Rotary disc valve

We claim: 1. A valve comprising: a valve body including a sidewall, and a base that closes one end of the sidewall, the sidewall and the base cooperating to define a chamber, valve ports, each valve port communicating with the chamber, and chamber walls that segregate the chamber into subchambers, at least one valve port communicating with each subchamber; a diverter disposed in the chamber, the diverter configured to control fluid flow through the valve body, the diverter including a diverter sealing surface, a diverter outer surface that is opposed to the diverter sealing surface and faces away from the base, diverter through openings that extend through the diverter from the diverter sealing surface to the diverter outer surface, and a shaft that protrudes from the diverter outer surface in a direction substantially perpendicular to the diverter sealing surface, the shaft configured to be driven to rotate about a rotational axis; and a seal assembly disposed in the chamber between the diverter sealing surface and the base, the seal assembly including a first seal subassembly disposed between the diverter and the base, the first seal subassembly being fixed relative to the diverter, the first seal subassembly including first through openings that are axially aligned with the diverter through openings, a second seal subassembly disposed between the first seal subassembly and the base, the second seal subassembly being fixed relative to the base, the second seal subassembly including second through openings that are axially aligned with openings of the subchambers, wherein the diverter and the first seal subassembly form a first static seal therebetween, the base and the second seal subassembly form a second static seal therebetween, and the first seal sub assembly and the second seal subassembly form a dynamic seal therebetween. 2. The valve of claim 1 , wherein the first seal subassembly comprises: a first seal plate; a first elastic element disposed between the first seal plate and the diverter, the first static seal being formed between the diverter and the first elastic element; and a third static seal is formed between the first seal plate and the first elastic element, the second seal subassembly comprises: a second seal plate; and a second elastic element disposed between the second seal plate and the base, the second static seal being formed between the second elastic element and the base; and a fourth static seal is formed between the second seal plate and the second elastic element, and the dynamic seal is formed between the first seal plate and the second seal plate. 3. The valve of claim 2 , wherein the first seal plate is a first material, the first elastic element is a second material, the second seal plate is a third material, and the second elastic element is a fourth material, and wherein the first material is more wear-resistant than the second material, and the third material is more wear-resistant than the fourth material. 4. The valve of claim 2 , wherein the first seal plate is a first material, the first elastic element is a second material, the second seal plate is a third material, and the second elastic element is a fourth material, and wherein the first material is less flexible and less resilient than the second material, and the third material is less flexible and less resilient than the fourth material. 5. The valve of claim 2 , wherein portions of at least one of the first elastic element and the second elastic element have an oval cross-sectional shape. 6. The valve of claim 2 , wherein at least one of the first elastic element and the second elastic element includes an outer annular portion, an inner annular portion, and struts that extend between the outer annular portion and the inner annular portion. 7. The valve of claim 6 , wherein the outer annular portion has a non-circular and non-rectangular cross-sectional shape. 8. The valve of claim 6 , wherein a surface of the outer annular portion of the second sealing element includes a groove. 9. The valve of claim 6 , wherein the outer annular portion, the inner annular portion and the struts each have an H-shaped cross-section. 10. The valve of claim 2 , wherein the first seal plate and the second seal plate have a hardness that is greater than a hardness of the first elastic element and the second elastic element. 11. The valve of claim 2 , wherein the first seal plate and the second seal plate are ceramic, and the first elastic element and the second elastic element are polymeric. 12. The valve of claim 1 , wherein the diverter includes a fluid passageway that protrudes from the diverter outer surface, and for some rotational positions of the diverter relative to the valve body, the fluid passageway provides an enclosed fluid path connecting a first one of the valve ports and a second one of the valve ports. 13. The valve of claim 1 , the valve comprising: a lid that closes an open end of the sidewall; and a spring disposed between the lid and the diverter, the spring configured to urge the diverter toward the base. 14. The valve of claim 1 , wherein the diverter is disposed on a first side of the seal assembly and the valve ports are disposed on a second side of the seal assembly, and the first side of the seal assembly is opposite the second side of the seal assembly. 15. The valve of claim 1 , wherein a planar surface of the first seal subassembly confronts and directly contacts under axial load a planar surface of the second seal subassembly, whereby the dynamic seal is realized. 16. The valve of claim 15 , wherein the planar surface of the first seal subassembly and the planar surface of the second seal subassembly are ceramic surfaces. 17. The valve of claim 15 , wherein the planar surface of the first seal subassembly and the planar surface of the second seal subassembly are steel surfaces. 18. A valve comprising: a valve body including a sidewall, and a base that closes one end of the sidewall, the sidewall and the base cooperating to define a chamber, valve ports, each valve port communicating with the chamber, and chamber walls that segregate the chamber into subchambers, at least one valve port communicating with each subchamber; a diverter disposed in the chamber, the diverter configured to control fluid flow through the valve body, the diverter including a diverter sealing surface, a diverter outer surface that is opposed to the diverter sealing surface and faces away from the base, diverter through openings that extend between the diverter sealing surface and the diverter outer surface, and a shaft that protrudes from the diverter outer surface in a direction substantially perpendicular to the diverter sealing surface, the shaft configured to be driven to rotate about a rotational axis; and a seal assembly disposed in the chamber between the diverter sealing surface and the base, the seal assembly including a first seal subassembly disposed between the diverter and the base, the first seal subassembly being fixed relative to the diverter, the first seal subassembly including first through openings that are axially aligned with the diverter through openings, a second seal subassembly disposed between the first seal subassembly and the base, the second seal subassembly being fixed relative to the base, the second seal subassembly including second through openings that are axially aligned with openings of th