CN202091036U - Turbine rotor engine - Google Patents

Abstract

The utility model discloses a turbine rotor engine, which comprises a shell, an end cover with an air inlet and a rotor arranged in the shell. A rotating shaft of the rotor is oppositely and symmetrically provided with two double-headed helicoids; the middles of the two double-headed helicoids are integrally butted; the double-headed helicoids are provided with two helicoidal variable-volume substance guiding grooves; the tail ends of the two helicoidal variable-volume substance guiding grooves are arranged oppositely; two inner-side partial combustion chambers corresponding to the positions of the tail ends of the two helicoidal variable-volume substance guiding grooves are uniformly arranged on the circumferential surface of the middle position of the butting part of the two double-headed helicoids along a clockwise direction; two sealing annular grooves are arranged on two sides of the two inner-side partial combustion chambers; a sealing ring is arranged between the sealing annular grooves and the inner wall of the shell; four outer-side partial combustion chambers are uniformly arranged at positions corresponding to the two inner-side partial combustion chambers on the inner wall of the shell along a circumference; the inner wall of the shell between each two adjacent outer-side partial combustion chambers is sequentially provided with a vent hole and a connecting groove along the clockwise direction; and the shell at a position corresponding to each outer-side partial combustion chamber is provided with a sparking plug and a fuel gas inlet. The turbine rotor engine has high work efficiency, no wear, long service life and convenience in repair.

Description

A kind of turbine rotor engine

Technical field:

The utility model relates to a kind of motor, especially a kind of turbine rotor engine.

Background technique:

At present, the motor that uses on the automobile is the four-journey reciprocating internal combustion engine, and this motor has more than 20 movable part such as piston, piston ring, connecting rod, bent axle, gear and inlet and outlet valve and forms, its structure is comparatively complicated, and volume is very big, and its crankshaft-link rod need rotate once expansion space stroke of 720 ° of ability, and the thermal technology is imitated not high, and energy consumption is big, work under bad environment, part is easy to wear, the difficult reparation, life-span is short, the maintenance cost height.

The model utility content:

The utility model provides a kind of turbine rotor engine, and it is simple in structure, and is reasonable in design, and volume is little, working stability, and the efficient height does not have wearing and tearing, and long perfomance life is easy to maintenance, has solved problems of the prior art.

The utility model is to solve the problems of the technologies described above the technological scheme that is adopted to be: it comprises shell, is located at the end cap of bringing gas port at shell two ends, the two ends of rotor that is located at enclosure by bearing fixing on end cap; Described rotor comprises that two ends are by the rotating shaft of bearing fixing on end cap, in rotating shaft, be arranged with two twin-feed spiral bodies in opposite directions, two twin-feed spiral bodies be located at the rotating shaft side with the rotating shaft be running shaft vertically spiral advance extend to from rotating shaft two outer ends respectively the middle part, and one butt joint, edge and the airtight applying of rotating shaft in two helical blades of twin-feed spiral body, corresponding formation groove between the adjacent blade of two helical blades and the rotating shaft, whole twin-feed spiral body forms in rotating shaft and extends to middle part and groove cross sectional area from its outer end and the two spiral transfigurations that ratio successively decreases such as be from outside to inside and lead the matter groove, the end that the matter groove is led in two spiral transfigurations is oppositely arranged, on the neutral position circumferential surface of two twin-feed spiral body end-to-end joint parts, evenly be provided with two inside part firing chambers along clockwise direction, to lead the terminal position of matter groove corresponding with two spiral transfigurations respectively in the position of two inside part firing chambers, on the circumferential surface of two twin-feed spiral body end-to-end joint parts of both sides, two inside part firing chambers, be that the center is arranged with two closure gasket grooves, between closure gasket groove and outer casing inner wall, be provided with seal ring with two inside part firing chambers; The position of two inside part firing chambers on the respective rotor evenly is provided with four external lateral portion firing chambers along circumference on the wall in the enclosure, inside part firing chamber and its opposite external side partial combustion chamber, position coincide when rotor clockwise rotates and form a complete cylindrical combustion chamber, the clockwise circumferencial direction in outer casing inner wall upper edge between every adjacent two external lateral portion firing chambers is provided with the connecting groove that exhaust port and connection inside part firing chamber and spiral transfiguration are led matter groove end successively, be located at the connecting groove in the place ahead, external lateral portion firing chamber and half that the distance between the external lateral portion firing chamber is inside part firing chamber length along clockwise circumferencial direction, be located at the exhaust port of external lateral portion rear combustion chamber and half that the distance between the external lateral portion firing chamber is inside part firing chamber length, be located at distance between the exhaust port in the connecting groove at exhaust port rear and its place ahead along clockwise circumferencial direction greater than the length of inside part firing chamber, described connecting groove comprises two left side connecting grooves and two right side connecting grooves, left side connecting groove and right side the connecting groove clockwise circumferencial direction in wall upper edge in the enclosure are provided with at interval, are provided with spark plug that stretches into the external lateral portion firing chamber and the fuel gas inlet that communicates with the external lateral portion firing chamber on the shell of each external lateral portion firing chamber corresponding position.

On the outer casing inner wall between divided combustion chamber, lateral part and the exhaust port, be provided with increase-volume hole, firing chamber.

Described spiral transfiguration is led the groove depth of matter groove and groove width ecto-entad and ratio such as is and successively decreases.

The utility model is simple in structure, and is reasonable in design, working stability, and it is with traditional cylinder separated into two parts, and a part is located on the turbine rotor, and another part is located on the shell.Adopt the turbine generation high pressure that runs up, the pressurized gas pulsed is sent into the firing chamber, after the external lateral portion firing chamber on inside part firing chamber and the shell on the rotor coincide, inflammable gas is sent into the firing chamber to be mixed with pressurized gas, by plug ignition, produce thrust, promote epitrochanterian inside part firing chamber and run up, rotor and turbine be one each other, thereby drives rotor high-speed running and output power.The utility model major advantage: the one, turbine and rotor be one each other.The 2nd, utilize the cylinder stripping technique, with a traditional block-head cylinder separated into two parts, a part is on rotor, a part is on shell, the 3rd, the reciprocating engine linear reciprocating motion is converted into circular movement, cancelled useless straight line motion, can carry out power and connect, it is more steady to turn round, and power is more powerful.The 4th, cylinder is in the outermost of rotor, and moment of torsion is bigger.The 5th, cancelled labyrinths such as piston, piston ring, connecting rod, bent axle and gear, whole motor has only rotatable parts, have more than 20 movable parts such as inlet and outlet valve compares with general four stroke engine, structure is simplified greatly, the possibility of fault also reduces greatly, do not have conventional engines that straight line motion is become the process of circumference, improved working efficiency.The 6th, turbine rotor is to be docked in opposite directions by two twin-feed spiral bodies to form, and does not have axial force in the work.The 7th, rotor and shell do not have friction, promptly do not have wearing and tearing, make engine efficiency higher, lighter, keep in repair more conveniently, and price is lower, and the life-span is more permanent.

Description of drawings:

Fig. 1 is a structural representation of the present utility model.

Fig. 2 is a sectional structure schematic representation of the present utility model.

Fig. 3 is the part plan structure schematic representation of the utility model shell.

Fig. 4 is the part sectional structure schematic representation of the utility model shell.

Fig. 5 is the cross section sectional structure schematic representation of position, the utility model firing chamber.

Fig. 6 to Figure 21 is the utility model work schematic representation.

Among the figure, 1, shell; 2, end cap; 3, suction port; 4, rotating shaft; 5, helical blade; 6, the matter groove is led in spiral transfiguration; 7, inside part firing chamber; 8, closure gasket groove; 9, seal ring; 10, external lateral portion firing chamber; 11, exhaust port; 12, left side connecting groove; 13, right side connecting groove; 14, spark plug; 15, fuel gas inlet; 16, firing chamber increase-volume hole.

Embodiment:

For clearly demonstrating the technical characterstic of this programme, below by embodiment, and in conjunction with its accompanying drawing, the utility model is elaborated.

Shown in Fig. 1～5, the utility model comprises shell 1, is located at the end cap of bringing gas port 3 into 2 at shell 1 two ends, the two ends of rotor that is located at shell 1 inside by bearing fixing on end cap 2; Described rotor comprises two ends by the rotating shaft 4 of bearing fixing on end cap 2, and rotating shaft 4 one ends stretch out end cap 2 outsides and link to each other with motor output shaft, and the other end connects the load output power.In rotating shaft 4, be arranged with two twin-feed spiral bodies in opposite directions, two twin-feed spiral bodies be located at rotating shaft 4 sides with rotating shaft 4 be running shaft vertically spiral advance extend to from 4 liang of outer ends of rotating shaft respectively the middle part, and one butt joint, edge and rotating shaft 4 airtight applyings in two helical blades 5 of twin-feed spiral body, corresponding formation groove between two helical blades, 5 adjacent blades and the rotating shaft 4, whole twin-feed spiral body forms in rotating shaft 4 and extends to middle part and groove cross sectional area from its outer end and the two spiral transfigurations that ratio successively decreases such as be from outside to inside and lead matter groove 6, the end that matter groove 6 is led in two spiral transfigurations is oppositely arranged, on the neutral position circumferential surface of two twin-feed spiral body end-to-end joint parts, evenly be provided with two inside part firing chambers 7 along clockwise direction, to lead the terminal position of matter groove 6 corresponding with two spiral transfigurations respectively in the position of two inside part firing chambers 7, on the circumferential surface of two twin-feed spiral body end-to-end joint parts of 7 both sides, two inside part firing chambers, be that the center is arranged with two closure gasket grooves 8 with two inside part firing chambers 7, being provided with seal ring 9, two seal rings 9 between closure gasket groove 8 and shell 1 inwall can stop the high pressure expanding gas in the firing chamber to leak; The position of two inside part firing chambers 7 on respective rotor on shell 1 inwall evenly is provided with four external lateral portion firing chambers 10 along circumference, inside part firing chamber 7 coincide when rotor clockwise rotates with its opposite external side partial combustion chamber, position 10 and forms a complete cylindrical combustion chamber, the clockwise circumferencial direction in shell 1 inwall upper edge between every adjacent two external lateral portion firing chambers 10 is provided with the connecting groove that exhaust port 11 and connection inside part firing chamber 7 and spiral transfiguration are led matter groove 6 ends successively, and the exhaust port 11 on described each station is two.Be located at the connecting groove in 10 the place aheads, external lateral portion firing chamber and half that the distance between the external lateral portion firing chamber 10 is inside part firing chamber 7 length along clockwise circumferencial direction, be located at the exhaust port 11 at 10 rears, external lateral portion firing chamber and half that the distance between the external lateral portion firing chamber 10 is inside part firing chamber 7 length, be located at distance between the exhaust port 11 in the connecting groove at exhaust port 11 rears and its place ahead along clockwise circumferencial direction greater than the length of inside part firing chamber 7, described connecting groove comprises two left side connecting grooves 12 and two right side connecting grooves 13, left side connecting groove 12 and right side connecting groove 13 are provided with at interval at the clockwise circumferencial direction in shell 1 inwall upper edge, left side connecting groove 12 right-hand members are no more than the right seal ring of surveying 9, left end is no more than the spiral transfiguration in left side and leads matter groove 6 ends, connecting groove 13 left ends in right side are no more than the seal ring 9 in left side, and right-hand member is no more than the rotatable transfiguration of spiral on right side and leads matter groove 6 ends; On the shell 1 of each external lateral portion firing chamber 10 corresponding position, be provided with spark plug 14 that stretches into external lateral portion firing chamber 10 and the fuel gas inlet 15 that communicates with external lateral portion firing chamber 10.

On shell 1 inwall between divided combustion chamber 10, lateral part and the exhaust port 11, be provided with increase-volume hole, firing chamber 16.The increase-volume hole, firing chamber 16 that is located between external lateral portion firing chamber 10 and the exhaust port 11 is one group totally 9, divides three rows to be provided with.

Described spiral transfiguration is led the groove depth of matter groove 6 and groove width ecto-entad and ratio such as is and successively decreases.

Four external lateral portion firing chambers 10 on the utility model outer casing inner wall are set to 90 degrees mutually along clockwise circumferencial direction; Four spark plugs 14 on the shell are set to 90 degrees mutually along clockwise circumferencial direction, four fuel gas inlets 15 are set to 90 degrees mutually along clockwise circumferencial direction, four groups of exhaust ports 11 are set to 90 degrees mutually along clockwise circumferencial direction, increase-volume hole, four groups of firing chambers 16 is set to 90 degrees mutually along clockwise circumferencial direction, and four connecting grooves are set to 90 degrees mutually along clockwise circumferencial directions.

During work, the motor drives rotor is by turning clockwise, as shown in Figure 6, when matter groove 6 was led in the spiral transfiguration of connecting two left sides by two left side connecting grooves 12 when two inside part firing chambers 7 on the two twin-feed spiral body end-to-end joint part circumference of rotor, the pressurized gas that matter groove 6 ends are led in two spiral transfigurations entered corresponding inside part firing chamber 7 through each self-corresponding left side connecting groove 12 respectively.Then, rotor is rotated further, and when going to position shown in Figure 7, external lateral portion firing chamber 10 is connected in inside part firing chamber 7, and the pressurized gas that matter groove 6 ends are led in spiral transfiguration enter external lateral portion firing chamber 10 through inside part firing chamber 7.When rotor went to position shown in Figure 8, two inside part firing chambers 7 and two external lateral portion firing chambers 10 coincide respectively and form two complete cylindrical combustion chambers, and the gas circuit between left side connecting groove 12 and the inside part firing chamber 7 is cut off.At this moment, pass through fuel gas inlet 15 straight spray inflammable gas in two firing chambers separately respectively, and the spark plug 14 that passes through is separately lighted a fire simultaneously, make the mixed gas burning in two firing chambers produce thrust, rotor rotation, separate with external lateral portion firing chamber 10 inside part firing chamber 7, epitrochanterian inside part firing chamber 7 is rotated the external lateral portion firing chamber 10 and the increase-volume hole, firing chamber 16 at its rear is connected, the direction of the high pressure expanding gas in the 16 bootable firing chambers, increase-volume hole, firing chamber guarantees the smooth operation of motor.Then, rotor is rotated further, and when rotor went to position shown in Figure 9, external lateral portion firing chamber 10 and exhaust port 11 were connected in inside part firing chamber 7, and the high pressure expanding gas in the firing chamber begins by exhaust port 11 outside exhausts.Rotation along with rotor, separate with external lateral portion firing chamber 10 gradually inside part firing chamber 7, until breaking away from fully, at this moment, path between exhaust port 11 and the external lateral portion firing chamber 10 is cut off, and the high pressure expanding gas in inside part firing chamber 7 and the external lateral portion firing chamber 10 is drained.When rotor went to position shown in Figure 10, motor was finished igniting for the first time, work for the first time.Then, rotor is rotated further under the thrust that motor is lighted a fire for the first time, when matter groove 6 was led in the spiral transfiguration of connecting two right sides by two right side connecting grooves 13 when epitrochanterian two inside part firing chambers 7, the pressurized gas that matter groove 6 ends are led in spiral transfiguration entered each self-corresponding inside part firing chamber 7 through each self-corresponding right side connecting groove 13 respectively.Then, rotor is rotated further, and when going to position shown in Figure 11, external lateral portion firing chamber 10 is connected in inside part firing chamber 7, and the pressurized gas that matter groove 6 ends are led in spiral transfiguration enter external lateral portion firing chamber 10 through inside part firing chamber 7.When rotor went to position shown in Figure 12, two inside part firing chambers 7 and two external lateral portion firing chambers 10 coincide respectively and form two complete firing chambers, and the gas circuit between right side connecting groove 13 and the inside part firing chamber 7 is cut off.At this moment, pass through fuel gas inlet 15 straight spray inflammable gas in the firing chamber separately respectively, and the spark plug 14 that passes through is separately lighted a fire simultaneously, make the mixed gas burning in two firing chambers produce thrust, rotor rotation, separate with external lateral portion firing chamber 10 inside part firing chamber 7, and epitrochanterian inside part firing chamber 7 is rotated the external lateral portion firing chamber 10 and the increase-volume hole, firing chamber 16 at its rear are connected.Then, rotor is rotated further, and when rotor went to position shown in Figure 13, external lateral portion firing chamber 10 and exhaust port 11 were connected in inside part firing chamber 7, and the high pressure expanding gas in the firing chamber begins by exhaust port 11 outside exhausts.Rotation along with rotor, separate with external lateral portion firing chamber 10 gradually inside part firing chamber 7, until breaking away from fully, at this moment, path between exhaust port 11 and the external lateral portion firing chamber 10 is cut off, and the high pressure expanding gas in inside part firing chamber 7 and the external lateral portion firing chamber 10 is drained.Motor is finished refire time, for the second time work.Then, rotor is rotated further, when rotor goes to position shown in Figure 14, this moment, rotor rotation was 180 °, matter groove 6 is led by the spiral transfiguration that two left side connecting grooves 12 are connected two left sides once more in two inside part firing chambers 7 on it, and the pressurized gas that matter groove 6 ends are led in spiral transfiguration enter inside part firing chamber 7 through left side connecting groove 12.Then, rotor is rotated further, and when going to position shown in Figure 15, external lateral portion firing chamber 10 is connected in inside part firing chamber 7, and the pressurized gas that matter groove 6 ends are led in spiral transfiguration enter external lateral portion firing chamber 10 through inside part firing chamber 7.When rotor went to position shown in Figure 16, two inside part firing chambers 7 and two external lateral portion firing chambers 10 coincide once more and form two complete firing chambers, and the gas circuit between left side connecting groove 12 and the inside part firing chamber 7 is cut off.At this moment, pass through fuel gas inlet 15 straight spray inflammable gas in two firing chambers separately respectively, and the spark plug 14 that passes through is separately lighted a fire simultaneously, make the mixed gas burning in two firing chambers produce thrust, rotor rotation, separate with external lateral portion firing chamber 10 inside part firing chamber 7, and epitrochanterian inside part firing chamber 7 is rotated the external lateral portion firing chamber 10 and the increase-volume hole, firing chamber 16 at its rear are connected.Rotor is rotated further, and when rotor went to position shown in Figure 17, external lateral portion firing chamber 10 and exhaust port 11 were connected in inside part firing chamber 7, and the high pressure expanding gas in the firing chamber begins by exhaust port 11 outside exhausts.Rotation along with rotor, separate with external lateral portion firing chamber 10 gradually inside part firing chamber 7, until breaking away from fully, at this moment, path between exhaust port 11 and the external lateral portion firing chamber 10 is cut off, and the high pressure expanding gas in inside part firing chamber 7 and the external lateral portion firing chamber 10 is drained.When rotor went to position shown in Figure 180, motor was finished igniting for the third time, works for the third time.Then, rotor is rotated further, when matter groove 6 was led in the spiral transfiguration of connecting two right sides by two right side connecting grooves 13 once more when epitrochanterian two inside part firing chambers 7, the pressurized gas that matter groove 6 ends are led in spiral transfiguration entered inside part firing chamber 7 through right side connecting groove 13.Then, rotor is rotated further, and when going to position shown in Figure 19, external lateral portion firing chamber 10 is connected in inside part firing chamber 7, and the pressurized gas that matter groove 6 ends are led in spiral transfiguration enter external lateral portion firing chamber 10 through inside part firing chamber 7.When rotor went to position shown in Figure 20, two inside part firing chambers 7 and two external lateral portion firing chambers 10 coincide once more and form two complete firing chambers, and the gas circuit between right side connecting groove 13 and the inside part firing chamber 7 is cut off.At this moment, pass through fuel gas inlet 15 straight spray inflammable gas in two firing chambers separately respectively, and the spark plug 14 that passes through is separately lighted a fire simultaneously, make the mixed gas burning in two firing chambers produce thrust, rotor rotation, separate with external lateral portion firing chamber 10 inside part firing chamber 7, and epitrochanterian inside part firing chamber 7 is rotated the external lateral portion firing chamber 10 and the increase-volume hole, firing chamber 16 at its rear are connected.At this moment, rotor is rotated further, and when rotor went to position shown in Figure 21, external lateral portion firing chamber 10 and exhaust port 11 were connected in inside part firing chamber 7, and the high pressure expanding gas in the firing chamber begins by exhaust port 11 outside exhausts.Rotation along with rotor, separate with external lateral portion firing chamber 10 gradually inside part firing chamber 7, until breaking away from fully, at this moment, path between exhaust port 11 and the external lateral portion firing chamber 10 is cut off, and the high pressure expanding gas in inside part firing chamber 7 and the external lateral portion firing chamber 10 is drained.Motor is finished four-ignition, the 4th task.

So far, turbine rotor engine has been transported and has been circled, and four firing chamber concurrent fire eight times are worked eight times.

Above-mentioned embodiment can not be as the restriction to the utility model protection domain, and for those skilled in the art, any alternate modification or conversion that the utility model mode of execution is made all drop in the protection domain of the present utility model.

The utility model does not describe part in detail, is those skilled in the art of the present technique's known technology.

Claims (3)

1. turbine rotor engine is characterized in that: comprise shell, be located at the end cap of bringing gas port at shell two ends, the two ends of rotor that is located at enclosure by bearing fixing on end cap; Described rotor comprises that two ends are by the rotating shaft of bearing fixing on end cap, in rotating shaft, be arranged with two twin-feed spiral bodies in opposite directions, two twin-feed spiral bodies be located at the rotating shaft side with the rotating shaft be running shaft vertically spiral advance extend to from rotating shaft two outer ends respectively the middle part, and one butt joint, edge and the airtight applying of rotating shaft in two helical blades of twin-feed spiral body, corresponding formation groove between the adjacent blade of two helical blades and the rotating shaft, whole twin-feed spiral body forms in rotating shaft and extends to middle part and groove cross sectional area from its outer end and the two spiral transfigurations that ratio successively decreases such as be from outside to inside and lead the matter groove, the end that the matter groove is led in two spiral transfigurations is oppositely arranged, on the neutral position circumferential surface of two twin-feed spiral body end-to-end joint parts, evenly be provided with two inside part firing chambers along clockwise direction, to lead the terminal position of matter groove corresponding with two spiral transfigurations respectively in the position of two inside part firing chambers, on the circumferential surface of two twin-feed spiral body end-to-end joint parts of both sides, two inside part firing chambers, be that the center is arranged with two closure gasket grooves, between closure gasket groove and outer casing inner wall, be provided with seal ring with two inside part firing chambers; The position of two inside part firing chambers on the respective rotor evenly is provided with four external lateral portion firing chambers along circumference on the wall in the enclosure, inside part firing chamber and its opposite external side partial combustion chamber, position coincide when rotor clockwise rotates and form a complete cylindrical combustion chamber, the clockwise circumferencial direction in outer casing inner wall upper edge between every adjacent two external lateral portion firing chambers is provided with the connecting groove that exhaust port and connection inside part firing chamber and spiral transfiguration are led matter groove end successively, be located at the connecting groove in the place ahead, external lateral portion firing chamber and half that the distance between the external lateral portion firing chamber is inside part firing chamber length along clockwise circumferencial direction, be located at the exhaust port of external lateral portion rear combustion chamber and half that the distance between the external lateral portion firing chamber is inside part firing chamber length, be located at distance between the exhaust port in the connecting groove at exhaust port rear and its place ahead along clockwise circumferencial direction greater than the length of inside part firing chamber, described connecting groove comprises two left side connecting grooves and two right side connecting grooves, left side connecting groove and right side the connecting groove clockwise circumferencial direction in wall upper edge in the enclosure are provided with at interval, are provided with spark plug that stretches into the external lateral portion firing chamber and the fuel gas inlet that communicates with the external lateral portion firing chamber on the shell of each external lateral portion firing chamber corresponding position.

2. a kind of turbine rotor engine according to claim 1 is characterized in that: be provided with increase-volume hole, firing chamber on the outer casing inner wall between divided combustion chamber, lateral part and the exhaust port.

3. a kind of turbine rotor engine according to claim 1 and 2 is characterized in that: described spiral transfiguration is led the groove depth of matter groove and groove width ecto-entad and ratio such as is and successively decreases.

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