Summary of the invention
In consideration of it, the purpose of the present invention is to provide a kind of electromagnetic conductive devices, to effectively improve the above problem.
The embodiment of the present invention is achieved in that
The embodiment of the invention provides a kind of electromagnetic conductive devices, including the first magnet, the second magnet, first line of magnetic induction
Circle, the second magnetic induction coil, the first rotating wheel, the second rotating wheel, flywheel, driving wheel and the fixation for being used to support the driving wheel
Frame.One end of the driving wheel is provided with first magnet, and the other end of the driving wheel is provided with second magnet, institute
It states the first rotating wheel and is provided with the first magnetic induction coil, second rotating wheel is provided with the second magnetic induction coil, the transmission
One end of wheel and first rotating wheel are provided with being oppositely arranged on one side for first magnetic induction coil, the driving wheel it is another
One end and second rotating wheel are provided with being oppositely arranged on one side for second magnetic induction coil, the driving wheel respectively with institute
It states fixed frame to connect with the flywheel, the driving wheel drives the flywheel turns.
In preferred embodiments of the present invention, the driving wheel includes the first rotor, shaft and the second rotor, the shaft
One end coupled with the first rotor, the other end of the shaft is coupled with second rotor, the first rotor setting
There is first magnet, second rotor is provided with second magnet, and the first rotor is provided with first magnet
Face first rotating wheel is provided with being oppositely arranged on one side for first magnetic induction coil, second rotor is provided with
The face of second magnet and second rotating wheel are provided with being oppositely arranged on one side for second magnetic induction coil, and described turn
Axis is connect with the fixed frame and the flywheel respectively.
In preferred embodiments of the present invention, offered on the flywheel with shaft diameter through-hole of the same size,
The shaft passes through the through-hole opened up on the flywheel, and the rotation of the shaft drives the flywheel turns.
In preferred embodiments of the present invention, the fixed frame includes fixing end and foot prop, the fixing end and the foot
Frame connection, the fixing end are connect with the shaft.
It further include the shell of sealing, first magnet, second magnet, institute in preferred embodiments of the present invention
It states driving wheel, the flywheel and the fixed frame to be all set in the shell, the foot prop is connect with the inner wall of the shell.
In preferred embodiments of the present invention, the inner vacuum of the shell.
In preferred embodiments of the present invention, the shell and the flywheel are made of non-magnetic metal material.
In preferred embodiments of the present invention, the first rotor, first rotating wheel, second rotating wheel and institute
Stating bitrochanteric positive sectional view is round or regular polygon.
In preferred embodiments of the present invention, first magnet, second magnet, first magnetic induction coil and
The quantity of second magnetic induction coil is multiple.
In preferred embodiments of the present invention, the gap settings such as multiple described first magnets are more on the first rotor
The gap settings such as a second magnet are on second rotor, and the gap settings such as multiple described first magnetic induction coils are in institute
It states on the first rotating wheel, the gap settings such as multiple described second magnetic induction coils are on second rotating wheel.
The embodiment of the invention provides a kind of electromagnetic conductive devices, including the first magnet, the second magnet, first line of magnetic induction
Circle, the second magnetic induction coil, the first rotating wheel, the second rotating wheel, flywheel, driving wheel and the fixation for being used to support the driving wheel
Frame.High speed rotation when first rotating wheel powers on, the first magnetic induction coil being set on the first rotating wheel are produced because of energization
Magnetisation field, and first magnetic induction coil can be rotated with the first rotating wheel.It the magnetic field can be to first be set on driving wheel
Magnet generates attraction or repulsive force, so that driving wheel be made to rotate.The flywheel being set on driving wheel can follow driving wheel one
Rotation is played, which can increase the inertia when speed and rotation of driving wheel.It is such as every when driving wheel rotates to preset value
At minutes 800 turns, connect the power supply of the second rotating wheel, while breaking the electrical connection of the first rotating wheel, the first magnetic induction coil by
Magnetic field is just no longer generated after power-off.The second magnetic induction coil being set on second rotating wheel can generate magnetic field, the magnetic field
It can attract each other or repel with the second magnet being set on the driving wheel, to transfer energy to the second driving wheel, make
The rotation of second driving wheel.The fixed frame deviates initial position, generates displacement for limiting driving wheel when rotation.The electricity
Energy can be transmitted to the other end from one end of object by magnetic conduction device, at the same be also provided with energy-saving and environmental protection, it is efficient the advantages that.
Other features and advantages of the present invention will be illustrated in subsequent specification, also, partly be become from specification
It is clear that being understood by implementing the embodiment of the present invention.Objectives and other advantages of the present invention can be by written
Specifically noted structure is achieved and obtained in specification, claims and attached drawing.
Embodiment
In order to be able to achieve when rotating wheel is powered and rotates, driving wheel rotation is driven, and stop the feelings of power supply in rotating wheel
Under condition, driving wheel using itself inertia remain unchanged can the short time rotation lasts generate torque.The embodiment of the invention provides one
Kind electromagnetic conductive device 100, please refers to Fig. 1, Fig. 2 and Fig. 3, and wherein Fig. 1 is the structural schematic diagram of the electromagnetic conductive device 100,
Fig. 2 is the A-A cross-sectional view of the first embodiment of the electromagnetic conductive device 100, and Fig. 3 is the second of the electromagnetic conductive device 100
The A-A cross-sectional view of embodiment.The electromagnetic conductive device 100, including the first magnet 113, the second magnet 114, the first magnetic induction
It coil 111, the second magnetic induction coil 112, the first rotating wheel 110, the second rotating wheel 150, flywheel 130, driving wheel 120 and is used for
Support the fixed frame 140 of the driving wheel 120.One end of the driving wheel 120 is provided with first magnet 113, the biography
The other end of driving wheel 120 is provided with second magnet 114, and first rotating wheel 110 is provided with the first magnetic induction coil
111, second rotating wheel 150 is provided with the second magnetic induction coil 112, one end of the driving wheel 120 with described first turn
The face level that driving wheel 110 is provided with the first magnetic induction coil 111 is oppositely arranged, the other end of the driving wheel 120 and described the
The face level that two rotating wheels 150 are provided with the second magnetic induction coil 112 is oppositely arranged, the driving wheel 120 respectively with it is described solid
Determine frame 140 and the flywheel 130 connects, the driving wheel 120 drives the flywheel 130 to rotate.
The electromagnetic conductive device 100 further includes the shell 160 of sealing, and the leakproofness of the shell 160 is good, and its shell
160 inside is vacuum environment.First magnet 113, second magnet 114, the driving wheel 120, the flywheel 130
It is all set in the shell 160 with the fixed frame 140.Wherein the fixed frame 140 is connect with the inner sidewall of the shell 160.
The shape of the shell 160 can be rectangle, be also possible to cylinder, can also be multi-edge column-shaped or other
Other shapes.In the present embodiment, the shape of the preferably described shell 160 is rectangle.In order to avoid the energization of the first rotating wheel 110
The magnetic field generated afterwards is absorbed by the shell 160, to weaken the magnetic field.In the present embodiment, the shell 160 preferably by
Shell 160 made of non-magnetic material.The non-magnetic material can be copper (Cu), aluminium (Al) and other some metals or conjunction
Golden material is also possible to plastics or rubber material etc..In the present embodiment, the preferably described shell 160 is made of aluminum material.And
In order to be able to achieve first rotating wheel 110 in rotation, the driving wheel 120 can be driven to rotate, the shell 160 is set as
The shell 160 of thin-walled.
The shape of first rotating wheel 110 can be circle, be also possible to ellipse or other shape.In this implementation
In example, the shape of preferably described first rotating wheel 110 is octagon.The first magnetic induction being arranged on first rotating wheel 110
The quantity of coil 111 is multiple, and 111 gap arrangement of the first magnetic induction coil is on the first rotating wheel 110.Such as described
The quantity of one magnetic induction coil 111 be 4, the gap arrangements such as this 4 first magnetic induction coils 111 on the first rotating wheel 110,
Please refer to Fig. 4.
The shape of second rotating wheel 150 can be circle, be also possible to ellipse or other shape.In this implementation
In example, the shape of preferably described second rotating wheel 150 is octagon.The second magnetic induction being arranged on second rotating wheel 150
The quantity of coil 112 is multiple, and 112 gap arrangement of the second magnetic induction coil is on the second rotating wheel 150.Such as described
The quantity of two magnetic induction coils 112 be 4, the gap arrangements such as this 4 second magnetic induction coils 112 on the first rotating wheel 110,
Please refer to Fig. 4.
The driving wheel 120 includes the first rotor 121, shaft 122 and the second rotor 123.One end of the shaft 122 with
The first rotor 121 connects, and the other end of the shaft 122 is connect with second rotor 123.The first rotor 121
On be provided with first magnet 113, second magnet 114 is provided on second rotor 123.The shaft 122 is divided
It is not connect with the fixed frame 140 and the flywheel 130.
The shape of the first rotor 121 can be circle, be also possible to ellipse or other shape.In the present embodiment
In, preferably the shape of the first rotor 121 is octagon.The quantity for the first magnet 113 being arranged on the first rotor 121 is more
It is a, and 113 gap arrangement of the first magnet is on the first rotor 121.Such as the quantity of first magnet 113 is 4, this 4
The gap arrangements such as a first magnet 113 please refer to Fig. 5 on the first rotor 121.
The shape of second rotor 123 can be circle, be also possible to ellipse or other other shapes.In this reality
It applies in example, preferably the shape of the second rotor 123 is octagon.The quantity for the second magnet 114 being arranged on second rotor 123
To be multiple, and 114 gap arrangement of the second magnet is on the second rotor 123.Such as the quantity of second magnet 114 is 4,
The gap arrangements such as this 4 the second magnets 114 please refer to Fig. 5 on the second rotor 123.
The shape of the shaft 122 can be cylinder, be also possible to rectangle, can also be polygon prism type or other
Other shape.In the present embodiment, the shape of the preferably described shaft 122 is cylinder.One end of the shaft 122 and the first rotor
121 connections, the other end of the shaft 122 are connect with the second rotor 123.Its connection type can be, the first rotor 121 and second
It is respectively equipped with the groove for accommodating the shaft 122 on rotor 123, is also possible to shaft 122 and the first rotor 121 and the second rotor
123 are integrally formed.In the present embodiment, preferably the shaft 122 and the first rotor 121 and 123 one of the second rotor at
Type.
The flywheel 130 for increasing inertia of the driving wheel 120 in rotation is connected in the shaft 122.Its connection side
Formula can be, and offers on the flywheel 130 and passes through institute with the consistent through-hole of 122 diameter of shaft, the shaft 122
State the through-hole opened up on flywheel 130.It is also possible to the bearing and the flywheel 130 is integrally formed.In order to realize that shaft 122 exists
Flywheel 130 is driven to rotate during rotation, in the present embodiment, the preferably described bearing and the flywheel 130 are integrally formed.
The shaft 122 when rotated, drives the flywheel 130 to rotate, just in order to keep 122 stress of shaft equal
Even, in the present embodiment, the center of the shaft 122, the flywheel 130 and the shaft is arranged in the flywheel 130
122 coupling part is also the center of the flywheel 130, i.e., the described flywheel 130 is overlapped with the center of gravity of the shaft 122,
The center of gravity is just the junction of the two.In the present embodiment, the flywheel 130 is made of non-magnetic material.This is nonmagnetic material
Material can be copper (Cu), aluminium (Al) and other some metal or alloy materials, be also possible to plastics or rubber material etc..
In the present embodiment, the preferably described flywheel 130 is made of aluminum material.
Wherein, the inertia that the driving wheel 120 rotates is related with the size of flywheel 130 and weight, and the flywheel 130 is got over
Greatly, weight is heavier, and the speed that the driving wheel 120 rotates is faster, and inertia is bigger, after the power-off of the first rotating wheel 110,
The time that the driving wheel 120 is able to maintain rotation is also longer.
Wherein, first rotating wheel 110 is identical with the geomery of the first rotor 121, second rotating wheel
150 is identical with the geomery of second rotor 123.In this embodiment, preferably described first rotating wheel 110, described first
The geomery of rotor 121, second rotating wheel 150 and second rotor 123 is all the same.
Wherein, first rotating wheel 110 is provided with the one side and the first rotor 121 of the first magnetic induction coil 111
The one side level for being provided with the first magnet 113 is oppositely arranged, and second rotating wheel 150 is provided with the second magnetic induction coil 112
And second rotor 123 be provided with the while level of the second magnet 114 and be oppositely arranged.Specifically, described first turn
Driving wheel 110 is close to the lateral wall of the shell 160 and does not contact with the side wall, and the first rotor 121 is close to the shell 160
Inner sidewall and do not contacted with the side wall, the projection of first rotating wheel 110 and the first rotor 121 on shell 160
Overlapping.Second rotating wheel 150 is close to the lateral wall of the shell 160 and does not contact with the side wall, second rotor 123
By the shell 160 inner sidewall and do not contacted with the side wall, second rotating wheel 150 and second rotor 123 exist
Projection overlapping on shell 160.
Wherein first rotating wheel 110 after being powered up can quick rotation, be arranged on first rotating wheel 110
First magnetic induction coil 111 can be rotated with the rotation of the first rotating wheel 110 and rotation direction is identical, first line of magnetic induction
Because can generate magnetic field after energization, which can attract each other circle 111 with the first magnet 113 being arranged on the first rotor 121
Or repel, so that the first rotor 121 be driven to rotate.Specifically, if the magnetic field be arranged on the first rotor 121 first
Magnet 113 attracts each other, and the first rotor 121 is driven to rotate.So described first rotating wheel 110 and the first rotor 121
Direction of rotation it is identical.When i.e. the first rotating wheel 110 rotates clockwise, the first rotor 121 is also rotated clockwise;First rotating wheel
When 110 rotation counterclockwise, the also rotation counterclockwise of the first rotor 121.If the magnetic field be arranged on the first rotor 121 first
Magnet 113 is mutually exclusive, and the first rotor 121 is driven to rotate.So described first rotating wheel 110 and the first rotor 121
Direction of rotation it is opposite.When i.e. the first rotating wheel 110 rotates clockwise, the just rotation counterclockwise of the first rotor 121;First rotating wheel
When 110 rotation counterclockwise, the change of the first rotor 121 is rotated clockwise.
Since the first rotor 121 is connect with second rotor 123 by the bearing, the first rotor
When 121 rotation, the bearing and second rotor 123 can be rotated with the rotation of the first rotor 121, and rotation direction with
The rotation direction of the first rotor 121 is identical.The second magnet 114 being arranged on the second rotor 123 can be with the second rotor 123
Rotation and rotate and rotation direction it is identical.
Wherein after being powered up, the second magnetic induction on second rotating wheel 150 is arranged in second rotating wheel 150
Coil 112 can generate magnetic field, which can attract each other or repel with the second magnet 114 being arranged on the second rotor 123,
To drive the rotation of the second rotating wheel 150.Specifically, if the magnetic field and the first magnet 113 being arranged on the first rotor 121
It attracts each other, and drives the rotation of the second rotating wheel 150.The rotation of so described second rotating wheel 150 and second rotor 123
Direction is identical.When i.e. the second rotating wheel 150 rotates clockwise, the second rotor 123 is also rotated clockwise;Second rotating wheel 150 is inverse
When hour hands rotate, the also rotation counterclockwise of the second rotor 123.If the magnetic field and the second magnet being arranged on the second rotor 123
114 is mutually exclusive, and drives the rotation of the second rotor 123.The rotation of so described second rotating wheel 150 and second rotor 123
Turn contrary.When i.e. the second rotating wheel 150 rotates clockwise, the just rotation counterclockwise of the second rotor 123;Second rotating wheel 150
Counterclockwise when rotation, the change of the second rotor 123 is rotated clockwise.
The flywheel 130 for increasing inertia of the driving wheel 120 in rotation is connected in the shaft 122.Its connection side
Formula can be, and offers on the flywheel 130 and passes through institute with the consistent through-hole of 122 diameter of shaft, the shaft 122
State the through-hole opened up on flywheel 130.It is also possible to the bearing and the flywheel 130 is integrally formed.In order to realize that shaft 122 exists
Flywheel 130 is driven to rotate during rotation, in the present embodiment, the preferably described bearing and the flywheel 130 are integrally formed.
The shaft 122 when rotated, drives the flywheel 130 to rotate, just in order to keep 122 stress of shaft equal
Even, in the present embodiment, the center of the shaft 122, the flywheel 130 and the shaft is arranged in the flywheel 130
122 coupling part is also the center of the flywheel 130, i.e., the described flywheel 130 is overlapped with the center of gravity of the shaft 122,
The center of gravity is just the junction of the two.
Wherein, the inertia that the driving wheel 120 rotates is related with the size of flywheel 130 and weight, and the flywheel 130 is got over
Greatly, weight is heavier, and the speed that the driving wheel 120 rotates is faster, and inertia is bigger, after the power-off of the first rotating wheel 110,
The time that the driving wheel 120 is able to maintain rotation is also longer.In the present embodiment, the flywheel 130 is made of non-magnetic material.
The non-magnetic material can be copper (Cu), aluminium (Al) and other some metal or alloy materials, be also possible to plastics or
Rubber material etc..In the present embodiment, the preferably described flywheel 130 is made of aluminum material.
In order to avoid the driving wheel 120 is in rotation, deviate initial position, leads to not the function for realizing electromagnetic conductive
Can, the fixed frame 140 for limiting its displacement is also connected on the bearing of the driving wheel 120.
The fixed frame 140 includes fixing end 142 and foot prop 141, and the fixing end 142 is connect with the foot prop 141.Institute
It states fixing end 142 to connect with the shaft 122, the foot prop 141 is connect with the shell 160, is used to support the fixing end
142。
The connection type of fixing end 142 and the shaft 122, can be provided in the fixing end 142 one to
The groove of the shaft 122 is accommodated, the shaft 122 is placed in the groove.Such as the groove is the groove of one " U-shaped ".Gu
The connection type of fixed end 142 and the shaft 122, it is also possible that a bearing is provided in the fixing end 142, described turn
Axis 122 passes through the through-hole of the bearing.Wherein, which can be ball bearing, be also possible to oiliness bearing, can also be magnetic
Suspension bearing or other other bearings.
The foot prop 141 can also have 2 brackets or more than two brackets with only one bracket.Work as fixation
When the foot prop 141 of frame 140 is made of two brackets, one end of the bracket is connect with fixing end 142, and the other end and shell 160 connect
It connects, and places vertically.Wherein when the foot prop 141 of fixed frame 140 is made of two brackets, which is first
Frame and second support.One end of first support is connect with fixing end 142, and the other end of first support is connect with shell 160;Second
One end of bracket is connect with fixing end 142, and the other end of second support is connect with shell 160.Wherein first support with second
Relationship at an acute angle is arranged in fixing end 142 between frame.
Flywheel 130 is in rotary course in order to prevent, make any one end of driving wheel 120 deviate the first rotating wheel 110 or
The second rotating wheel of person 150, the quantity at least two of the fixed frame 140, i.e., close to the first rotor 121 and close to second turn
The fixed frame 140 for limit rotary shaft 122 is each provided in the shaft 122 in the place of son 123.In the present embodiment, institute
Stating fixed frame 140 is two, respectively the first fixed frame 140 and the second fixed frame 140.In this embodiment, preferably first is fixed
142 the second rotor of distance of fixing end of distance of the fixing end 142 of frame 140 apart from the first rotor 121 and the second fixed frame 140
123 are equidistant.
In the present embodiment, it shows the limitation of fixed frame 140 shaft 122 and deviate two kinds of sides occurs in position when rotated
Formula.Wherein the first implementation, please refers to Fig. 2.In this implementation, fixed frame 140 is two, is separately positioned on nearly the
In the shaft 122 in the place of one rotor 121 and close second rotor 123, the framework of two fixed frames 140 is identical.
The fixing end 142 of fixed frame 140 is provided with a ball bearing, and shaft 122 passes through the through-hole of the ball bearing, from
And limit its displacement.Wherein the foot prop 141 of fixed frame 140 be only one bracket foot prop 141, one end of the foot prop 141 with
Fixing end 142 connects, and the other end is connect with shell 160, and is placed vertically.
Fixed frame 140 limits shaft 122 and second of the implementation deviated occurs in position when rotated, please refers to Fig. 3.?
In the implementation, fixed frame 140 is two, is separately positioned on nearly the first rotor 121 and close to the place of the second rotor 123
In shaft 122, the framework of two fixed frames 140 is identical.The fixing end 142 of fixed frame 140 is provided with the groove of one " U-shaped ",
Shaft 122 is placed in the groove, to limit its displacement.Wherein the foot prop 141 of fixed frame 140 is made of two brackets, respectively
For first support and second support.One end of first support is connect with fixing end 142, the other end and shell 160 of first support
Connection;One end of second support is connect with fixing end 142, and the other end of second support is connect with shell 160.Wherein first support
Relationship at an acute angle is arranged in fixing end 142 between second support.
It should be understood that fixed frame 140 limit the implementation that deviating occurs in position when rotated of shaft 122 have it is more
Kind, light be change the planform of fixed frame 140 can be there are many mode, for example, being provided with the fixing end of " U-shaped " groove
142 and a bracket the fixed frame 140 that constitutes of foot prop 141, or be provided with the fixing end 142 of bearing and the foot of two brackets
The fixed frame 140 etc. that frame 141 is constituted.In order to avoid burden, no longer illustrate one by one herein.
In conclusion the device is mainly by being provided with first line of magnetic induction the present invention provides a kind of electromagnetic conductive device
First rotating wheel of circle, is located at the intracorporal driving wheel of vacuum shell and transmission at the second rotating wheel for being provided with the second magnetic induction coil
It takes turns the flywheel of connection and the fixed frame for fixed conveyor wheel is constituted.One end of driving wheel is opposite with the first rotating wheel level to be set
It sets, the other end of driving wheel is oppositely arranged with the second rotating wheel level.High speed rotation after first rotating wheel is powered, while the first magnetic
Induction coil generates magnetic field after being powered, which rotates with the rotation of the first rotating wheel.The magnetic field can be with
Magnet on driving wheel attracts each other or repels, so that driving wheel be driven to rotate, while driving wheel rotates, will drive therewith
The flywheel being connected rotates together.Since the inertia that the rotation of flywheel can make the speed of driving wheel accelerate and rotate increases
Greatly, after the first rotating wheel powers off, the time that the driving wheel is able to maintain rotation is also longer.When the speed of driving wheel reaches
When preset value, for example, it is 800 turns per minute when, break the first rotating wheel electrical connection, while open the second rotating wheel electrical connection,
At the same time, magnetic field can be generated after being powered due to the second magnetic induction coil, the magnet on the magnetic field and driving wheel attract each other or
Person repels, to drive the rotation of the second rotating wheel.After the power-off of the first rotating wheel, first time magnetic induction coil no longer generates magnetic
, the first rotating wheel just no longer drives driving wheel rotation, no longer provides energy for driving wheel.At this point, driving wheel by inertia after
Continuous rotation, and the rotation of the second rotating wheel is driven, transfer energy to the second rotating wheel.The driving wheel can be by the inertia short time
It persistently rotates the second rotating wheel, energy is provided, to achieve the purpose that energy conservation, efficient, environmental protection.
The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field
For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair
Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.