Claims
- 1. An axial piston gas compressor comprising:
- a stationary spindle assembly;
- said stationary spindle assembly further comprising an axial piston spindle having a central axis and a cylinder spindle having a central axis;
- said cylinder spindle central axis obliquely disposed to said axial piston central axis;
- a rotating piston disk rotatably mounted on said axial piston spindle;
- a rotating cylinder housing rotatably mounted on said cylinder spindle;
- said rotating cylinder housing having an axial limit disposed entirely above the central axis of the axial piston spindle;
- means for synchronously rotating said rotating piston disk and said rotating cylinder housing;
- said rotating piston disk having a connection means to a piston;
- said rotating cylinder housing further comprising a cylinder slidingly engaged with said piston;
- means for input of the gas into said cylinder; and
- means for output of the gas from said cylinder.
- 2. The compressor of claim 1 wherein said means for synchronously rotating said rotating piston disk and said rotating cylinder housing further comprises torque means peripheral to said rotating piston disk and linkage means from said rotating piston disk to said rotating cylinder housing.
- 3. The compressor of claim 2 wherein said torque means further comprises a motor and a means for transmission driving said rotating piston disk, and said linkage means further comprises peripheral gear teeth on said rotating piston disk engaged in peripheral gear teeth on said rotating cylinder housing.
- 4. The compressor of claim 3 wherein said means for transmission further comprises a drive shaft and a driving gear.
- 5. The compressor of claim 1 wherein said connection means further comprises a swivel joint and a connecting rod.
- 6. The compressor of claim 1 wherein said stationary spindle assembly further comprises a steel construction.
- 7. The compressor of claim 1 wherein said means for input of the gas into said cylinder further comprises:
- a stationary manifold having a stationary valve inlet port and a stationary valve exhaust port;
- a stationary control valve disk having a sliding engagement with said rotating cylinder housing; and
- said stationary control valve disk further comprising a gas inlet slot.
- 8. The compressor of claim 7 wherein said means for output of the gas from the cylinder further comprises the stationary control valve disk further comprising a gas output slot.
- 9. The compressor of claim 1 wherein said stationary spindle further comprises:
- an opposing cylinder spindle having a central axis disposed in the opposite direction in the same housing and at the same angle to the axial piston spindle as the cylinder spindle.
- 10. The compressor of claim 9 further comprising:
- a second rotating cylinder housing rotatably mounted on the opposing cylinder spindle;
- said second rotating cylinder housing having an axial limit disposed entirely above the central axis of the axial piston spindle;
- means for synchronously rotating said second rotating cylinder housing with said rotating piston disk and said rotating cylinder housing;
- said rotating piston disk having a connection to a second piston;
- said second rotating cylinder housing further comprising a second cylinder slidingly engaged with said second piston;
- means for input of the gas into said second cylinder; and
- means for output of the gas from said second cylinder.
- 11. The compressor of claim 10 wherein said means for synchronously rotating said second rotating cylinder housing further comprises linkage means from said rotating piston disk to said second rotating cylinder housing.
- 12. The compressor of claim 10 wherein said means for input of the gas into said second cylinder further comprises:
- a second stationary manifold having a stationary valve inlet port and a stationary valve exhaust port;
- a second stationary control valve disk having a sliding engagement with said second rotating cylinder housing; and
- said second stationary control valve disk further comprising a gas inlet slot.
- 13. The compressor of claim 12 wherein said means for output of the gas from said second cylinder further comprises the second stationary control valve disk further comprising a gas output slot.
- 14. An axial piston gas compressor comprising:
- a stationary spindle assembly;
- said stationary spindle assembly further comprising an axial piston spindle having a central axis and a first and second cylinder spindle each having a central axis obliquely opposed at equal angles from said axial piston spindle and co-planar with the axial piston spindle;
- a rotating piston disk rotatably mounted on said axial piston spindle;
- said rotating piston disk having connection means to a plurality of opposing pistons disposed distally therefrom;
- a pair of rotating cylinder housings rotatably mounted on said first and second cylinder spindles;
- said pair of rotating cylinder housings each further comprising a plurality of cylinders slidingly engaged with said plurality of opposing pistons;
- said pair of rotating cylinder housings each having an axial limit disposed entirely above the central axis of the axial piston spindle;
- means for synchronously rotating said rotating piston disk and said pair of rotating cylinder housings;
- means for input of the gas into said cylinders; and
- means for output of the gas ,from said cylinders.
- 15. The compressor of claim 14 wherein said means for synchronously rotating said rotating piston disk and said pair of rotating cylinder housings further comprises torque means peripheral to said rotating piston disk and linkage means from said rotating piston disk to said pair of rotating cylinder housings.
- 16. The compressor of claim 14 wherein said means for synchronously rotating said rotating piston disk and said pair of rotating cylinder housings further comprises a drive shaft coincident with the central axis of the first member of the pair of rotating cylinder housings and linkage means for synchronously driving the rotating piston disk and the second member, of the pair of rotating cylinder housings.
- 17. The compressor of claim 16 wherein said linkage means further comprises a universal joint communicating between said rotating piston disk and said pair of rotating cylinder housings.
- 18. The compressor of claim 16 wherein said linkage means further comprises interdigitating tines communicating between said rotating piston disk and said pair of rotating cylinder housings.
- 19. The compressor of claim 14 wherein said equal angles are each approximately 25 degrees.
- 20. The compressor of claim 14 wherein said means for input of the gas into said cylinders further comprises:
- a pair of stationary manifolds each having a stationary valve inlet port and a stationary valve exhaust port;
- a pair of stationary control valve disks each having a sliding engagement with said rotating cylinder housings;
- said pair of stationary control valve disks each further comprising a gas inlet slot.
- 21. The compressor of claim 20 wherein said means for output of the gas from the cylinders further comprises the pair of stationary control valve disks each further comprising a gas output slot.
- 22. The compressor of claim 14 wherein said means for synchronously rotating said rotating piston disk and said rotating cylinder housings further comprises torque means peripheral to said rotating piston disk and linkage means from said rotating piston disk to said rotating cylinder housings.
- 23. The compressor of claim 22 wherein said torque means further comprises a motor and a means for transmission driving said rotating piston disk, and said linkage means further comprises peripheral gear teeth on said rotating piston disk engaged in peripheral gear teeth on said rotating cylinder housings.
- 24. The compressor of claim 23 wherein said means for transmission further comprises a drive shaft and driving gear.
- 25. The compressor of claim 1 wherein said connection means further comprises a swivel joint and a connecting rod.
Parent Case Info
This is a continuation of application Ser. No. 07/953989 filed Sept. 29, 1992, now abandoned.
US Referenced Citations (20)
Foreign Referenced Citations (1)
Number |
Date |
Country |
0142487 |
Dec 1960 |
SUX |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
953989 |
Sep 1992 |
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