Claims
- 1. In a hydraulic gerotor pressure device having a rotary valve having an outer circumferential support to an orbiting surrounding housing journal, a driveshaft connected to an orbiting rotor and the rotary valve being on the opposite side of the orbiting rotor than the driveshaft, the improvement comprising the valve being constructed of a series of plates affixed together to form the rotary valve.
- 2. The valve of claim 1 characterized in that said plates are flat.
- 3. The valve of claim 1 characterized in that each of said plates has a single cross-section.
- 4. The valve of claim 1 characterized in that said plates are brazed together.
- 5. The valve of claim 1 characterized in that each of said plates contain substantially all of the valving passages of the entire device.
- 6. The valve of claim 1 wherein that the gerotor device includes a valving plate and said valving plate being fixed in the housing between the valve and the gerotor.
- 7. The valve of claim 1 characterized in that each of said plates are flat, each of said having a selective cross-section, said plates being consecutively sequentially located adjacent to each other, and said plates being brazed together to form a unitary valve member.
- 8. In a hydraulic gerotor pressure device having a rotary valve having an outer circumferential support to a surrounding housing journal, the housing having a flat surface adjoining the valve and the valve having a circumferential edge, a driveshaft connected to an orbiting rotor, the rotary valve being on the opposite side of the orbiting rotor than the driveshaft, the improvement comprising the valve being constructed of a series of plates affixed together to form the rotary valve, a clearance groove, and said clearance groove being in the flat surface of the housing substantially in line with said circumferential edge of the valve.
- 9. The valve of claim 8 characterized in that said circumferential edge is an outer edge.
- 10. In a hydraulic gerotor pressure device having a rotary valve having an outer circumferential support to a surrounding housing journal, a driveshaft with an orbiting rotor, the rotating valve being on the opposite side of the orbiting rotor than the driveshaft, the improvement comprising the valve being constructed of a series of flat plates, each of said plated having a selective cross-section, said plates being consecutively located adjacent to each other affixed together to form the rotary valve.
- 11. The valve of claim 10 characterized in that said plates are brazed together.
- 12. The valve of claim 10 characterized in that each of said plates contain substantially all of the valving passages of the entire device.
- 13. The valve of claim 10 characterized in that at least two of said plates have substantially the same cross-section.
- 14. The valve of claim 10 characterized in that the valve has a radial surface and said at least two plates adjoining said radial surface.
- 15. The valve of claim 10 wherein the housing has a manifold surface adjoining the valve and characterized in that said at least two plates adjoin the manifold surface.
- 16. The valve of claim 10 characterized in that the valve has an axial length, and the outer circumferential support of the surrounding housing journal to the valve extending for less than said axial length of the valve.
- 17. In a hydraulic gerotor pressure device having a driveshaft with an orbiting rotor, a rotary valve having an outer circumferential support to a surrounding housing journal, the housing having a flat surface adjoining the valve and the valve having an outer circumferential edge, the improvement comprising the valve being constructed of a series of flat plates, each of said plated having a selective cross-section, said plates being consecutively located adjacent to each other, affixed together to form the rotary valve, a clearance groove, and said clearance groove being in the flat surface of the housing substantially in line with said outer circumferential edge of the valve.
- 18. In a hydraulic gerotor pressure device having an orbiting driveshaft, an orbiting rotor and a rotating valve, the rotating valve being on the opposite side of the orbiting rotor than the driveshaft, the rotating valve having an outer circumferential surface rotatively supported to said housing for rotational movement in respect thereto, the rotating valve including two sets of uni-directional valving passages selectively connected to the operative cells of the gerotor pressure device through a single set of valving openings by the valve, the improvement comprising a plurality of flat plates, said flat plates being formed with selective cross-sectional parts of the two sets of valving passages, said flat plates being consecutively sequentially located flat surface to flat surface, said flat plates being connected together in a leak proof manner to form said valving passages,first connect means to fluidically connect to one of said two sets of unidirectional valving passages to an inlet port or an outlet port, and second connect means to fluidically connect the other of said two sets of unidirectional valving passages to the other of said inlet port or said outlet port.
- 19. The valve of claim 18 characterized in that said plates are brazed together.
- 20. The valve of claim 18 characterized in that each of said plates contain substantially all of the valving passages of the entire device.
- 21. The valve of claim 18 wherein that the gerotor device includes a valving plate and said valving plate being fixed in the housing between the valve and the gerotor.
- 22. The valve of claim 18 wherein the housing has a flat surface adjoining the valve and characterized in that the valve has a circumferential edge, a clearance groove, and said clearance groove being in the flat surface of the housing substantially in line with said circumferential edge of the valve.
- 23. The valve of claim 22 characterized in that said circumferential edge is an outer edge.
Parent Case Info
This is a divisional of application Ser. No. 09/590,416 filed on Jun. 8, 2000, U.S. Pat. No. 6,394,775, which is a divisional of application Ser. No. 09/062,318 filed on Apr. 20, 1998, U.S. Pat. No. 6,074,188.
US Referenced Citations (5)