RU99114458A - ELECTRICITY GENERATING SYSTEM WITH RING COMBUSTION CHAMBER - Google Patents

Claims (14)

1. An electricity generating system comprising a housing, an annular combustion chamber provided in said housing, a turbine made of a plurality of turbine blades attached to a rotor provided in said housing and in fluid communication with said combustion chamber, a compressor chamber provided in said the casing and in fluid communication with said combustion chamber, a plurality of compressor blades attached to said rotor, said compressor blades and located in the compressor chamber, an air inlet channel in fluid communication with said compressor chamber, an outlet channel in hydraulic communication with said turbine, a plurality of magnets attached to said rotor, a stator made of material capable of being attracted by magnets provided in said body, said stator is located in close proximity to said plurality of magnets, whereby the rotation of said rotor causes a change in flow around said the stator, thereby generating electricity, a fuel pump in fluid communication with said annular combustion chamber, with a bearing for supporting said rotor rotatably; and a lubricating oil pump in fluid communication with said bearing.  2. The electricity generating system of claim 1, wherein said fuel pump and said oil pump are displacement pumps.  3. The electricity generating system according to claim 2, wherein each of said pumps comprises an internal rotor located inside the housing, said internal rotor being adapted to move in said housing for pumping liquid through said housing, wherein each of said rotors is driven electric motor.  4. The electricity generating system according to claim 3, wherein each of said internal rotors is driven by the same electric motor.  5. The electricity generating system according to claim 4, in which each of the volumetric pumps is a gear-rotary pump, each of said internal rotors interacting with an external rotor located between said housing and said internal rotor, and the shaft is connected to at least one of the internal rotors and said electric motor.  6. An electricity generating system comprising a housing, an annular combustion chamber provided in this housing, a turbine made of a plurality of turbine blades attached to a rotor provided in said housing and in fluid communication with said combustion chamber, a compressor chamber provided in said housing and in fluid communication with said combustion chamber, a plurality of compressor blades attached to said rotor, said compressor blades are located inside the compressor chamber ry; an air inlet in hydraulic communication with said compressor chamber; an exhaust channel in hydraulic communication with said turbine; a plurality of magnets attached to said rotor; and a stator made of a magnet-attracting material provided in said housing, said stator is located in close proximity to said plurality of magnets, whereby the rotation of said rotor causes a change in flow around said stator, thereby generating electricity; and a fuel metering valve in fluid communication with said annular combustion chamber, said fuel metering valve comprising a proportional solenoid having a plunger with a tip, said plunger being adapted to protrude along a longitudinal axis, wherein the valve body forms a plunger cavity, an inlet and an outlet, said a plunger protrudes in said plunger cavity, and a flow plate having an opening formed therein, said flow plate is attached to said the valve body and is located inside said plunger cavity between said inlet and said outlet, whereby the movement of said plunger in a first direction causes said tip to interact with an opening formed in said flow plate to change the flow from said inlet to said outlet through said opening formed in said flow plate.  7. The electricity generating system of claim 6, wherein said tip has a diameter that varies with respect to the longitudinal axis.  8. The electricity generating system according to claim 7, in which the diameter of the tip varies from a diameter smaller than the diameter of the hole formed in said flow plate to a diameter larger than the diameter of the hole formed in said flow plate, whereby said plunger is adapted to move both in the first longitudinal direction and in the second longitudinal direction, and when said plunger extends a first distance in a first longitudinal direction, said plunger tip protrudes through said the aperture formed in said flow plate and is in contact with said flow plate, blocking the flow through said flow plate in a locked position, and when said plunger moves in a second direction from the locked position, said tip moves away from said flow plate and the flow through said plate the flow varies as a function of the longitudinal position of said tip.  9. An electricity generating system, comprising a housing, an annular combustion chamber, a turbine provided in this housing, made of a plurality of turbine blades attached to a rotor provided in said housing and in fluid communication with said combustion chamber, a compressor chamber provided in said housing and hydraulic connection with said combustion chamber, a plurality of compressor blades attached to said rotor, said compressor blades are located inside the compressor chamber s, an air inlet in hydraulic communication with said compressor chamber, an exhaust channel in hydraulic communication with said turbine, a plurality of magnets attached to said rotor, a stator made of magnetically attracted material provided in said housing, said stator is in close proximity from said plurality of magnets, whereby the rotation of said rotor causes a change in flow around said stator, thereby generating electricity; and a fuel metering valve in fluid communication with said annular combustion chamber, said fuel metering valve comprising a proportional solenoid with a plunger adapted to protrude along a longitudinal axis, said plunger having a tip and a valve body forming a plunger cavity, an inlet and an outlet, said the plunger protrudes inside said plunger cavity, said tip has a blocking part, and the flow passage formed therein has an inlet channel and an outlet channel, wherein said inlet channel is in fluid communication with said outlet channel, whereby moving said tip in a first longitudinal direction causes said inlet channel, outlet channel and blocking member to cooperate with said inlet and outlet to change the flow through said a valve body from said inlet to said outlet.  10. An electricity generating system comprising a housing, an annular combustion chamber provided in this housing, a turbine made of a plurality of turbine blades attached to a rotor provided in said housing and in fluid communication with said combustion chamber, a compressor chamber provided in said housing and in fluid communication with said combustion chamber, a plurality of compressor blades attached to said rotor, said compressor blades are located inside the compressor chamber ery; an air inlet in hydraulic communication with said compressor chamber, an exhaust channel in hydraulic communication with said turbine, a plurality of magnets attached to said rotor, a stator made of a material capable of being attracted by magnets provided in said housing, said stator is located in close proximity to said plurality of magnets, whereby the rotation of said rotor causes a change in flow around said stator, thereby generating electricity, an annular bearing rotatably receiving a cylindrical portion of said rotor through an annular recess formed in said bearing, said bearing is attached to said housing, said bearing is adapted to support said rotor so that said rotor can rotate about a longitudinal axis; and a fixture for attaching said bearing to said housing, said fixture comprises a protrusion attached to said bearing and protruding radially from an annular recess, a cylindrical bore receiving a bearing formed in a housing for receiving said bearing, and a protrusion receiving recess formed in said housing for receiving said protrusion and preventing said bearing from rotating along the longitudinal axis but the said body; and a fastener cooperating with said bearing for restricting movement of said bearing in a first longitudinal direction with respect to said housing.  11. The electricity generating system of claim 10, wherein said receiving protrusion recess ends on said housing at a terminating point, this terminating point interacts with said protrusion to limit the movement of said coupling in a second longitudinal direction relative to said housing.  12. An electricity generating system comprising a housing, an annular combustion chamber provided in this housing, a turbine made of a plurality of turbine blades attached to a rotor provided in said housing and in fluid communication with said combustion chamber, a compressor chamber provided in said housing and in hydraulic communication with said combustion chamber, a plurality of compressor blades attached to said rotor, said compressor blades are located inside the compressor chamber air inlet channel in hydraulic communication with said compressor chamber, exhaust channel in hydraulic communication with said turbine, a plurality of magnets attached to said rotor, a stator made of material capable of being attracted by magnets provided in said housing, said stator is located in close proximity to of said plurality of magnets, whereby rotation of said rotor causes a change in flow around said stator, thereby generating electricity oh annular bearing rotatably receiving a cylindrical portion of said rotor through the annular recess formed in said bearing, said bearing secured to said housing, said bearing adapted to support said rotor so that said rotor can rotate about the longitudinal axis; and a damper located between the outer surface of said bearing and said housing.  13. The electricity generating system of claim 12, wherein said damper is a solid ring made of an elastomeric material.  14. The electricity generating system of claim 11, wherein the two receiving protrusions of the recess are formed by a pair of spaced arcuate flanges, each of said arcuate flanges defines an open end receiving protrusion of the recess, the receiving protrusions of the recess spaced, and in which a circular holding ring with protrusions having two protruding protrusions attached to said bearing, said protrusions are received by respective protruding receiving recesses, and in which said fixing e ement thrust ring is accepted in the thrust ring recesses formed in said arcuate flanges.