CN107222085A - Electromagnetic balance head-on collision propeller - Google Patents
Electromagnetic balance head-on collision propeller Download PDFInfo
- Publication number
- CN107222085A CN107222085A CN201610161305.XA CN201610161305A CN107222085A CN 107222085 A CN107222085 A CN 107222085A CN 201610161305 A CN201610161305 A CN 201610161305A CN 107222085 A CN107222085 A CN 107222085A
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- Prior art keywords
- balance
- propeller
- stator
- rotor
- superconducting magnet
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K55/00—Dynamo-electric machines having windings operating at cryogenic temperatures
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K16/00—Machines with more than one rotor or stator
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E40/00—Technologies for an efficient electrical power generation, transmission or distribution
- Y02E40/60—Superconducting electric elements or equipment; Power systems integrating superconducting elements or equipment
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)
Abstract
Due to the development of modern industry, the development of computer technology, the development of Power Electronic Technique, the development of superconduction body technique, the development of nuclear energy power generation technology, accurate control heavy current is possibly realized, realize that the condition of UFO propulsion modes gradually possesses, the active force and reaction force of object are promoted with a propeller, reaction propulsion propeller advances, and active force is balanced counteracting, and the active force and reaction force of electromagnetic balance head-on collision propeller are with a propeller, during work, the eccentric rotor of propulsion system(28)The superconducting magnet of one end installing(2)The superconducting magnet of stator side installing is reached at a high speed(22)Specified location, it is powered simultaneously, produce magnetic field, produce induced-current, due to Meisser effect, cryogenic magnetic field interaction, eccentric rotor superconducting magnet, which is reversed, to be pushed back, reaction propulsion propeller advances, and active force promotes superconducting magnet to rotate the counterweight that the centrifugal force produced is balanced Z-shaped rotor (31) installing of system(8)Balance is offset, due to two Z-shaped rotors(31), (34) rotation direction on the contrary, turning moment is equal, cancel out each other, control system is complicated.
Description
Technical field
The present invention relates to a kind of propeller, promote the active force and reaction force of object same on one object, reaction
Push and advance into object, active force is balanced counteractings, the not injecting substances backward in propulsion are not limited by surrounding medium.
Background technology
At present, due to the development of modern industry, the development of computer technology, the development of Power Electronic Technique, superconductor skill
The development of art, realizes that the condition of UFO propulsion modes gradually possesses, and promotes the active force and reaction force of object with one
On object, reaction propulsion object advances, and active force is balanced counteracting, and I am in application number CN200710137281.5 electromagnetism
In propeller propose electromagnetic propeller be made up of propulsion system and balance system, propulsion system by installing calutron stator and
Mover is constituted, and balance system is made up of drive device and eccentric rotor, during work the mass centre of propulsion system mover all the time with
The mass centre for the balance weight installed on the balance rotor of balance system by central axis point-blank, the centrifugation of generation
Power is cancelled out each other, and because motor is under reversing braking state all the time, motor feels hot is big, it is impossible to normal work, in addition
Fail to solve because turning moment caused by balance system motor braking, I am in application number:2012100707634 electromagnetic balances
Inertia propeller proposes that same axis installs four motors, and two drive mover respectively for one group, same group of two motors, together
To rotation, the centrifugal force size of generation is identical, in the opposite direction, and effect point-blank, is cancelled out each other, the installing of mover one end
Calutron under inertial states in mover is slowed down by stator field, active force, reaction force make stator field by
Preceding thrust, two groups of motor direction of rotation on the contrary, produce turning moment cancel out each other, electromagnetic balance is proved by Experiment of Principle
The feasibility of inertia propeller.
The content of the invention
Promote the active force and reaction force of object with one object, reaction propulsion object advances, active force
Counteracting is balanced, the active force and reaction force of electromagnetic balance head-on collision propeller are with one object, and propulsion system bias turns
The magnetic field interaction for the superconducting magnet that the superconducting magnet of sub- one end installing is installed with stator both sides, reaction propulsion propeller
Advance, active force promotes eccentric rotor superconducting magnet to rotate and produces centrifugal force, the counterweight of the Z-shaped rotor of balance system rotate produce from
Mental and physical efforts, two centrifugal force are equal in magnitude, in the opposite direction, and effect point-blank, is cancelled out each other, and two sets of electromagnetic balance head-on collisions are pushed away
Enter the same central axis installing of device, the turning moment of two Z-shaped rotor motions generations of driving balance system is equal to cancel out each other,
Control system is complicated.
What the present invention is achieved by the following technical solutions:Two sets of electromagnetic balance head-on collision same central shafts of propeller are traditional thread binding
If electromagnetic balance head-on collision propeller is made up of propulsion system and balance system, propulsion system and the same central axis of balance system
Installing, propulsion system and balance system are operated in vacuum area.
Propulsion system is made up of stator and eccentric rotor, propulsion system stator both sides difference one superconducting magnet of each installing,
Superconducting magnet is made up of superconducting coil and freezing liquid, the working faces of two superconducting magnets with central axis in approximately the same plane,
Eccentric rotor one end of propulsion system is installed on stator, other end installing superconducting magnet, propulsion system stator and eccentric rotor
Upper installing arrangements for speed regulation.
Balance system is made up of stator and Z-shaped rotor, and two superconducting magnets are respectively installed in balance system stator both sides, and four surpass
The working face of magnetic conductor is with central axis in approximately the same plane, and the Z-shaped two ends of rotor installing superconducting magnet of balance system is Z-shaped
Z-shaped rotor counterweight is installed in rotor side, and installs arrangements for speed regulation on balance system stator and Z-shaped rotor.
During work, two eccentric rotor superconducting magnets of two sets of electromagnetic balance head-on collision propeller propulsion systems are simultaneously mutual respectively
Reversely to reach the specified location of propulsion system left and right sides stator superconducting magnet at a high speed, it is powered simultaneously, produces magnetic field, produces sense
Induced current, due to Meisser effect, magnetic field interaction drives two eccentric rotors to rotate backward each other, and power supply disconnects, bypass
Switch conduction stores superconducting magnet electric energy, and two eccentric rotor superconducting magnets are driven respectively in propulsion system stator superconducting magnet two
Reversely reciprocal inertia motion each other between working face.
Meanwhile, the superconducting magnet point of two Z-shaped two ends of rotor installings of two sets of electromagnetic balance head-on collision propeller balance systems
Do not reach the specified location of the stator superconducting magnet of balance system stator both sides at a high speed reversely each other simultaneously, be powered simultaneously, produce
Magnetic field, produces induced-current, and due to Meisser effect, cryogenic magnetic field interaction drives Z-shaped rotor rotor to rotate, power supply breaks
Open, by-pass switch conducting storage superconducting magnet electric energy, the reversely reciprocal inertia motion each other of two Z-shaped rotors is driven respectively.
By the interaction of the deceleration speed governing of the arrangements for speed regulation that are installed in propulsion system and balance system, make Z-shaped rotor
The eccentric rotor of counterweight and propulsion system, the centrifugal force of generation is equal in magnitude, in the opposite direction, acts on point-blank, mutually
Offset, eccentric rotor, which is reversed, to be pushed away, stator is produced thrust by the reaction force of eccentric rotor, due to two Z-shaped rotors
Rotation direction is on the contrary, turning moment is equal cancels out each other.
Beneficial effect
Because eccentric rotor one end of electromagnetic balance head-on collision propeller propulsion system is installed on propulsion system stator, other end dress
If superconducting magnet, when eccentric rotor superconducting magnet reaches the specified location of propulsion system stator superconducting magnet at a high speed, lead to simultaneously
Electricity, produces magnetic field, produces induced-current, due to Meisser effect, magnetic field interaction, eccentric rotor superconducting magnet, which is reversed, to be pushed away
Return, stator is produced thrust by the reaction force of eccentric rotor, and eccentric rotor superconducting magnet is rotated by centrifugal force, and because
The mass centre of the Z-shaped rotor counterweight of balance system and the mass centre of the eccentric rotor of propulsion system by central axis all the time
It is maintained on a branch line, and is centrally located axis both sides, the centrifugal force size of generation is identical, in the opposite direction, acts on one
On bar branch line, cancel out each other, produce thrust, because the rotation direction of two Z-shaped rotors is on the contrary, turning moment is cancelled out each other, control
System complex processed.
Brief description of the drawings
Further illustrate with reference to the accompanying drawings and examples.
Fig. 1 is the main view profile of the present invention.
Fig. 2 is the top plan view of the present invention.
In figure:1. central axis, 2. eccentric rotor superconducting magnets, 3. Z-shaped rotor superconducting magnets, 4. Z-shaped rotor superconductions
Magnet, 5. eccentric rotor superconducting magnets, 6. Z-shaped rotor superconducting magnets, 7. Z-shaped rotor superconducting magnets, 8. Z-shaped rotors are matched somebody with somebody
Weight, 9 .Z shape rotor counterweights, 10. arrangements for speed regulation, 11. arrangements for speed regulation, 12. arrangements for speed regulation, 13. arrangements for speed regulation, 14. is flat
Balance system stator superconducting magnet, 15. balance system stator superconducting magnets, 16. balance system stator superconducting magnets, 17. promote
System stator superconducting magnet, 18. balance system stator superconducting magnets, 19. propulsion system stator superconducting magnets, 20. promote system
System stator superconducting magnet, 21 balance system stator superconducting magnets, 22, propulsion system stator superconducting magnet, 23., balance system is fixed
Sub- superconducting magnet, 24. balance system stator superconducting magnets, 25. balance system stator superconducting magnets, 26. superconducting coils,
27. freezing liquid, 28. eccentric rotors, the Z-shaped rotor of 29. eccentric rotor 30., 31. Z-shaped rotors, 32. propulsion system stators, 33.
Balance system stator, 34. balance system stators, 35. propulsion system stators.
Embodiment
In the embodiment shown in fig. 1:Two sets of electromagnetic balances head-on collision same central axis of propeller(1)Installing, electromagnetic balance
Head-on collision propeller is made up of propulsion system and balance system, and propulsion system and balance system are operated in vacuum area, propulsion system
With the same central axis of balance system(1)Installing, electromagnetic balance clashes propeller propulsion system by propulsion system stator(32)With
Eccentric rotor(28)Constitute, propulsion system stator(32)Install propulsion system superconducting magnet in both sides(22)、(17), two superconducting magnetics
The working face and central axis of body(1)In approximately the same plane, eccentric rotor(28)One end is installed in propulsion system stator(32)
On, other end installing eccentric rotor superconducting magnet(2), the superconducting magnet of electromagnetic balance head-on collision propeller is by superconducting coil(26)With
Freezing liquid(27)Constitute, propulsion system stator(32)And eccentric rotor(28)Upper installing arrangements for speed regulation(10).
Electromagnetic balance clashes propeller balance system by balance system stator(33)With Z-shaped rotor(31)Constitute, balance system
System stator(33)Install balance system stator superconducting magnet in both sides(24)、(14)、(25)、(15), the work of four superconducting magnets
Face and central axis(1)In approximately the same plane, Z-shaped rotor(31)Install superconducting magnet in two ends(4)、(3), in Z-shaped rotor
(31)Install counterweight in side(8), balance system stator(33)With Z-shaped rotor(31)Upper installing arrangements for speed regulation(11).
Another set of electromagnetic balance head-on collision propeller, balance system stator(34)Install balance system stator superconducting magnet in both sides
(18)、(16)、(21)、(23), the working face and central axis of four superconducting magnets(1)In approximately the same plane, balance system
Z-shaped rotor(30)Install Z-shaped rotor superconducting magnet in two ends(7)、(6), Z-shaped rotor(30)Install counterweight in side(9), balance system
System stator(34)With Z-shaped rotor(30)Upper installing arrangements for speed regulation(12).
Install superconducting magnet in propulsion system stator both sides(20)、(19), the working face and central axis of two superconducting magnets
(1)In approximately the same plane, the eccentric rotor of propulsion system(29)Install superconducting magnet in one end(5), propulsion system stator and partially
Heart rotor(29)Upper installing arrangements for speed regulation(13).
In Fig. 2 embodiments:Two sets of propulsion systems of electromagnetic balance head-on collision propeller and two sets of same centers of balance system
Axis(1)Installing, during work, propulsion system eccentric rotor(28)The eccentric rotor superconducting magnet of installing(2)Reach at a high speed and promote
System stator(32)The propulsion system stator superconducting magnet of side(22)Specified location when, simultaneously be powered, produce magnetic field, produce
Induced-current, due to Meisser effect, two magnetic field interactions drive eccentric rotor(28)Rotate, power supply disconnects, by-pass switch
Conducting storage superconducting magnet electric energy, when eccentric rotor superconducting magnet(2)Propulsion system stator superconducting magnet is reached at a high speed(17)'s
During specified location, eccentric rotor superconducting magnet(2)With propulsion system stator superconducting magnet(17)It is powered simultaneously, produces magnetic field, production
Raw induced-current, due to Meisser effect, two magnetic field interactions, eccentric rotor superconducting magnet(2)It is reversed and pushes back, power supply
Disconnect, eccentric rotor is worked as in by-pass switch conducting storage superconducting magnet electric energy, drive(28)Eccentric rotor superconducting magnet(2)Pushing away
Enter system stator superconducting magnet(22)、(17)Reciprocal inertia operation between two working faces.
Meanwhile, the Z-shaped rotor of balance system(31)The Z-shaped rotor superconducting magnet of one end installing(4)Balance system is reached at a high speed
System stator superconducting magnet(14)During specified location, the Z-shaped rotor of balance system(31)The Z-shaped rotor superconducting magnet of other end installing
(3)Balance system stator superconducting magnet is reached at a high speed(25)During specified location, it is powered simultaneously, produces magnetic field, produces induced-current,
Four magnetic field interactions, due to Meisser effect, drive Z-shaped rotor rotor(31)Rotate, power supply disconnects, by-pass switch conducting
Superconducting magnet electric energy is stored, when the Z-shaped rotor of balance system(31)The Z-shaped rotor superconducting magnet of one end installing(4)Reach at a high speed
Balance system stator superconducting magnet(15)Specified location when, Z-shaped rotor(31)The Z-shaped rotor superconducting magnet of other end installing
(3)Balance system stator superconducting magnet is reached at a high speed(24)Specified location when, simultaneously be powered, produce magnetic field, produce induced electricity
Stream, due to Meisser effect, four magnetic field interactions, Z-shaped rotor superconducting magnet(4), superconducting magnet(3)It is reversed and pushes back,
Power supply is disconnected, and eccentric rotor is worked as in by-pass switch conducting storage superconducting magnet electric energy, drive(31)Reciprocal inertia motion.
By being installed in propulsion system stator(32)With in eccentric rotor(28)On arrangements for speed regulation(10)And be installed in
Balance system stator(33)With Z-shaped rotor(31)On arrangements for speed regulation(11), by the interaction of deceleration speed governing, make Z-shaped turn
The counterweight of sub- side installing(8)Mass centre, the eccentric rotor with propulsion system(28)Mass centre pass through central axis
(1)Remain on a branch line, the centrifugal force size of generation is identical, in the opposite direction, act on a branch line, active force
Cancel out each other, eccentric rotor, which is reversed, to be pushed away, stator is produced thrust by the reaction force of eccentric rotor.
Meanwhile, the eccentric rotor of another set of electromagnetic balance head-on collision propeller propulsion system(29)The superconducting magnet of installing(5)
Propulsion system stator is reached at a high speed(35)The superconducting magnet of side(19)Specified location when, simultaneously be powered, produce magnetic field, produce
Induced-current, due to Meisser effect, two magnetic field interactions drive eccentric rotor(29)Rotate, power supply disconnects, bypass is opened
Conducting storage superconducting magnet electric energy is closed, works as eccentric rotor(29)The superconducting magnet of installing(5)Propulsion system is reached at a high speed to determine
Sub- superconducting magnet(20)Specified location when, simultaneously be powered, produce magnetic field, produce induced-current, due to Meisser effect, two
Magnetic field interaction, superconducting magnet(5)It is reversed and pushes back, power supply disconnects, by-pass switch conducting storage superconducting magnet electric energy drives
Work as eccentric rotor(29)In balance system stator superconducting magnet(20)、(19)Reciprocal inertia operation between two working faces.
Meanwhile, the Z-shaped rotor of balance system(30)The Z-shaped rotor superconducting magnet of one end installing(7)Balance system is reached at a high speed
System stator superconducting magnet(23)Specified location when, the Z-shaped rotor of balance system(30)The Z-shaped rotor superconducting magnetic of other end installing
Body(6)Balance system stator superconducting magnet is reached at a high speed(18)Specified location when, simultaneously be powered, produce magnetic field, produce sensing
Electric current, due to Meisser effect, four magnetic field interactions drive Z-shaped rotor rotor(30)Rotate, power supply disconnects, bypass is opened
Conducting storage superconducting magnet electric energy is closed, when the Z-shaped rotor of balance system(30)The Z-shaped rotor superconducting magnet of one end installing(7)It is high
Speed reaches balance system stator superconducting magnet(16)Specified location when, Z-shaped rotor(30)The Z-shaped rotor of other end installing surpasses
Magnetic conductor(6)Balance system stator superconducting magnet is reached at a high speed(21)Specified location when, simultaneously be powered, produce magnetic field, produce
Induced-current, due to Meisser effect, four magnetic field interactions, Z-shaped rotor superconducting magnet(7), superconducting magnet(6)It is anti-
To pushing back, power supply disconnects, by-pass switch conducting storage superconducting magnet electric energy, drives eccentric rotor(30)Reciprocal inertia motion.
By being installed in propulsion system stator(35)With in eccentric rotor(29)On arrangements for speed regulation(13)It is flat with being installed in
Balance system stator(34)With Z-shaped rotor(30)On arrangements for speed regulation(12)By the interaction of deceleration speed governing, make Z-shaped rotor
(30)The counterweight of side installing(9)Mass centre, the eccentric rotor with propulsion system(29)Mass centre pass through central shaft
Line(1)Remain on a branch line, the centrifugal force size of generation is identical, in the opposite direction, act on a branch line, act on
Power is cancelled out each other, and eccentric rotor is pushed away from, and stator is produced thrust by the reaction force of eccentric rotor.
Due to two Z-shaped rotors(31)、(30)Rotation direction on the contrary, turning moment is cancelled out each other, essence during work
Really control two eccentric rotors(28)、(29), two Z-shaped rotors(30)、(31)Speed, control system is complicated.
Claims (14)
1. electromagnetic balance head-on collision propeller is made up of propulsion system and balance system, propulsion system and the same central shaft of balance system
Traditional thread binding to set, propulsion system is made up of stator and eccentric rotor, stator and eccentric rotor the installing calutron of propulsion system, eccentric
Rotor reciprocal inertia motion between the calutron that propulsion system stator both sides are installed, the balance rotor side dress of balance system
Establishing weight, makes the mass centre of balance rotor counterweight and the mass centre of the eccentric rotor of propulsion system pass through central shaft during work
Line is remained on a branch line, and is centrally located axis both sides, and the centrifugal force size of generation is identical, in the opposite direction, is made
With on a branch line, cancel out each other, eccentric rotor, which is reversed, to be pushed away, stator is by the reaction force of eccentric rotor, and generation pushes away
Power, it is characterised in that:Two sets of same central axis installings of electromagnetic balance head-on collision propeller, propulsion system and balance system are operated in
Two superconducting magnets are installed in vacuum area, propulsion system stator both sides, and eccentric rotor one end of propulsion system is installed on stator,
The other end installs superconducting magnet, and superconducting magnet is made up of superconducting coil and freezing liquid, is filled on propulsion system stator and eccentric rotor
If arrangements for speed regulation, balance system is made up of stator and Z-shaped rotor, and two superconducting magnets are respectively installed in balance system stator both sides, Z-shaped
Two ends of rotor installs superconducting magnet, and installs arrangements for speed regulation on balance system stator and Z-shaped rotor, during work, two sets of electromagnetism
Two eccentric rotor superconducting magnets of balance head-on collision propeller propulsion system reversely reach at a high speed propulsion system each other simultaneously respectively
The specified location of left and right sides stator superconducting magnet, is powered simultaneously, produces magnetic field, produces induced-current, due to Meisser effect,
Magnetic field interaction, drives two eccentric rotors to rotate backward each other, and power supply disconnects, by-pass switch conducting storage superconducting magnet electricity
Can, drive two eccentric rotor superconducting magnets reversely reciprocal each other between the working face of propulsion system stator superconducting magnet two respectively
Inertia motion, meanwhile, the superconducting magnet of two Z-shaped two ends of rotor installings of two sets of electromagnetic balance head-on collision propeller balance systems
Reversely reach the specified location of the stator superconducting magnet of balance system stator both sides at a high speed each other simultaneously respectively, be powered simultaneously, production
Magnetisation, produces induced-current, and due to Meisser effect, cryogenic magnetic field interaction drives Z-shaped rotor rotor to rotate, power supply
Disconnect, by-pass switch conducting storage superconducting magnet electric energy, the reversely reciprocal inertia motion each other of two Z-shaped rotors is driven respectively, is led to
The interaction of the deceleration speed governing for the arrangements for speed regulation for being installed in propulsion system and balance system is crossed, makes Z-shaped rotor counterweight and propulsion
The eccentric rotor of system, the centrifugal force of generation is cancelled out each other, and eccentric rotor, which is reversed, to be pushed away, anti-work of the stator by eccentric rotor
Firmly, thrust is produced, because the rotation direction of two Z-shaped rotors is on the contrary, turning moment is equal cancels out each other.
The propeller 2. electromagnetic balance according to claim 1 clashes, it is characterised in that two sets of electromagnetic balances head-on collision propellers
Same central axis(1)Installing.
The propeller 3. electromagnetic balance according to claim 2 clashes, it is characterised in that:The electromagnetic balance head-on collision propeller
Propulsion system and balance system are operated in region of no pressure.
The propeller 4. electromagnetic balance according to claim 3 clashes, its propulsion system is characterised by:The electromagnetic balance
Clash propeller propulsion system stator(32)Both sides difference one propulsion system stator superconducting magnet of each installing(22)、(17).
The propeller 5. electromagnetic balance according to claim 4 clashes, its propulsion system is characterised by:The electromagnetic balance
Clash propeller propulsion system stator(32)The superconducting magnet of both sides(22)、(17)Working face and central axis(1)Same
In individual plane.
6. electromagnetic balance head-on collision propeller according to claim 1 or 5, its propulsion system is characterised by:The electromagnetism
The eccentric rotor of balance head-on collision propeller propulsion system(28)Install eccentric rotor superconducting magnet in one end(2).
7. the electromagnetic balance head-on collision propeller according to claim 1 or 6, its balance system is characterised by:The balance
Stator (33) both sides difference 2 balance system stator superconducting magnets of each installing of system(14)、(25)With(24)、(15).
The propeller 8. electromagnetic balance according to claim 7 clashes, its balance system is characterised by:The balance system
Stator superconducting magnet(14)、(25)With(24)、(15), working face and central axis(1)In approximately the same plane.
The propeller 9. electromagnetic balance according to claim 8 clashes, its balance system is characterised by:Z-shaped rotor(31)
Z-shaped rotor superconducting magnet is installed respectively in two ends(4)、(3).
10. the electromagnetic balance head-on collision propeller balance system according to claim 1 or 9, it is characterised in that;The electromagnetism is put down
The stator of weighing apparatus head-on collision propeller balance system(33))With Z-shaped rotor(31)Install arrangements for speed regulation(11).
11. the electromagnetic balance head-on collision propeller according to claim 6 or 10, its propulsion system is characterised by;The electricity
Magnetic balance head-on collision propeller propulsion system stator(32)And eccentric rotor(28)Install arrangements for speed regulation(10).
12. the electromagnetic balance head-on collision propeller according to claim 1 or 11, its control system is characterised by:Superconducting magnetic
Body loop installs energy storage device.
13. the electromagnetic balance head-on collision propeller according to claim 2 or 12, it is characterised in that:The electromagnetic balance head-on collision
The eccentric rotor of two sets of propulsion systems of propeller(28)、(29), run simultaneously, the direction of motion is opposite.
The propeller 14. electromagnetic balance according to claim 13 clashes, it is characterised in that:Two sets of electromagnetic balance head-on collisions are promoted
Device drives Z-shaped rotor respectively(31)、(30)The turning moment of motion generation is equal to cancel out each other.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610161305.XA CN107222085A (en) | 2016-03-22 | 2016-03-22 | Electromagnetic balance head-on collision propeller |
Applications Claiming Priority (1)
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CN201610161305.XA CN107222085A (en) | 2016-03-22 | 2016-03-22 | Electromagnetic balance head-on collision propeller |
Publications (1)
Publication Number | Publication Date |
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CN107222085A true CN107222085A (en) | 2017-09-29 |
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ID=59927757
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CN201610161305.XA Pending CN107222085A (en) | 2016-03-22 | 2016-03-22 | Electromagnetic balance head-on collision propeller |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2021051717A3 (en) * | 2019-08-20 | 2021-07-01 | 李平林 | Highly efficient high-power drive mechanism |
CN113783394A (en) * | 2021-09-17 | 2021-12-10 | 王安康 | Hidden reaction force power device |
-
2016
- 2016-03-22 CN CN201610161305.XA patent/CN107222085A/en active Pending
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2021051717A3 (en) * | 2019-08-20 | 2021-07-01 | 李平林 | Highly efficient high-power drive mechanism |
CN113783394A (en) * | 2021-09-17 | 2021-12-10 | 王安康 | Hidden reaction force power device |
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