Power steering apparatus

Having described the invention, the following is claimed: 1. An apparatus for use in turning steerable vehicle wheels, said apparatus comprising: a power steering motor assembly connected with the steerable vehicle wheels, the power steering motor assembly having a steering control valve with a fluid inlet and a power steering motor with first and second chambers, the steering control valve moving in response to rotation of an input shaft to control fluid flow to and from the first and second chambers of the power steering motor to move a piston of the power steering motor, the steering control valve directing fluid from the fluid inlet to one of the first and second chambers and directing fluid from another of the first and second chambers to a reservoir in response to rotation of the input shaft; a first pump connected in fluid communication with the fluid inlet of the steering control valve of the power steering motor assembly and continuously driven by an engine of the vehicle, during operation of the engine, to continuously supply fluid under pressure to the fluid inlet of the steering control valve during operation of the engine; a second pump connected in fluid communication with the fluid inlet of the steering control valve and continuously driven by the engine of the vehicle, during operation of the engine; a first valve connected in fluid communication with the fluid inlet of the steering control valve and the second pump, the first valve directing fluid flow from the second pump to at least one of the fluid inlet of the steering control valve and reservoir during operation of both the first pump and the second pump; and a fixed area control orifice located in a conduit conducting fluid from the first and second pumps to the fluid inlet of the steering control valve, a pressure at an upstream side of the fixed area control orifice urges the first valve to decrease the flow of fluid from the first and second pumps to the fluid inlet of the steering control valve and increase the flow of fluid from the first and second pumps to the reservoir, a pressure at a downstream side of the fixed area control orifice urges the first valve to increase the flow of fluid from the first and second pumps to the fluid inlet of the steering control valve and decrease the flow of fluid from the first and second pumps to the reservoir. 2. An apparatus as set forth in claim 1 wherein the first valve directs fluid flow from the second pump to the fluid inlet of the steering control valve in response to a decrease in speed of the engine. 3. An apparatus as set forth in claim 1 wherein the first valve directs fluid flow from the second pump to the fluid inlet of the steering control valve in response to a decrease in flow from the first pump. 4. An apparatus as set forth in claim 1 wherein the first valve directs fluid flow from the second pump to the reservoir in response to an increase in speed of the engine. 5. An apparatus as set forth in claim 1 wherein the first valve directs fluid flow from the second pump to the reservoir in response to an increase in flow from the first pump. 6. An apparatus as set forth in claim 1 wherein a pumping mechanism includes a first pumping area defining the first pump and a second pumping area defining the second pump, the first pumping area being smaller than the second pumping area. 7. An apparatus as set forth in claim 6 wherein the first pump is sized to provide a flow required by the power steering motor assembly when the engine speed is above a first predetermined speed corresponding to the vehicle cruising at highway speed, the second pump being sized so that the combined flow of the first and second pumps provides a required flow to the power steering motor assembly when the engine speed is below a second predetermined speed corresponding to the vehicle conducting parking and similar maneuvers. 8. An apparatus as set forth in claim 6 wherein the pumping mechanism includes a rotor and a cam ring having a first generally semicircular portion with a first interior elliptical surface and a second generally semicircular portion with a second interior elliptical surface, a furthest point of the second interior elliptical surface being spaced from the rotor a larger distance than a furthest point of the first interior elliptical surface. 9. An apparatus as set forth in claim 8 wherein the pumping mechanism includes vanes located in slits of the rotor which is connected with the engine, the vanes engaging the first and second semicircular portions to define pumping chambers. 10. An apparatus as set forth in claim 1 wherein the first and second pumps are mounted on the same shaft. 11. An apparatus as set forth in claim 1 wherein the second pump discharges fluid at a greater rate than the first pump when the first and second pumps are being driven at the same speed. 12. An apparatus as set forth in claim 1 wherein a spring urges the first valve to increase the flow of fluid from the first and second pumps to the fluid inlet of the steering control valve and decrease the flow of fluid from the first and second pumps to the reservoir. 13. An apparatus as set forth in claim 1 wherein the conduit conducts fluid from the second pump to the fluid inlet of the steering control valve, fluid flow from the first pump and the second pump passing through the fixed area control orifice.