid between the disc valve assembly and the hydraulic motor, and the disc valve assembly operates to control the flow of hydraulic fluid through the hydraulic motor system. 13. The hydraulic motor system of claim 12 , wherein the hydraulic motor is a hydraulic gerotor or geroler motor. 14. The hydraulic motor system of claim 12 , further comprising a valve drive link for driving rotation of the disc element to control the flow of hydraulic fluid through the hydraulic motor system. 15. The hydraulic motor system of claim 12 , further comprising a main drive link and an output shaft that are driven by the hydraulic motor.