RU2002115635A - ROTARY GAS COMPRESSOR WITH AN INCLINED SHAFT AND MULTI-STAGE INLET SYSTEM - Google Patents

Claims (22)

1. Rotary gas compressor with an inclined shaft containing a drive shaft made in one piece with the cylinder head, which is perpendicular to its axis and has gas holes located at equal intervals on a concentric circle; a gas directional element equipped with an intake manifold for external gas inlet and an exhaust manifold for exhausting gas compressed in the cylinder bores; a crankcase cover for holding the drive shaft with the possibility of rotation, having at least one inlet window for supplying gas introduced into the cylinder bores through the intake manifold, and at least two outlet windows for releasing compressed gas in the cylinder bores into the exhaust collector; a valve plate fixed to the inner surface of the crankcase cover for contact with the outer surface of the cylinder head and having a groove of the gas inlet valve and at least two grooves of the gas exhaust valve located on a circle along which the gas holes move, the gas inlet groove the valve delivers the gas introduced through the inlet window into the cylinder bores, and the grooves of the exhaust valve release compressed gas in the cylinder bores into the exhaust ports; a cylinder block having cylinder openings parallel to the drive shaft, a surface connected integrally with the cylinder head, and an opposite surface, from the side of which pistons are made that are slideable and designed to compress the gas admitted into the corresponding cylinder openings ; a rotary plate connected by means of a coupling to the central part of the cylinder block, and by means of piston rods - with the indicated pistons, and intended to convert the rotational force transmitted from the drive shaft into a rectilinear reciprocating movement, which must be reported to the pistons; an end plate of the crankcase having an inclined surface and designed to hold the rotary plate; and a crankcase connected to the crankcase cover and the end plate of the crankcase and designed to accommodate a cylinder block and a rotary plate therein. 2. The rotary gas compressor with an inclined shaft according to claim 1, in which the outlet windows of the crankcase cover accommodate the corresponding check valves. 3. The rotary gas compressor with an inclined shaft according to claim 2, in which the groove of said intake valve is made within a 180 ° circumference corresponding to the portion of the intake stroke on which a particular piston moves from top dead center to bottom dead center, wherein said exhaust valve is made in the remaining 180 ° circumference corresponding to the portion of the compression stroke in which this particular piston moves from bottom dead center to top dead center. 4. The rotary gas compressor with an inclined shaft according to claim 3, wherein the groove of said inlet valve and the grooves of said exhaust valve are separated from each other by at least some distance, i.e. the length (V _L ) of the separation wall, which exceeds the diameter of the gas holes in the cylinder head. 5. The rotary gas compressor with an inclined shaft according to claim 4, in which the length of each groove of the specified exhaust valve is less than the distance between the gas holes. 6. The rotary gas compressor with an inclined shaft according to claim 5, in which the width of each valve groove in the valve plate is equal to or greater than the diameter of the gas holes. 7. The rotary gas compressor with an inclined shaft according to claim 6, in which at least one of the grooves of said exhaust valve is less than the width of the diameter of the gas holes. 8. The rotary gas compressor with an inclined shaft according to claim 5, in which the crankcase cover and the drive shaft have a circulation circuit designed to introduce gas from the intake manifold into the cylinder bores through a sealed cavity formed inside the crankcase. 9. The rotary gas compressor with an inclined shaft according to claim 8, in which the specified circulation circuit is made with at least one inlet channel, providing communication between the intake manifold of the crankcase cover and the crankcase, and with at least one auxiliary inlet a channel providing communication through the chamber of the cylinder block between the crankcase and the cylinder bores, the drive shaft in the axial direction being partially hollow and the hollow part having at least one axial window, perpendicular drive shaft. 10. The rotary gas compressor with an inclined shaft according to claim 9, in which the hollow part in the drive shaft or the cylinder block chamber is made with at least one protrusion that prevents liquid from entering. 11. The rotary gas compressor with an inclined shaft according to claim 10, further comprising a tension ring and a ring-shaped flat spring placed between the inner surface of the crankcase cover and the valve plate. 12. The rotary gas compressor with an inclined shaft according to claim 11, in which a cooling casing is attached to the outer surface of the crankcase, which surrounds the crankcase and has a refrigerant inlet and an outlet for refrigerant, while spiral fuel fins are made outside the crankcase. 13. The rotary gas compressor with an inclined shaft according to item 12, in which the outer peripheral surface of the turntable is equipped with blades. 14. The rotary gas compressor with an inclined shaft according to item 13, in which the outer surface of the crankcase cover is equipped with fuel ribs radially protruding from the drive shaft, and the outer surface of the crankcase is equipped with fuel ribs parallel to the drive shaft. 15. The rotary gas compressor with an inclined shaft according to 14, in which the gas direction element is equipped with an auxiliary inlet pipe and an auxiliary exhaust pipe, which connect the inlet pipe in communication with the intake manifold with the exhaust pipe in communication with the exhaust manifold. 16. A rotary gas compressor with an inclined shaft according to any one of claims 1 to 15, in which the coupling connecting the cylinder block to the rotary plate contains a universal joint or bevel gear. 17. The rotary gas compressor with an inclined shaft according to clause 16, in which the piston rod connecting the piston to the rotary plate contains a universal joint, double crank or extension rod. 18. The rotary gas compressor with an inclined shaft according to 17, in which the extension rod is formed by a rod with an external thread and a rod with an internal thread, the piston stroke length being regulated by a lock nut connected to the external part of the rod with the external thread. 19. The rotary gas compressor with an inclined shaft according to claim 18, wherein a flat spring is mounted on the outside of the extension rod. 20. The rotary gas compressor with an inclined shaft according to any one of claims 1 to 15, in which the coupling connecting the cylinder block to the rotary plate, contains a spring clutch. 21. The rotary gas compressor with an inclined shaft according to claim 20, in which the piston rod connecting the piston to the rotary plate contains a double crank. 22. The rotary gas compressor with an inclined shaft according to item 21, in which the spring clutch is connected between the cylinder block and the rotary plate in the same direction in which the cylinder block and the piston rod rotate to apply an attractive force or stress from deformation.