CN109041588A - Disturb magnetic generator and electricity-generating method - Google Patents
Disturb magnetic generator and electricity-generating method Download PDFInfo
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- CN109041588A CN109041588A CN201880000383.9A CN201880000383A CN109041588A CN 109041588 A CN109041588 A CN 109041588A CN 201880000383 A CN201880000383 A CN 201880000383A CN 109041588 A CN109041588 A CN 109041588A
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- magnetic
- pole
- magnetic pole
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- generator
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K21/00—Synchronous motors having permanent magnets; Synchronous generators having permanent magnets
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K21/00—Synchronous motors having permanent magnets; Synchronous generators having permanent magnets
- H02K21/02—Details
- H02K21/021—Means for mechanical adjustment of the excitation flux
- H02K21/022—Means for mechanical adjustment of the excitation flux by modifying the relative position between field and armature, e.g. between rotor and stator
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Permanent Magnet Type Synchronous Machine (AREA)
Abstract
The present invention provides one and disturbs magnetic generator and electricity-generating method, wherein the magnetic generator of disturbing includes a magnet assembly, one magnetic core and at least a coil, wherein the magnet assembly includes an at least permanent magnet, magnetic field environment is provided to disturb magnetic generator for described in by the permanent magnet, wherein the magnetic core is arranged to prepare using permeability magnetic material and including both ends, wherein at least one end of the magnetic core and the magnet assembly are mutually close, to form an at least magnetic gap between the end mutually close in the magnet assembly and therewith, wherein the coil is located on the magnetic core, when being changed in this way with the variation of the magnetic gap described in the magnetic responsiveness in the magnetic gap, the magnetic core is able to respond the variation in the magnetic field in the magnetic gap and the magnetic flux of the magnetic core is changed, to be produced electricl energy in the coil.
Description
Technical field
The present invention relates to electrical generator fields, are in more detail related to disturbing magnetic generator and electricity-generating method, by institute
The disturbance for disturbing the magnetic field of magnetic generator is stated, so that the magnetic generator of disturbing produces electricl energy.
Background technique
The electricity generating principle of current generator mainly utilizes electromagnetic induction phenomenon, by changing a coil in a magnetic field
Magnetic flux and induced electromotive force is generated in the coil, and generate induced electromotive force size then with the number of turns of the coil with
And the change rate of the magnetic flux across the coil is directly proportional, wherein it is understood that the variation of the magnetic flux of the coil is main
The movement of variation and the coil relative to the magnetic field depending on the magnetic field, therefore, to obtain higher induced electromotive force, for
For the parameter designing of generator itself, should have stronger magnetic field environment and more coil turn.In this way, current
Using permanent magnet provide magnetic field environment generator structure design in, the volume of the coil of generator and the body of permanent magnet
Product should have biggish generator volume accounting.
However, the relative motion that current generator multi-pass is crossed between coil and permanent magnet realizes the coil in the permanent magnet
The variation of magnetic flux in provided magnetic field, the mechanical energy of the relative motion between the coil and the permanent magnet is converted to
Therefore electric energy is often reserved in the structure design of current generator for the opposite fortune between the coil and the permanent magnet
Dynamic space, and as previously mentioned, using permanent magnet provide magnetic field environment generator structure design in, the coil of generator
Volume and the volume of permanent magnet there is biggish generator volume accounting, so then current generator be the coil with
The space that relative motion between the permanent magnet is reserved equally has biggish generator volume accounting, that is to say, that at present
The structure design of generator there is biggish limitation to the ratio of the generating efficiency of generator and its volume, cause current hair
The generating efficiency of motor is difficult to be further improved with the ratio of its volume, is so then difficult in the body for reducing current generator
Its generating efficiency is improved while product.
In addition, the working method of current generator is single, mainly pass through opposite turn between the coil and the permanent magnet
Motion mode that is dynamic or doing relatively reciprocating motion converts mechanical energy into electric energy, and uses the generator of the motion mode rotated and adopt
Structural difference with the generator of the motion mode of reciprocating motion is huge, i.e., the structural compatibility of current generator is poor, simultaneously
Electric energy cannot be converted mechanical energy into while multi-motion mode is compatible with simultaneously, therefore when the mechanical energy for being used to be utilized by generator
When the working method of corresponding motion mode and generator mismatches, additional mechanical structure is generally required by the mechanical energy institute
The corresponding motion mode is converted to the motion mode being consistent with the working method of generator, so on the one hand will increase generator
Cost and work when shared volume, on the other hand also the mechanical energy can be caused to damage in the conversion process of motion mode
Consumption, to reduce the generating efficiency of generator.In addition, the poor structural compatibility of current generator also limits generator
Application, it is such as corresponding using generator as generating with when actuation motion detection tool, being merely able to respond corresponding actuation movement
Electric signal, and the detection of a variety of actuations movement cannot be compatible with.I.e. in different application scenarios, the structure of generator designs difference
It is larger, thus increase current generator and design and manufacture cost caused by different application scene.
In summary, the structure design of current generator is difficult to combine the miniaturization of volume and higher power generation effect
Rate, and the structural compatibility of current generator is poor, so that its working method is single, thus with can not being compatible with multi-motion mode
Electric energy is converted mechanical energy into, or response a variety of actuation movements ground generates corresponding electric signal, so that current generator
Application range be restricted.
Summary of the invention
A purpose of the present invention is that providing one disturbs magnetic generator and electricity-generating method, wherein the magnetic generator of disturbing includes extremely
The magnetism that a few coil, and using different medium to the responsive state in magnetic field, i.e. different medium are showed, so that described disturb magnetic
The magnetic field of generator can in response to different medium change, so that the magnetic flux of the coil changes, into
And the magnetic flux for making the coil be able to respond the coil alternatively produces electricl energy.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein described disturb magnetic generator into one
Step includes a magnetic core, wherein the coil loop is placed on the magnetic core, to amplify the line to the response in magnetic field by the magnetic core
The variable quantity of the magnetic flux of circle, and then the generating efficiency of magnetic generator is disturbed described in raising.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein described disturb magnetic generator into one
Step includes a magnet assembly, provides magnetic field environment to disturb magnetic generator for described in by the magnet assembly, thus using different
Medium to the responsive state in magnetic field change the coil magnetic flux produced electricl energy in the coil.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein described disturb magnetic generator into one
Step has a magnetic gap, wherein the magnetic gap is formed between the magnetic core and the magnet assembly, by the magnetic gap
The variation of medium changes the magnetic field of the magnetic gap, thus the alternatively increase by the magnetic core to the response amplification magnetic field in magnetic field
The variable quantity of the magnetic flux of the coil, and then the generating efficiency of magnetic generator is disturbed described in raising.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein described disturb magnetic generator into one
Step includes an at least magnetic medium, with the moving so that the medium in the magnetic gap becomes in the magnetic gap by the magnetic medium
Change, to change the magnetic field of the magnetic gap, and then change the coil magnetic flux the coil is able to respond in institute
State alternatively producing electricl energy for the magnetic flux of coil.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein by the magnetic medium in institute
The movement for stating magnetic gap changes the magnetic flux of the coil and the coil may make to be able to respond the magnetic flux in the coil
It alternatively produces electricl energy, so as to reduce the volume for disturbing magnetic generator with maintaining the coil stationary.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein only by the magnetic medium in
The magnetic flux of coil magnetic field environment provided by the magnet assembly can be changed in the movement of the magnetic gap, so as to
Maintain the coil and the magnet assembly still reduce described in disturb the volume of magnetic generator.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein only by the magnetic medium in
The magnetic flux of coil magnetic field environment provided by the magnet assembly can be changed in the movement of the magnetic gap, thus favorably
The coil of magnetic generator and the volume accounting of the magnet assembly are disturbed described in the raising, and then disturb magnetic generator described in improving
Generating efficiency.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein by the magnetic medium in institute
The movement for stating magnetic gap changes the magnetic flux of the coil and the coil may make to be able to respond the magnetic flux in the coil
Alternatively produce electricl energy, so as to reduce the requirement of the anti-fatigue performance to the coil with maintaining the coil stationary, into
And the stability of magnetic generator is disturbed described in enhancing.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein the magnetic medium is in the magnetic
The movement of gap has multi-motion mode, so that the magnetic generator of disturbing is able to respond mechanical energy in multi-motion mode
Be converted to electric energy.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein it is described disturb magnetic generator can
Electric energy is converted mechanical energy into response to multi-motion mode, to disturb the applicability of magnetic generator described in enhancing.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein it is described disturb magnetic generator can
Electric energy is converted mechanical energy into response to multi-motion mode, is changed into specific movement to avoid by different motion modes
The loss of mechanical energy caused by mode, and then the generating efficiency of magnetic generator is disturbed described in raising.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein it is described disturb magnetic generator can
Electric energy is converted mechanical energy into response to multi-motion mode, so that the magnetic generator of disturbing can be used for detection difference
Actuation movement ground generate corresponding electric signal.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein the magnetic medium is in the magnetic
The specific motion mode of gap enables to the direction of the magnetic induction line by the coil reversed, to increase the magnetic of the coil
The variable quantity of flux, and then the generating efficiency of magnetic generator is disturbed described in raising.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein the magnet assembly is further
Including a magnetic conduction subassembly, to change magnetic field environment provided by the magnet assembly by the magnetic conduction subassembly, so that institute
It states specific motion mode of the magnetic field environment for disturbing magnetic generator with the magnetic medium in the magnetic gap to match, and then passes through institute
It states magnetic medium and makes the direction of the magnetic induction line by the coil reversed in the specific motion mode of the magnetic gap.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein the magnetic core includes both ends
Portion, wherein the magnetic gap is formed between the magnet assembly and the end of the magnetic core, so that the magnetic core is interior
Portion magnetic field can correspond directly to the specific motion mode of the magnetic medium in the magnetic gap corresponding to the end and
Inverse change occurs, and then when the magnetic core is arranged to U-shaped structure, it equally can be by the magnetic medium in the magnetic gap
Specific motion mode make the internal magnetic field of the magnetic core that inverse change occur, so with can increase be arranged at it is described
Improve to the number of turns of the coil of magnetic core the generating efficiency for disturbing magnetic generator.
Another object of the present invention is to provide one to disturb magnetic generator and electricity-generating method, wherein the magnetic medium is in the magnetic
The specific motion mode of gap makes the magnetic medium will not be with the magnetic core and the magnet assembly when magnetic gap moves
It collides, to disturb the operating noise of magnetic generator described in reducing.
To reach the above at least purpose, the present invention provides one and disturbs magnetic generator, disturbs magnetic generator wherein described and includes:
An at least magnet assembly, wherein the magnet assembly includes an at least permanent magnet, to pass through the permanent magnet as institute
It states and magnetic generator offer magnetic field environment is provided;
An at least magnetic core, wherein the magnetic core is arranged to using permeability magnetic material preparation and including both ends, wherein described
At least one end of magnetic core and the magnet assembly are mutually close, in the end of the magnet assembly and the magnetic core
Between form an at least magnetic gap;And
An at least coil, wherein the coil is located on the magnetic core, in this way when the magnetic responsiveness in the magnetic gap
The variation of medium in the magnetic gap and when changing, the magnetic core in response to the magnetic field in the magnetic gap variation and make
The magnetic flux of the coil is changed, to produce electricl energy in the coil.
In one embodiment, the magnetic generator of disturbing further comprises an at least magnetic medium, wherein the magnetic medium is set
It is set to and is prepared using permeability magnetic material, to form the medium in the magnetic gap in the movement in the magnetic gap by the magnetic medium
Variation.
In one embodiment, the magnetic core is maintained static state for the magnetic medium, is disturbed with increasing the coil in described
The volume accounting of magnetic generator, to disturb the generating efficiency of magnetic generator described in improving.
In one embodiment, the magnet assembly is maintained static state for the magnetic medium, with increase the permanent magnet in
The volume accounting for disturbing magnetic generator, to disturb the generating efficiency of magnetic generator described in improving.
In one embodiment, the magnet assembly has at least one first magnetic pole and at least one second magnetic pole, wherein
At least one of described end of the two of the magnetic core is mutually close with first magnetic pole and second magnetic pole respectively, with
Institute is respectively formed between the end and first magnetic pole and between the end and second magnetic pole
State magnetic gap.
In one embodiment, the magnetic medium is configured in the magnetic gap in close to connect first magnetic pole
The position of end and the end and close to being switched with connecting between second magnetic pole and the position of the end, by institute
Magnetic medium is stated in the position close to the end and first magnetic pole and close to the end and second magnetic pole
Switching between position changes the magnetic flux of the coil, and then produces electricl energy in the coil.
In one embodiment, the magnet assembly has two first magnetic poles and two second magnetic poles, described
The end of the two of magnetic core, i.e. a first end and a second end, wherein the first end section not with first magnetic pole
One in end and one in second magnetic pole it is mutually close, the second end is respectively and in first magnetic pole
Another and second magnetic pole in another is mutually close.
In one embodiment, the magnetic medium quantity is two, i.e. one first magnetic medium and one second magnetic medium, wherein institute
State the first magnetic medium and second magnetic medium be set with when first magnetic medium close to the first end and with it is described
When mutually close first magnetic pole of first end, second magnetic medium is synchronized close to the second end and with described the
Mutually close second magnetic pole in two ends, and when first magnetic medium close to the first end and with the first end
When mutually close second magnetic pole in portion, second magnetic medium synchronize close to the second end and with the second end
Mutually close first magnetic pole, with moving synchronously to be formed and pass through by first magnetic medium and second magnetic medium
The inverse change of the magnetic induction line of the coil, and then produced electricl energy in the coil.
In one embodiment, the magnetic core is arranged to U-shaped structure, wherein the two end difference of the magnetic core
Corresponding to the both ends of U-shaped, it is suitable for extending the length of the magnetic core by U-shaped structure, and then is conducive to increase and is arranged at institute
Improve the generating efficiency for disturbing magnetic generator with stating the number of turns of the coil of magnetic core.
In one embodiment, the two of the magnetic core end, i.e. a first end and a second end, wherein described
One end corresponds to first magnetic pole, and the second end corresponds to second magnetic pole, so in described first
Between end and first magnetic pole, the magnetic gap is respectively formed between the second end and second magnetic pole.
In one embodiment, the magnetic medium is configured to close to connect the first end and first magnetic
Terrifically increase the magnetic flux of the coil, and reduces the coil far from the first end and first magnetic pole
Magnetic flux to change the magnetic flux of the coil by the movement of the magnetic medium, and then is produced electricl energy in the coil.
In one embodiment, the magnetic medium is configured to close to connect the second end and second magnetic
Terrifically increase the magnetic flux of the coil, and reduces the coil far from the second end and second magnetic pole
Magnetic flux to change the magnetic flux of the coil by the movement of the magnetic medium, and then is produced electricl energy in the coil.
In one embodiment, the magnetic medium is set with can be in close to connect the first end and described first
The position of magnetic pole and close to being switched with connecting between the second end and the position of second magnetic pole, thus by institute
Magnetic medium is stated in the position close to the first end and first magnetic pole and close to the second end and described second
Switching between the position of magnetic pole changes the magnetic flux of the coil, and then produces electricl energy in the coil.
In one embodiment, the magnetic generator of disturbing further comprises a drive rod, wherein the drive rod has a master
Moved end and a Partner opposite with the drive end, wherein the drive rod is set to stir described in the drive rod
Drive to drive end the Partner in the position close to the first end and first magnetic pole and close to described second
Switch between end and the position of second magnetic pole, in this way with when the magnetic medium is arranged at the Partner, institute
Magnetic medium is stated in the magnetic gap in the position close to the first end and first magnetic pole and close to the second end
Switching between portion and the position of second magnetic pole is controlled by the drive rod, with stirring the drive rod in the line
Circle produces electricl energy.
In one embodiment, the magnetic medium be set by can by rotation in a manner of in close to the first end and
Switch between the position of first magnetic pole and the close the second end and the position of second magnetic pole, by institute
The coil that rotates in for stating magnetic medium produces electricl energy.
In one embodiment, the magnet assembly has two first magnetic poles and between two first magnetic pole
One second magnetic pole, the end of the two of the magnetic core, i.e. a first end and a second end, wherein the first end pair
One in second magnetic pole and two first magnetic poles is answered, the second end corresponds to second magnetic pole and two
Another in first magnetic pole, be such that the first end respectively with first magnetic pole and described second
Form the magnetic gap between magnetic pole, the second end shape between first magnetic pole and second magnetic pole respectively
At the magnetic gap.
In one embodiment, the magnetic medium is configured in close to connect the first end and described first
The position of magnetic pole, and close to being switched with connecting between the first end and the position of second magnetic pole, by institute
Magnetic medium is stated in the position close to the first end and first magnetic pole and close to the first end and described second
Switching between the position of magnetic pole forms the inverse change of the magnetic induction line by the coil, and then generates in the coil
Electric energy.
In one embodiment, the magnetic medium is configured in close to connect the second end and described first
The position of magnetic pole, and close to being switched with connecting between the second end and the position of second magnetic pole, by institute
Magnetic medium is stated in the position close to the second end and first magnetic pole and close to the second end and described second
Switching between the position of magnetic pole generates electricity in the coil with forming the inverse change of the magnetic induction line by the coil
Energy.
In one embodiment, the magnetic generator of disturbing includes two magnetic mediums, i.e. one first magnetic medium and one second magnetic
Medium, wherein first magnetic medium and second magnetic medium are set when first magnetic medium is close to the first end
When portion and the first magnetic pole, second magnetic medium is synchronized close to the second end and second magnetic pole, and when described
When first magnetic medium is close to the first end and second magnetic pole, second magnetic medium is synchronized close to the second end
Portion and first magnetic pole, to be formed by first magnetic medium and the moving synchronously for the second magnetic medium by described
The inverse change of the magnetic induction line of coil, and then produced electricl energy in the coil.
In one embodiment, the magnetic generator of disturbing further comprises a connecting rod, wherein first magnetic medium and described
Second magnetic medium is arranged at the both ends of the connecting rod respectively, with by the connecting rod to first magnetic medium and described second
The connection of magnetic medium enables first magnetic medium and second magnetic medium mutually drivingly to be moved synchronously.
In one embodiment, the magnetic generator of disturbing further comprises a reset element, wherein the reset element is set
The original state to maintain first magnetic medium and second magnetic medium is set, wherein under the original state, it is described
First magnetic medium is maintained at close to the position of the first end and first magnetic pole, and second magnetic medium is maintained
In the position close to the second end and second magnetic pole, so with when first magnetic medium be driven to by external force it is close
The position of the first end and second magnetic pole, and second magnetic medium is synchronized to be driven to close to the second end
When with the position of first magnetic pole, the reset element can reset first magnetic medium and described after external force releasing
Second magnetic medium is to the original state.
In one embodiment, the magnetic generator of disturbing further comprises a drive rod, wherein the drive rod has a master
Moved end and a Partner opposite with the drive end, wherein the drive rod is set to stir described in the drive rod
The Partner is driven to drive end to swing between the first end and the second end, wherein the connecting rod is pivotable
Ground is arranged at the Partner of the drive rod, with stirring by the driving end of the drive rod, described in driving
First magnetic medium and second magnetic medium move synchronously.
In one embodiment, first magnetic medium and second magnetic medium are set when first magnetic medium leans on
When the nearly first end and the first magnetic pole, second magnetic medium is synchronized close to the second end and second magnetic pole
End, and when first magnetic medium is close to the second end and first magnetic pole, second magnetic medium, which synchronizes, to be leaned on
The nearly first end and second magnetic pole, with moving synchronously by first magnetic medium and second magnetic medium
The inverse change of the magnetic induction line by the coil is formed, and then is produced electricl energy in the coil.
In one embodiment, first magnetic medium is set synchronous in a manner of rotating with one heart with second magnetic medium
Movement, so that first magnetic medium can rotationally in the position close to the first end and the first magnetic pole and be leaned on
Switch between the nearly the second end and the position of first magnetic pole, and second magnetic medium is synchronously in close to described
It is cut between the second end and the position and the close first end and the position of second magnetic pole of second magnetic pole
It changes.
According to another aspect of the present invention, it also provides one and disturbs magnetic electricity-generating method, comprising the following steps:
(a) ring set there are at least one end and the magnet assembly of a magnetic core of an at least coil close to each other,
To form an at least magnetic gap between the end and the magnet assembly;With
(b) in at least magnetic medium of actuation in the magnetic gap, the medium in the magnetic gap is changed with the movement by the magnetic medium,
To change the magnetic field in the magnetic gap, and then change the magnetic flux of the coil to the response in the magnetic field in the magnetic gap by the magnetic core
Amount ground is produced electricl energy in the coil.
By the understanding to subsequent description and attached drawing, further aim of the present invention and advantage will be fully demonstrated.
Detailed description of the invention
Figure 1A and Figure 1B disturbs structural schematic diagram of the magnetic generator under different conditions for the one of an embodiment under this invention.
Fig. 2A and Fig. 2 B is one to disturb magnetic generator in different conditions according to a variant embodiment of the above embodiment of the present invention
Under structural schematic diagram.
Fig. 3 is the one of the variant embodiment further deformed of above-described embodiment under this invention to disturb the vertical of magnetic generator
Body structural schematic diagram.
Fig. 4 A and Fig. 4 B show to disturb structure of the magnetic generator under different conditions described in above-described embodiment under this invention
It is intended to.
Fig. 5 is the stereochemical structure signal for disturbing magnetic generator of a variant embodiment of above-described embodiment under this invention
Figure.
Fig. 6 is the operation principle schematic diagram for disturbing magnetic generator of above-described embodiment under this invention.
Fig. 7 is the structural schematic diagram further deformed for disturbing magnetic generator of above-described embodiment under this invention.
Fig. 8 A and Fig. 8 B show to disturb structure of the magnetic generator under different conditions described in another embodiment under this invention
It is intended to.
Fig. 9 A and Fig. 9 B are that the described of a variant embodiment of above-described embodiment under this invention disturbs magnetic generator in difference
Structural schematic diagram under state.
Figure 10 A and Figure 10 B disturb structure of the magnetic generator under different conditions for the one of another embodiment under this invention and show
It is intended to.
Figure 11 is the structural schematic diagram for disturbing magnetic generator of a variant embodiment of above-described embodiment under this invention.
Figure 12 is the structural schematic diagram for disturbing magnetic generator of a variant embodiment of above-described embodiment under this invention.
Figure 13 A and Figure 13 B disturb structure of the magnetic generator under different conditions for the one of another embodiment under this invention and show
It is intended to.
Figure 14 A and Figure 14 B are the one of a variant embodiment of above-described embodiment under this invention solid for disturbing magnetic generator
Structural schematic diagram.
Figure 15 A and Figure 15 B are that the described of above-described embodiment under this invention disturbs structure of the magnetic generator under different conditions
Schematic diagram.
Figure 16 is the step flow chart of an electricity-generating method of an embodiment under this invention.
Specific embodiment
It is described below for disclosing the present invention so that those skilled in the art can be realized the present invention.It is excellent in being described below
Embodiment is selected to be only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It defines in the following description
Basic principle of the invention can be applied to other embodiments, deformation scheme, improvement project, equivalent program and do not carry on the back
Other technologies scheme from the spirit and scope of the present invention.
It will be understood by those skilled in the art that in exposure of the invention, term " longitudinal direction ", " transverse direction ", "upper",
The orientation of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" or position are closed
System is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description of the present invention and simplification of the description, without referring to
Show or imply that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore above-mentioned art
Language is not considered as limiting the invention.
It is understood that term " one " is interpreted as " at least one " or " one or more ", i.e., in one embodiment,
The quantity of one element can be one, and in a further embodiment, the quantity of the element can be it is multiple, term " one " is no
It can be interpreted as the limitation to quantity.
With reference to shown in Figure 1A and Figure 1B of Figure of description of the invention, the one of an embodiment under this invention disturbs magnetic power generation
Machine 10 is illustrated, and wherein Figure 1A and Figure 1B, which is respectively shown, described disturbs structural representation of the magnetic generator 10 under different conditions
Figure, wherein the magnetic generator 10 of disturbing includes a magnet assembly 11, a magnetic core 12 and a coil 13, wherein the magnet group
Part 11 includes a permanent magnet 111, provides magnetic field environment to disturb magnetic generator 10 for described in by the permanent magnet 111, wherein institute
Magnetic core 12 is stated to be arranged to using permeability magnetic material preparation and including both ends 121, wherein a wherein end for the magnetic core 12
Portion 121 and the magnet assembly 11 are mutually close, with the shape between the magnet assembly 11 and the end 121 of the magnetic core 12
At an at least magnetic gap 14, wherein the coil 13 is located on the magnetic core 12, in this way to ring when the magnetic field in the magnetic gap 14
When answering the variation of the magnetic gap 14 and changing, the magnetic core 12 in response to the magnetic field in the magnetic gap 14 variation and make
The magnetic flux of the coil 13 is changed, to produce electricl energy in the coil 13.
Particularly, in this embodiment in accordance with the invention, the magnetic generator 10 of disturbing further comprises a magnetic medium 15,
Described in magnetic medium 15 be arranged to using permeability magnetic material prepare, with by the magnetic medium 15 in the movement in the magnetic gap 14
The variation for forming the medium in the magnetic gap 14 forms the variation of the magnetic gap 14, so that the magnetic in the magnetic gap 14
Field responds the variation of the medium in the magnetic gap 14 and changes, so that the magnetic core 12 is in response in the magnetic gap 14
Magnetic field variation and change the coil 13 magnetic flux produced electricl energy in the coil 13.
It is understood that the change of the space size of the variation of the medium in the magnetic gap 14 and the magnetic gap 14 itself
Change all enable to the magnetic field in the magnetic gap 14 to change as the variation of the magnetic gap 14, the present invention to this and it is unlimited
System.
It is noted that in this embodiment in accordance with the invention, the magnetic core 12 is maintained the magnetic medium 15
Static state, so to be able to maintain that it is tired to resisting for the coil 13 that the coil 13 for being located on the magnetic core 12 is still reduced
The requirement of labor performance, and then the stability of magnetic generator 10 is disturbed described in enhancing.In addition, the coil 13 is maintained static and makes
It is not necessarily to be reserved with the space of the coil 13 in the structure design for disturbing magnetic generator 10, is so then conducive to reduce institute
State the volume for disturbing magnetic generator 10.In other words, in the case where disturbing the constancy of volume of magnetic generator 10 described in the maintenance, the line
Circle 13 is maintained static and makes empty without being reserved with the movement of the coil 13 in the structure design for disturbing magnetic generator 10
Between, be so then conducive to the volume accounting that the coil 13 of magnetic generator 10 is disturbed described in improving, and then magnetic hair is disturbed described in raising
The generating efficiency of motor 10.
In addition, in this embodiment in accordance with the invention, the magnet assembly 11 also ties up the magnetic medium 15 simultaneously
Static state is held, so that empty without being reserved with the movement of the magnet assembly 11 in the structure design for disturbing magnetic generator 10
Between, be so then conducive to the volume that magnetic generator 10 is disturbed described in reducing.In other words, the body of magnetic generator 10 is disturbed described in the maintenance
In the case that product is constant, the magnet assembly 11 is maintained static and to be not necessarily in the structure design for disturbing magnetic generator 10
It is reserved with the space of the magnet assembly 11, is so then conducive to the magnet assembly for disturbing magnetic generator 10 described in improving
11 volume accounting, and then the generating efficiency of magnetic generator 10 is disturbed described in raising.
Further, in this embodiment in accordance with the invention, the magnet assembly 11 has one first magnetic pole 112 and one
Second magnetic pole 113, wherein first magnetic pole 112 and second magnetic pole 113 are extended in the same direction in the magnet assembly
11, wherein one in two ends 121 of the magnetic core 12 simultaneously with first magnetic pole 112 and second magnetic pole
Hold it is 113 mutually close, between the end 121 and first magnetic pole 112 of the magnet assembly 11 and the institute
State and be respectively formed the magnetic gap 14 between end 121 and second magnetic pole 113 of the magnet assembly 11, so with by
The magnetic medium 15 forms the variation of the medium in the magnetic gap 14 in the movement in the magnetic gap 14, so that the magnetic
Magnetic responsiveness in gap 14 in the medium in the magnetic gap 14 variation and change, while the magnetic core 12 is in response to its institute
It states the variation in the magnetic field in the magnetic gap 14 corresponding to end 121 and makes the coil 13 for being located on the magnetic core 12
Magnetic flux change, and then produced electricl energy in the coil 13.
Particularly, to further increase the generating efficiency for disturbing magnetic generator 10, in this embodiment in accordance with the invention,
The magnetic medium 15 is configured in the magnetic gap 14 in close to connect first magnetic pole 112 and the end
121 position and close to being switched with connecting between second magnetic pole 113 and the position of the end 121, by described
Magnetic medium 15 in the movement of the magnetic gap 14, by a wherein end 121 for the magnetic core 12 in first magnetic pole
It is switched between 112 states being connected and the state being connected with second magnetic pole 113, so that the magnetic core 12
Interior magnetic field can because the magnetic core 12 pairs of different magnetic poles in response to due to inverse change occurs, be situated between to improve by the magnetic
The movement of matter 15 is formed by the variable quantity of the variation of the magnetic flux of the coil 13, and then disturbs magnetic generator 10 described in raising
Generating efficiency.
It is understood that enabling to the magnetic medium 15 in institute by the specific motion mode of the magnetic medium 15
State magnetic gap 14 close to connect first magnetic pole 112 and the position of the end 121 with close to connect described second
Switch between magnetic pole 113 and the position of the end 121, wherein the motion mode of the magnetic medium 15 is specific without limiting.
That is, the magnetic flux for the coil 13 that the magnetic medium 15 is capable of forming in the movement of the magnetic gap 14
Variation, and the magnetic medium 15 enables to wherein described in one of the magnetic core 12 in the specific motion mode of the magnetic gap 14
End 121 is between the state that first magnetic pole 112 is connected and the state being connected with second magnetic pole 113
It switches over, to improve the variation of the variation for the magnetic flux for being formed by the coil 13 by the movement of the magnetic medium 15
Amount, but a wherein end 121 for the magnetic core 12 is in the state being connected with first magnetic pole 112 and with described the
Switching between the state that two magnetic poles 113 are connected can be realized by the multi-motion mode of the magnetic medium 15, this
Invention is not intended to limit this.
As in some embodiments of the invention, the magnetic medium 15 is arranged to the reciprocating manner using straight line,
With when close to the position for connecting first magnetic pole 112 and the end 121, far from connecting second magnetic pole 113
With the position of the end 121;It is separate to connect and when close to the position for connecting second magnetic pole 113 and the end 121
Lead to the position of first magnetic pole 112 and the end 121.
And in some embodiments of the invention, the magnetic medium 15 is arranged to the reciprocating manner using rotation,
With by rotationally when close to the position for connecting first magnetic pole 112 and the end 121, far from connecting second magnetic
Extreme 113 and the end 121 position;And close to the position for connecting second magnetic pole 113 and the end 121
When, far from the position for connecting first magnetic pole 112 and the end 121.
That is, it is of the invention it is described disturb magnetic generator 10 and be able to respond mechanical energy is converted in multi-motion mode
For electric energy, it is changed into the loss of mechanical energy caused by specific motion mode to avoid by different motion modes, and then improves
The generating efficiency for disturbing magnetic generator 10, further, since the magnetic generator 10 of disturbing can adapt in multi-motion side
Electric energy is converted mechanical energy into likes, the magnetic generator 10 of disturbing of the invention can also be used for detecting different actuation movements
Ground generates corresponding electric signal, to pass through the letter disturbed electric signal caused by magnetic generator 10 and obtain corresponding actuation movement
Breath, such as moving along a straight line or rotational motion is tested the speed.
It is understood that first magnetic pole 112 and second magnetic pole 113 are arranged to the magnetic for having different
Extremely magnetic, i.e., when first magnetic pole 112 is in the magnetic pole magnetic of the pole S, second magnetic pole 113 is in the magnetic pole magnetic of the pole N
Property, and when first magnetic pole 112 is in the magnetic pole magnetic of the pole N, second magnetic pole 113 is in the magnetic pole magnetic of the pole S, this
Invention is not intended to limit this.
It is noted that in this embodiment in accordance with the invention, the magnet assembly 11 further comprises a magnetic conduction group
Part 114, wherein the magnetic conduction subassembly 114 connects with 111 magnetic conduction of permanent magnet, it is described to be formed in the magnetic conduction subassembly 114
First magnetic pole 112 and second magnetic pole 113, and by the magnetic conduction phase of the magnetic conduction subassembly 114 and the permanent magnet 111
It connects, so that the specific fortune of the forming position of first magnetic pole 112 and second magnetic pole 113 and the magnetic medium 15
Flowing mode matches, that is to say, that the magnetic conduction subassembly 11 is arranged for being connected with 111 magnetic conduction of permanent magnet, to be formed
One in the end 121 of the two of the magnetic core 12 respectively with first magnetic pole 112 and 113 phase of the second magnetic pole
Close positional relationship.
In detail, in this embodiment in accordance with the invention, the magnetic conduction subassembly 114 includes one first magnetic conductive board 1141 and one
Second magnetic conductive board 1142, wherein first magnetic conductive board 1141 and second magnetic conductive board 1142 respectively with the permanent magnet 111
Two magnetic poles (i.e. the pole S with the pole N) magnetic conduction be connected, i.e., each magnetic conduction of two magnetic poles of the described permanent magnet 111 is connected with first magnetic conduction
One in plate 1141 and second magnetic conductive board 1142, to form first magnetic pole in first magnetic conductive board 1141
112, and second magnetic pole 113 is formed in second magnetic conductive board 1142.Such then described first magnetic pole 112 and described
Second magnetic pole 113 has different magnetic pole magnetics, and when a wherein end 121 for the magnetic core 12 is situated between by the magnetic
The specific motion mode of matter 15 in the state being connected with first magnetic pole 112 and with 113 phase of the second magnetic pole
When switching between the state of connection, inverse change occurs for the direction in the magnetic field in the magnetic core 12, to improve by institute
State magnetic medium 15 movement be formed by the coil 13 magnetic flux variation variable quantity, and then improve described in disturb magnetic power generation
The generating efficiency of machine 10.
That is, the magnetic conduction subassembly 114 connects with the magnetic conduction of the permanent magnet 111 so that first magnetic pole
112 and the forming position of second magnetic pole 113 and the specific motion mode of the magnetic medium 15 match, and when described
It is described to lead when the position of two magnetic poles of permanent magnet 111 can directly match with the specific motion mode of the magnetic medium 15
Magnetic assembly 114 can and be not set, then first magnetic pole 112 and second magnetic pole 113 be respectively formed in it is described forever
Two magnetic poles of magnet 111, such as when the permanent magnet 111 is arranged to U-shaped magnet, a wherein end for the magnetic core 12
121 is with can corresponding to the both ends of the U-shaped magnet directly mutually close with two magnetic poles of the U-shaped magnet, i.e. two magnetic of the U-shaped magnet
Pole is first magnetic pole 112 and second magnetic pole 113, so with the specific movement side with the magnetic medium 15
Formula matches, and the present invention is not intended to limit this.
This field skill personnel should be appreciated that in this embodiment in accordance with the invention, the magnetic core 12 and the magnet group
Part 11 is close to each other and forms the magnetic gap 14, and the magnetic medium 15 is moved in the magnetic gap 14 so that in the magnetic gap 14
When medium changes, magnetic responsiveness in the magnetic gap 14 in the medium in the magnetic gap 14 variation and change, institute
It states magnetic responsiveness in magnetic core 12 to change in the variation in the magnetic field in the magnetic gap 14, so that being located on described
The magnetic flux of the coil 13 of magnetic core 12 changes, and then produces electricl energy in the coil 13, wherein the magnet assembly
11, the quantity of the magnetic medium 15, the magnetic core 12 and the coil 13 can not be construed as limiting the invention.
It is under this invention with reference to shown in Fig. 2A and Fig. 2 B of Figure of description of the invention further to disclose the present invention
The one of one variant embodiment of a upper embodiment disturbs magnetic generator 10A and is illustrated, and wherein Fig. 2A and Fig. 2 B is respectively shown
The structural schematic diagram that magnetic generator 10A is disturbed under different conditions, similarly, the magnetic generator 10A that disturbs includes a magnet
Component 11A, a magnetic core 12A and a coil 13A, wherein the magnetic core 12A be arranged to using permeability magnetic material prepare and including
Both ends 121A, i.e. a first end 1211A and a second end 1212A, wherein the first end 1211A and described second
End 1212A is arranged to from the both ends of the magnetic core 12A along the magnetic core 12A backwards to extending, wherein the first end
1211A and the second end 1212A are close with the magnet assembly 11A phase respectively, in the magnet assembly 11A and described
An at least magnetic gap 14A is formed between the end 121A of the two of magnetic core 12A, wherein the coil 13A is located on the magnetic core
12A, it is described when being changed in this way with the variation of the medium in the magnetic gap 14A described in the magnetic responsiveness in the magnetic gap 14A
Magnetic core 12A in response to the magnetic field in the magnetic gap 14A variation and the magnetic flux of the coil 13A is changed, thus in
The coil 13A is produced electricl energy.
Different from a upper embodiment, in this embodiment in accordance with the invention, the magnet assembly 11A has two first magnetic poles
112A and two second magnetic pole 113A is held, wherein the first end 1211A is respectively and in the two first magnetic pole 112A
One mutually close with one in the two second magnetic pole 113A, and the second end 1212A is then respectively with two described
In one magnetic pole 112A another in the two second magnetic pole 113A another is mutually close, such then first end
The magnetic is respectively formed between portion 1211A and the first magnetic pole 112A mutually close therewith and the second magnetic pole 113A
Gap 14A, the second end 1212A and mutually close the first magnetic pole 112A and the second magnetic pole 113A therewith it
Between be respectively formed the magnetic gap 14A.
Further, the magnetic generator 10A that disturbs includes an at least magnetic medium 15A, wherein the magnetic medium 15A is set
To be prepared using permeability magnetic material, to be formed in the magnetic gap 14A by the magnetic medium 15A in the movement in the magnetic gap 14A
Medium variation so that the variation of the medium in magnetic gap 14A described in magnetic responsiveness in the magnetic gap 14A and become
Change so that the magnetic core 12A in response to the magnetic field in the magnetic gap 14A variation and change the magnetic flux of the coil 13A
Amount ground is produced electricl energy in the coil 13A.
Similarly, in this embodiment in accordance with the invention, the magnetic core 12A is maintained static state for the magnetic medium 15A,
So to be able to maintain that the coil 13A for being located on the magnetic core 12A is still reduced to the antifatigue of the coil 13A
The requirement of performance, and then the stability of magnetic generator 10A is disturbed described in enhancing.In addition, the coil 13A is maintained static and makes
It is not necessarily to be reserved with the space of the coil 13A in the structure design for disturbing magnetic generator 10A, is so then conducive to reduce
The volume for disturbing magnetic generator 10A.In other words, in the case where disturbing the constancy of volume of magnetic generator 10A described in the maintenance, institute
Coil 13A is stated to be maintained static and make in the structure design for disturbing magnetic generator 10A without being reserved with the coil 13A's
Space is so then conducive to the volume accounting for disturbing the coil 13A of magnetic generator 10A described in improving, and then improves institute
State the generating efficiency for disturbing magnetic generator 10A.
In addition, the magnet assembly 11A is equally also maintained static state for the magnetic medium 15A, so that described disturb
It is not necessarily to be reserved with the space of the magnet assembly 11A in the structure design of magnetic generator 10A, is so then conducive to reduce institute
State the volume for disturbing magnetic generator 10A.In other words, described in the case where disturbing the constancy of volume of magnetic generator 10A described in the maintenance
Magnet assembly 11A is maintained static and makes in the structure design for disturbing magnetic generator 10A without being reserved with the magnet group
The space of part 11A is so then conducive to the volume accounting that the magnet assembly 11A of magnetic generator 10A is disturbed described in improving,
And then the generating efficiency of magnetic generator 10A is disturbed described in improving.
Particularly, in this embodiment in accordance with the invention, the quantity of the magnetic medium 15A is two, i.e. one first magnetic is situated between
Matter 151A and one second magnetic medium 152A, wherein the first magnetic medium 151A and the second magnetic medium 152A are set to work as
The first magnetic medium 151A be in close to connect the first end 1211A and with the first end 1211A phase it is close
The first magnetic pole 112A position when, the second magnetic medium 152A is synchronous to be located at close to connect the second end
The position of 1212A and the second magnetic pole 113A close with the second end 1212A phase, and work as first magnetic medium
151A is located at close to connect the first end 1211A and second magnetic pole close with the first end 1211A phase
When holding the position of 113A, the second magnetic medium 152A is synchronous be located at close to connect the second end 1212A and with it is described
The position of close the first magnetic pole 112A of the second end 1212A phase.
That is, in this embodiment in accordance with the invention, the magnetic medium 15A is set will with specific motion mode
The magnetic core 12A in the first end 1211A and the first magnetic pole 112A be connected and the second end 1212A with
The state and the first end 1211A and the second magnetic pole 113A that the second magnetic pole 113A is connected are connected
And switched between the state that is connected of the second end 1212A and the first magnetic pole 112A, by the magnetic
The specific motion mode of medium 15A forms the reversed switching in the magnetic field in the magnetic core 12A, and then magnetic hair is disturbed described in raising
The generating efficiency of motor 10A.
It is understood that enabling to the magnetic core 12A in institute by the specific motion mode of the magnetic medium 15A
It states first end 1211A and the first magnetic pole 112A is connected and the second end 1212A and second magnetic pole
The state and the first end 1211A and the second magnetic pole 113A is connected and the second end that 113A is connected
It is switched between the state that 1212A and the first magnetic pole 112A are connected, wherein the motion mode of the magnetic medium 15A
It is specific without limit.
That is, the magnetic flux for the coil 13A that the magnetic medium 15A is capable of forming in the movement of the magnetic gap 14A
The variation of amount, and the magnetic medium 15A enables to the magnetic core 12A in institute in the specific motion mode of the magnetic gap 14A
It states first end 1211A and the first magnetic pole 112A is connected and the second end 1212A and second magnetic pole
The state and the first end 1211A and the second magnetic pole 113A is connected and the second end that 113A is connected
It is switched between the state that 1212A and the first magnetic pole 112A are connected, to improve the fortune by the magnetic medium 15A
The variable quantity of the variation of the dynamic magnetic flux for being formed by the coil 13A, but the magnetic core 12A is in the first end 1211A
It is connected with the first magnetic pole 112A and shape that the second end 1212A and the second magnetic pole 113A are connected
State and the first end 1211A and the second magnetic pole 113A are connected and the second end 1212A and described first
Switching between the state that magnetic pole 112A is connected can be realized by the multi-motion mode of the magnetic medium 15A, this
Invention is not intended to limit this.
Such as in some embodiments of the invention, when the two first magnetic pole 112A are arranged in the magnetic core 12A
Not ipsilateral respectively close to the first end 1211A and the second end 1212A, while two second magnetic pole 113A
Be arranged in the magnetic core 12A it is not ipsilateral respectively close to the first end 1211A and the second end 1212A when,
The first magnetic medium 151A can be set with the second magnetic medium 152A using synchronous straight reciprocating motion side in the same direction
Formula, it is described when the first magnetic medium 151A is close to connect the first end 1211A and the first magnetic pole 112A
Second magnetic medium 152A is synchronized in the same direction close to connect the second end 1212A and the second magnetic pole 113A;And work as
When the first magnetic medium 151A is close to connect the first end 1211A and the second magnetic pole 112A, described second
Magnetic medium 152A is synchronized in the same direction close to connect the second end 1212A and the first magnetic pole 112A.
And in some embodiments of the invention, equally when the two first magnetic pole 112A are arranged in the magnetic core
12A's is not ipsilateral respectively close to the first end 1211A and the second end 1212A, while two second magnetic poles
113A is arranged in the not ipsilateral respectively close to the first end 1211A and the second end 1212A of the magnetic core 12A
When, the first magnetic medium 151A and the second magnetic medium 152A can also be arranged to using the reciprocating motion rotated coaxially
Mode, in the first magnetic medium 151A by rotationally close to connect the first end 1211A and first magnetic pole
When 112A, the second magnetic medium 152A by rotating coaxially is synchronized close to connect the second end 1212A and described the
Two magnetic pole 113A;And when the first magnetic medium 151A is by rotationally close to connect the first end 1211A and described
When the second magnetic pole 113A, the second magnetic medium 152A rotationally synchronized close to connect the second end 1212A and
The first magnetic pole 112A.
That is, the magnetic generator 10A that disturbs of the invention is able to respond mechanical energy turn in multi-motion mode
It is changed to electric energy, is changed into the loss of mechanical energy caused by specific motion mode, Jin Erti to avoid by different motion modes
The generating efficiency of magnetic generator 10A is disturbed described in height, further, since the magnetic generator 10A that disturbs can adapt in a variety of fortune
Convert mechanical energy into flowing mode electric energy, it is of the invention described to disturb magnetic generator 10A and can also be used for detecting different works
It acts ground and generates corresponding electric signal, to disturb the corresponding actuation of the acquisition of electric signal caused by magnetic generator 10A by described
The information of movement, such as moving along a straight line or rotational motion is tested the speed.
It is understood that the first magnetic pole 112A and the second magnetic pole 113A be arranged to have it is different
Magnetic pole magnetic, i.e., when the first magnetic pole 112A is in the magnetic pole magnetic of the pole S, the second magnetic pole 113A is in the magnetic of the pole N
It is extremely magnetic, and when the first magnetic pole 112A is in the magnetic pole magnetic of the pole N, the second magnetic pole 113A is in the magnetic pole of the pole S
Magnetism, the present invention are not intended to limit this.
Particularly, in this embodiment in accordance with the invention, the two first magnetic pole 112A are arranged in the magnetic core
12A's is ipsilateral respectively close in the first end 1211A and the second end 1212A, while two second magnetic poles
113A is arranged in the ipsilateral respectively close in the first end 1211A and the second end of the magnetic core 12A
1212A.The first magnetic medium 151A and the second magnetic medium 152A are arranged to the first magnetic medium 151A and institute
The reciprocating motion that moving seesaw-type is a little carried out for axle center on the line of the second magnetic medium 152A is stated, as the first magnetic medium 151A
When close to connecting the first end 1211A and close with the first end 1211A phase the first magnetic pole 112A,
The second magnetic medium 152A synchronous backward close to connect the second end 1212A and with the second end 1212A
Mutually close the second magnetic pole 113A, and when the first magnetic medium 151A is close to connect the first end 1211A
When with the second magnetic pole 113A close with the first end 1211A phase, the second magnetic medium 153A synchronous backward
Ground is close to connect the second end 1212A and the first magnetic pole 112A close with the second end 1212A phase.
It is understood that when the two first magnetic pole 112A are arranged to lean on respectively in the ipsilateral of the magnetic core 12A
It is bordering on the first end 1211A and the second end 1212A, while the two second magnetic pole 113A are arranged in institute
The ipsilateral respectively close to when the first end 1211A and the second end 1212A of magnetic core 12A is stated, first magnetic is situated between
Matter 151A and the second magnetic medium 152A can equally be arranged to using the reciprocating manner that rotates coaxially, i.e., and described first
Magnetic medium 151A is in the connection first end 1211A and first magnetic pole close with the first end 1211A phase
The position of 112A is by rotationally close to connect the first end 1211A and the institute close with the first end 1211A phase
When stating the second magnetic pole 113A, the second magnetic medium 152A in connect the second end 1212A and with the second end
The position of close the second magnetic pole 113A of 1212A phase is synchronous by rotating coaxially close to connect the second end
The 1212A and first magnetic pole 112A close with the second end 1212A phase.
In detail, in this embodiment in accordance with the invention, the magnet assembly 11A includes two permanent magnet 111A and two magnetic conductions
Component 114A, wherein the two magnetic conduction subassembly 114A are arranged to connect with the two permanent magnet 111A magnetic conductions respectively, i.e., two institutes
One that permanent magnet 111A is respectively connected in the two magnetic conduction subassembly 114A is stated, to be described disturb by the two permanent magnet 111A
Magnetic generator 10A provides magnetic field environment, and connect by the two magnetic conduction subassembly 114A with the magnetic conduction of the two permanent magnet 111A,
A second magnetic pole 113A of the first magnetic pole 112A and 1 is formed respectively at each magnetic conduction subassembly 114A.
Further, in this embodiment in accordance with the invention, the magnetic conduction subassembly 114A includes one first magnetic conductive board 1141A
With one second magnetic conductive board 1142A, wherein the first magnetic conductive board 1141A and the second magnetic conductive board 1142A respectively with it is described forever
Two magnetic poles (i.e. the pole S with the pole N) magnetic conduction of magnet 111A is connected, i.e., each magnetic conduction of two magnetic poles of the described permanent magnet 111A is connected with described
It is one in first magnetic conductive board 1141A and the second magnetic conductive board 1142A, described to be formed in the first magnetic conductive board 1141A
First magnetic pole 112A, and the second magnetic pole 113A is formed in the second magnetic conductive board 1142A.Such then described first magnetic
Extreme 112A and the second magnetic pole 113A has different magnetic pole magnetics, and when the magnetic core 12A is in the first end
1211A is connected with the first magnetic pole 112A and the second end 1212A and the second magnetic pole 113A is connected
State and the first end 1211A be connected with the second magnetic pole 113A and the second end 1212A with it is described
When switching between the state that the first magnetic pole 112A is connected, reversed become occurs for the direction in the magnetic field in the magnetic core 12A
Change, so that the variable quantity that the variation of magnetic flux of the coil 13A is formed by by the movement of the magnetic medium 15A is improved,
And then the generating efficiency of magnetic generator 10A is disturbed described in improving.
In contrast to a upper embodiment, this field skill personnel are it will be further understood that the permanent magnet 111A, the magnetic are situated between
The quantity of matter 15A, the magnetic core 12A and the coil 13A can not be construed as limiting the invention.
With reference to shown in Fig. 3 of Figure of description of the invention, one further deformed of a upper embodiment under this invention
The stereochemical structure for disturbing magnetic generator 10B is illustrated, wherein the magnetic generator 10B that disturbs includes a magnet assembly 11B, a magnetic
A core 12B and coil 13B, wherein the magnetic core 12B is arranged to be prepared using permeability magnetic material and including both ends 121B,
Wherein the two of the magnetic core 12B end 121B are close with the magnet assembly 11B phase respectively, in the magnet assembly
An at least magnetic gap 14B is formed between the two end 121B of the 11B and magnetic core 12B, wherein the coil 13B is located on
The magnetic core 12B is become in this way with working as the variation of the medium in magnetic gap 14B described in the magnetic responsiveness in the magnetic gap 14B
When change, the magnetic core 12B in response to the magnetic field in the magnetic gap 14B variation and the magnetic flux of the coil 13B is changed
Become, to be produced electricl energy in the coil 13B.
Similarly, in this embodiment in accordance with the invention, the magnet assembly 11B has two first magnetic pole 112B and two
Second magnetic pole 113B, the end 121B of the two of the magnetic core 12B, i.e. a first end 1211B and a second end
1212B, wherein the first end 1211B and the second end 1212B are arranged to respectively from the both ends of the magnetic core 12B
Extended in the same direction in the radial direction of the magnetic core 12B, wherein the first end 1211B respectively with two first magnetic poles
One in 112B is mutually close with one in the two second magnetic pole 113B, and the second end 1212B then respectively with
In the two first magnetic pole 112B another in the two second magnetic pole 113B another is mutually close, such then institute
It states and distinguishes shape between first end 1211B and the first magnetic pole 112B mutually close therewith and the second magnetic pole 113B
At the magnetic gap 14B, the second end 1212B and mutually close the first magnetic pole 112B and second magnetic pole therewith
The magnetic gap 14B is respectively formed between the 113B of end.
Particularly, in this embodiment in accordance with the invention, wherein the first end 1211B and the second end
1212B is arranged to extend in the same direction from the both ends of the magnetic core 12B in the radial direction of the magnetic core 12B respectively, will be described
Magnet assembly 11B is in being set to the first end 1211B and the second end in the radial space of the magnetic core 12B
Between 1212B, be so then conducive to the length along the direction the magnetic core 12B that magnetic generator 10B is disturbed described in shortening.
Further, the magnetic generator 10B that disturbs includes an at least magnetic medium 15B, wherein the magnetic medium 15B is set
To be prepared using permeability magnetic material, to be formed in the magnetic gap 14B by the magnetic medium 15B in the movement in the magnetic gap 14B
Medium variation so that the variation of the medium in magnetic gap 14B described in magnetic responsiveness in the magnetic gap 14B and become
Change so that the magnetic core 12B in response to the magnetic field in the magnetic gap 14B variation and change the magnetic flux of the coil 13B
Amount ground is produced electricl energy in the coil 13B.
Similarly, in this embodiment in accordance with the invention, the magnetic core 12B is maintained static state for the magnetic medium 15B,
So to be able to maintain that the coil 13B for being located on the magnetic core 12B is still reduced to the antifatigue of the coil 13B
The requirement of performance, and then the stability of magnetic generator 10B is disturbed described in enhancing.In addition, the coil 13B is maintained static and makes
It is not necessarily to be reserved with the space of the coil 13B in the structure design for disturbing magnetic generator 10B, is so then conducive to reduce
The volume for disturbing magnetic generator 10B.In other words, in the case where disturbing the constancy of volume of magnetic generator 10B described in the maintenance, institute
Coil 13B is stated to be maintained static and make in the structure design for disturbing magnetic generator 10B without being reserved with the coil 13B's
Space is so then conducive to the volume accounting for disturbing the coil 13B of magnetic generator 10B described in improving, and then improves institute
State the generating efficiency for disturbing magnetic generator 10B.
In addition, the magnet assembly 11B is equally also maintained static state for the magnetic medium 15B, so that described disturb
It is not necessarily to be reserved with the space of the magnet assembly 11B in the structure design of magnetic generator 10B, is so then conducive to reduce institute
State the volume for disturbing magnetic generator 10B.In other words, described in the case where disturbing the constancy of volume of magnetic generator 10B described in the maintenance
Magnet assembly 11B is maintained static and makes in the structure design for disturbing magnetic generator 10B without being reserved with the magnet group
The space of part 11B is so then conducive to the volume accounting that the magnet assembly 11B of magnetic generator 10B is disturbed described in improving,
And then the generating efficiency of magnetic generator 10B is disturbed described in improving.
Shown in Fig. 4 A and Fig. 4 B with further reference to Figure of description of the invention, main presentation it is under this invention this
The described of one embodiment disturbs structural schematic diagram of the magnetic generator 10B under different conditions, in this embodiment in accordance with the invention, institute
The quantity for stating magnetic medium 15B is two, i.e. one first magnetic medium 151B and one second magnetic medium 152B, wherein first magnetic is situated between
Matter 151B is set with the second magnetic medium 152B when the first magnetic medium 151B is in close to connect described first
When the position of end 1211B and the first magnetic pole 112B close with the first end 1211B phase, second magnetic is situated between
Matter 152B is synchronous to be located at close to connect the second end 1212B and close described the with the second end 1212B phase
The position of two magnetic pole 113B, and when the first magnetic medium 151B be located at close to connect the first end 1211B and with
When the position of close the second magnetic pole 113B of the first end 1211B phase, the second magnetic medium 152B sync bit
In close to connect the second end 1212B and the first magnetic pole 112B close with the second end 1212B phase
Position.
That is, in this embodiment in accordance with the invention, the magnetic medium 15B is set will with specific motion mode
The magnetic core 12B in the first end 1211B and the first magnetic pole 112B be connected and the second end 1212B with
The state and the first end 1211B and the second magnetic pole 113B that the second magnetic pole 113B is connected are connected
And switched between the state that is connected of the second end 1212B and the first magnetic pole 112B, by the magnetic
The specific motion mode of medium 15B forms the reversed switching in the magnetic field in the magnetic core 12B, and then magnetic hair is disturbed described in raising
The generating efficiency of motor 10B.
It is understood that enabling to the magnetic core 12B in institute by the specific motion mode of the magnetic medium 15B
It states first end 1211B and the first magnetic pole 112B is connected and the second end 1212B and second magnetic pole
The state and the first end 1211B and the second magnetic pole 113B is connected and the second end that 113B is connected
It is switched between the state that 1212B and the first magnetic pole 112B are connected, wherein the motion mode of the magnetic medium 15B
It is specific without limit.
That is, the magnetic flux for the coil 13B that the magnetic medium 15B is capable of forming in the movement of the magnetic gap 14B
The variation of amount, and the magnetic medium 15B enables to the magnetic core 12B in institute in the specific motion mode of the magnetic gap 14B
It states first end 1211B and the first magnetic pole 112B is connected and the second end 1212B and second magnetic pole
The state and the first end 1211B and the second magnetic pole 113B is connected and the second end that 113B is connected
It is switched between the state that 1212B and the first magnetic pole 112B are connected, to improve the fortune by the magnetic medium 15B
The variable quantity of the variation of the dynamic magnetic flux for being formed by the coil 13B, but the magnetic core 12B is in the first end 1211B
It is connected with the first magnetic pole 112B and shape that the second end 1212B and the second magnetic pole 113B are connected
State and the first end 1211B and the second magnetic pole 113B are connected and the second end 1212B and described first
Switching between the state that magnetic pole 112B is connected can be realized by the multi-motion mode of the magnetic medium 15B, this
Invention is not intended to limit this.
In other words, the magnetic generator 10B that disturbs of the invention is able to respond mechanical energy turn in multi-motion mode
It is changed to electric energy, is changed into the loss of mechanical energy caused by specific motion mode, Jin Erti to avoid by different motion modes
The generating efficiency of magnetic generator 10B is disturbed described in height, further, since the magnetic generator 10B that disturbs can adapt in a variety of fortune
Convert mechanical energy into flowing mode electric energy, it is of the invention described to disturb magnetic generator 10B and can also be used for detecting different works
It acts ground and generates corresponding electric signal, to disturb the corresponding actuation of the acquisition of electric signal caused by magnetic generator 10B by described
The information of movement, such as moving along a straight line or rotational motion is tested the speed.
It is understood that the first magnetic pole 112B and the second magnetic pole 113B be arranged to have it is different
Magnetic pole magnetic, i.e., when the first magnetic pole 112B is in the magnetic pole magnetic of the pole S, the second magnetic pole 113B is in the magnetic of the pole N
It is extremely magnetic, and when the first magnetic pole 112B is in the magnetic pole magnetic of the pole N, the second magnetic pole 113B is in the magnetic pole of the pole S
Magnetism, the present invention are not intended to limit this.
Particularly, in this embodiment in accordance with the invention, the magnet assembly 11B is arranged at the first end
Between 1211B and the second end 1212B, and the line and two second magnetic poles of the two first magnetic pole 112B
The line of 113B intersects, wherein the first magnetic medium 151B is arranged to the second magnetic medium 152B using synchronous in the same direction
Straight reciprocating motion mode, in the first magnetic medium 151B close to connect the first end 1211B and described first
When magnetic pole 112B, the second magnetic medium 152B is synchronized in the same direction close to connect the second end 1212B and described the
Two magnetic pole 113B;And when the first magnetic medium 151B is close to connect the first end 1211B and second magnetic pole
When holding 112B, the second magnetic medium 152B is synchronized in the same direction close to connect the second end 1212B and first magnetic
Extreme 112B.
It is understood that the first magnetic medium 151B and the second magnetic medium 152B can also be arranged to use
The reciprocating manner rotated coaxially, i.e., the described first magnetic medium 151B is in connecting the first end 1211B and with described the
The position of close the first magnetic pole 112B of one end 1211B phase is by rotationally close to connect the first end
When the 1211B and second magnetic pole 113B close with the first end 1211B phase, the second magnetic medium 152B is in connecing
Lead to the second end 1212B and synchronous with the close position of the second magnetic pole 113B of the second end 1212B phase
By rotating coaxially close to connect the second end 1212B and close described first with the second end 1212B phase
Magnetic pole 112B.
In detail, in this embodiment in accordance with the invention, the magnet assembly 11B includes two permanent magnet 111B, wherein two
The permanent magnet 111B is arranged between the first end 1211B and the second end 1212B, and each permanent magnet
Two magnetic poles of 111B are respectively close in the first end 1211B and the second end 1212B, i.e., each permanent magnet 111B
It is respectively formed the first magnetic pole 112B and one second magnetic pole 113B in its two magnetic pole, in addition, with the first end
Portion 1211B close the first magnetic pole 112B and second magnetic pole close with the second end 1212B
113B is formed by the same permanent magnet 111B, i.e., the first magnetic pole 112B corresponding to the same end 121B and
The second magnetic pole 113B is formed by the different permanent magnet 111B, so then makes the two first magnetic pole 112B
Line and the two second magnetic pole 113B line intersection so that the first magnetic medium 151B and second magnetic
Medium 152B can realize the magnetic core 12B in the first end 1211B by synchronizing straight reciprocating motion mode in the same direction
It is connected with the first magnetic pole 112B and shape that the second end 1212B and the second magnetic pole 113B are connected
State and the first end 1211B and the second magnetic pole 113B are connected and the second end 1212B and described first
The switching between state that magnetic pole 112B is connected.
In contrast to a upper embodiment, this field skill personnel are it will be further understood that of the invention described disturb magnetic generator
10B by the magnetic medium 15B in by the magnetic core 12B with the magnet assembly 11B is close to each other forms the magnetic gap 14B
Movement so that the medium in the magnetic gap 14B changes, while the magnetic responsiveness in the magnetic gap 14B is in the magnetic gap
The variation of medium in 14B and change, and the magnetic responsiveness in the magnetic core 12B is in the magnetic field in the magnetic gap 14B
Change and change, so that the magnetic flux for being located on the coil 13B of the magnetic core 12B changes, in turn
Produced electricl energy in the coil 13B, wherein the structure of the magnetic core 12B and the magnet assembly 11B according to disclosed herein
Embodiment has numerous embodiments, and the present invention is not intended to limit this.
With reference to shown in Fig. 5 and Fig. 6 of Figure of description of the invention, a deformation implementation of a upper embodiment under this invention
The one of example disturbs magnetic generator 10B ' and is illustrated, wherein Fig. 5 and Fig. 6 respectively show it is described disturb magnetic generator 10B ', it is vertical
Body structural schematic diagram and operation principle schematic diagram.The magnetic generator 10B ' that disturbs includes magnet assembly 11B ', a magnetic core 12B ',
And a coil 13B ', wherein the magnetic core 12B ' is arranged to be prepared using permeability magnetic material and including both ends 121B ', wherein
The end 121B ' of the two of the magnetic core 12B ' is mutually close with the magnet assembly 11B ' respectively, in the magnet assembly
An at least magnetic gap 14B ' is formed between the two end 121B ' of 11B ' and the magnetic core 12B ', wherein the coil 13B ' quilt
It is located on the magnetic core 12B ', in this way with the variation of the medium in magnetic gap 14B ' described in the magnetic responsiveness in the magnetic gap 14B '
And when changing, the magnetic core 12B ' in response to the magnetic field in the magnetic gap 14B ' variation and make the coil 13B's '
Magnetic flux is changed, to produce electricl energy in the coil 13B '.
Particularly, in this embodiment in accordance with the invention, the magnet assembly 11B ' have one first magnetic pole 112B ' and
One second magnetic pole 113B ', the end 121B ' of the two of the magnetic core 12B ', i.e. a first end 1211B ' and a second end
Portion 1212B ', wherein the first end 1211B ' and the second end 1212B ' are arranged to respectively from the magnetic core 12B '
Both ends extended in the same direction in the radial direction of the magnetic core 12B ', wherein the first end 1211B ' and the second end
1212B ' is separately arranged as simultaneously close to the first magnetic pole 112B ' and the second magnetic pole 113B '.Specifically,
The magnet assembly 11B ' is in being arranged at the first end 1211B ' and described in the radial space of the magnetic core 12B '
Line direction between two end 1212B ', and between the first end 1211B ' and the second end 1212B ' is the same as described
Line direction intersection between first magnetic pole 112B ' and the second magnetic pole 113B ', so then forms the first end
1211B ' and the second end 1212B ' is respectively simultaneously close to the first magnetic pole 112B ' and second magnetic pole
The positional relationship of 113B ', and make the first end 1211B ' respectively with the first magnetic pole 112B ' and second magnetic
Form the magnetic gap 14B ' between extreme 113B ', the second end 1212B ' respectively with the first magnetic pole 112B ' and institute
It states and forms the magnetic gap 14B ' between the second magnetic pole 113B '.
It is noted that in this embodiment in accordance with the invention, wherein the first end 1211B ' and described second
End 1212B ' is arranged to extend in the same direction from the both ends of the magnetic core 12B ' in the radial direction of the magnetic core 12B ' respectively, with
By the magnet assembly 11B ' in being set to the first end 1211B ' and described in the radial space of the magnetic core 12B '
Between two end 1212B ', be so then conducive to the length along the direction the magnetic core 12B ' that magnetic generator 10B ' is disturbed described in shortening
Degree.
Further, in this embodiment in accordance with the invention, the magnetic generator 10B ' that disturbs includes an at least magnetic medium
15B ', wherein the magnetic medium 15B ' be arranged to using permeability magnetic material prepare, with by the magnetic medium 15B ' in the magnetic
The movement of gap 14B ' forms the variation of the medium in the magnetic gap 14B ', so that the magnetic responsiveness institute in the magnetic gap 14B '
It states the variation of the medium in magnetic gap 14B ' and changes, so that the magnetic core 12B ' is in response in the magnetic gap 14B '
The variation in magnetic field and change the coil 13B ' magnetic flux produced electricl energy in the coil 13B '.
Similarly, in this embodiment in accordance with the invention, the magnetic core 12B ' is maintained the magnetic medium 15B ' quiet
State, so to be able to maintain that the coil 13B ' for being located on the magnetic core 12B ' is still reduced to the coil 13B's '
The requirement of anti-fatigue performance, and then the stability of magnetic generator 10B ' is disturbed described in enhancing.In addition, the coil 13B ' be maintained it is quiet
State and make in the structure design for disturbing magnetic generator 10B ' without the space for being reserved with the coil 13B ', so then
Be conducive to the volume that magnetic generator 10B ' is disturbed described in reducing.In other words, the volume of magnetic generator 10B ' is disturbed not described in the maintenance
In the case where change, the coil 13B ' is maintained static and makes in the structure design for disturbing magnetic generator 10B ' without reserved
There is the space of the coil 13B ', is so then conducive to the body for disturbing the coil 13B ' of magnetic generator 10B ' described in improving
Product accounting, and then the generating efficiency of magnetic generator 10B ' is disturbed described in raising.
In addition, the magnet assembly 11B ' is equally also maintained static state for the magnetic medium 15B ', so that described
It disturbs in the structure design of magnetic generator 10B ' without the space for being reserved with the magnet assembly 11B ', is so then conducive to contract
The small volume for disturbing magnetic generator 10B '.In other words, the case where disturbing the constancy of volume of magnetic generator 10B ' described in the maintenance
Under, the magnet assembly 11B ' is maintained static and makes in the structure design for disturbing magnetic generator 10B ' without reserving
The space of magnet assembly 11B ' is stated, the magnet assembly 11B ' for disturbing magnetic generator 10B ' described in improving so then is conducive to
Volume accounting, and then disturb the generating efficiency of magnetic generator 10B ' described in improving.
Further, in this embodiment in accordance with the invention, the quantity of the magnetic medium 15B ' is two, i.e. one first magnetic
Medium 151B ' and one second magnetic medium 152B ', wherein the first magnetic medium 151B ' and the second magnetic medium 152B ' are set
It sets when the first magnetic medium 151B ' is in close to connect the first end 1211B ' and first magnetic pole
When the position of 112B ', the second magnetic medium 152B ' is in close to connect the second end 1212B ' and second magnetic
The position of extreme 113B ', and when the first magnetic medium 151B ' is in close to connect the first end 1211B ' and described
When the position of the second magnetic pole 113B ', the second magnetic medium 152B ' be in close to connect the second end 1212B ' and
The position of the first magnetic pole 112B '.
That is, in this embodiment in accordance with the invention, the magnetic medium 15B ' is set with specific motion mode
The magnetic core 12B ' is connected and the second end in the first end 1211B ' and the first magnetic pole 112B '
The state and the first end 1211B ' and second magnetic pole that 1212B ' and the second magnetic pole 113B ' are connected
It is switched between the state that 113B ' is connected and the second end 1212B ' and the first magnetic pole 112B ' are connected,
The reversed switching in the magnetic field in the magnetic core 12B ' is formed with the specific motion mode by the magnetic medium 15B ', in turn
The generating efficiency of magnetic generator 10B ' is disturbed described in raising.
It is understood that by the specific motion mode of the magnetic medium 15B ' enable to the magnetic core 12B ' in
The first end 1211B ' and the first magnetic pole 112B ' are connected and the second end 1212B ' and second magnetic
State that extreme 113B ' is connected and the first end 1211B ' and the second magnetic pole 113B ' are connected and described the
It is switched between the state that two end 1212B ' and the first magnetic pole 112B ' are connected, wherein the magnetic medium 15B '
Motion mode it is specific without limit.
That is, the magnetic for the coil 13B ' that the magnetic medium 15B ' is capable of forming in the movement of the magnetic gap 14B '
The variation of flux, and the magnetic medium 15B ' enables to the magnetic core 12B ' in the specific motion mode of the magnetic gap 14B '
It is connected and the second end 1212B ' and described second in the first end 1211B ' and the first magnetic pole 112B '
The state and the first end 1211B ' that magnetic pole 113B ' is connected are connected and described with the second magnetic pole 113B '
It is switched between the state that the second end 1212B ' and the first magnetic pole 112B ' are connected, to improve by the magnetic
The movement of medium 15B ' is formed by the variable quantity of the variation of the magnetic flux of the coil 13B ', but the magnetic core 12B ' is in described
First end 1211B ' and the first magnetic pole 112B ' are connected and the second end 1212B ' and second magnetic pole
The state and the first end 1211B ' and the second magnetic pole 113B ' is connected and the second end that 113B ' is connected
The switching between state that portion 1212B ' and the first magnetic pole 112B ' are connected can be by the more of the magnetic medium 15B '
Kind motion mode is realized that the present invention is not intended to limit this.
In other words, the magnetic generator 10B ' that disturbs of the invention is able to respond mechanical energy turn in multi-motion mode
It is changed to electric energy, is changed into the loss of mechanical energy caused by specific motion mode, Jin Erti to avoid by different motion modes
The generating efficiency of magnetic generator 10B ' is disturbed described in height, further, since the magnetic generator 10B ' that disturbs can adapt in a variety of
Convert mechanical energy into motion mode electric energy, it is of the invention it is described disturb magnetic generator 10B ' can also be used for detecting it is different
Actuation movement ground generates corresponding electric signal, obtains corresponding make to disturb electric signal caused by magnetic generator 10B ' described in
The information of dynamic movement, such as moving along a straight line or rotational motion is tested the speed.
It is understood that the first magnetic pole 112B ' and the second magnetic pole 113B ' are arranged to have difference
Magnetic pole magnetic, i.e., when the first magnetic pole 112B ' be in the pole S magnetic pole magnetic when, the second magnetic pole 113B ' be in the pole N
Magnetic pole magnetic, and when the first magnetic pole 112B ' be in the pole N magnetic pole magnetic when, the second magnetic pole 113B ' be in the pole S
Magnetic pole magnetic, the present invention is not intended to limit this.
Particularly, in this embodiment in accordance with the invention, the first magnetic medium 151B ' and second magnetic medium
The motion mode that 152B ' is set coaxially to swing, i.e., with the first magnetic medium 151B ' and the second magnetic medium 152B '
Between an axis be axle center, when the first magnetic medium 151B ' is in connecting the first end 1211B ' and first magnetic pole
Hold the position of 112B ' by as axis rotation close to connect the first end 1211B ' and second magnetic pole using the axis
When 113B ', the second magnetic medium 152B ' is in the position for connecting the second end 1212B ' and the second magnetic pole 113B '
It sets synchronous by rotating coaxially close to connect the second end 1212B ' and the first magnetic pole 112B '.
In detail, in this embodiment in accordance with the invention, the magnetic generator 10B ' that disturbs further comprises a connecting rod 17B ',
Wherein the first magnetic medium 151B ' and the second magnetic medium 152B ' is arranged at the both ends of the connecting rod 17B ' respectively, with
Connection by the connecting rod 17B ' to the first magnetic medium 151B ' and the second magnetic medium 152B ', so that described first
Magnetic medium 151B ' and the second magnetic medium 152B ' can be by drivingly with a little for fulcrum same on the connecting rod 17B '
Axis is swung.
Further, in this embodiment in accordance with the invention, the magnet assembly 11B ' includes a permanent magnet 111B ' and one
Magnetic conduction subassembly 114B ', to be that the magnetic generator 10B ' that disturbs provides magnetic field environment by the permanent magnet 111B ', wherein described
Permanent magnet 111B ' is arranged at the first end 1211B ' and the second end in the radial space of the magnetic core 12B '
Between 1212B ', wherein the magnetic conduction subassembly 114B ' connects with the permanent magnet 111B ' magnetic conduction, in the magnetic conduction subassembly
114B ' forms the first magnetic pole 112B ' and the second magnetic pole 113B ', and by the magnetic conduction subassembly 114B ' and institute
The magnetic conduction for stating permanent magnet 111B ' connects, so that the formation position of the first magnetic pole 112B ' and the second magnetic pole 113B '
It sets and matches with the specific motion mode of the magnetic medium 15B ', that is to say, that the magnetic conduction subassembly 114B ' is arranged for
It is connected with the permanent magnet 111B ' magnetic conduction, it is same respectively to form the first end 1211B ' and the second end 1212B '
When close to the first magnetic pole 112B ' and the second magnetic pole 113B ' positional relationship.
In detail, in this embodiment in accordance with the invention, the magnetic conduction subassembly 114B ' includes one first magnetic conductive board 1141B '
With one second magnetic conductive board 1142B ', wherein the first magnetic conductive board 1141B ' and the second magnetic conductive board 1142B ' respectively with it is described
Two magnetic poles (i.e. the pole S with the pole N) magnetic conduction of permanent magnet 111B ' is connected, i.e., each magnetic conduction of two magnetic poles of the described permanent magnet 111B ' is connected with
One in the first magnetic conductive board 1141B ' and the second magnetic conductive board 1142B ', in the first magnetic conductive board 1141B ' shape
The second magnetic pole 113B ' is formed at the first magnetic pole 112B ', and in the second magnetic conductive board 1142B '.Particularly,
The first magnetic conductive board 1141B ' and the second magnetic conductive board 1142B ' respectively simultaneously close to the first end 1211B ' and
The second end 1212B ', i.e., the described permanent magnet 111B ' and two magnetic poles for being arranged at the permanent magnet 111B ' respectively
The first magnetic conductive board 1141B ' and the second magnetic conductive board 1142B ' forms the magnet assembly 11B ' of " H " shape, wherein
The left and right sides of " H " shape is that the first magnetic conductive board 1141B ' and the second magnetic conductive board 1142B ' are formed, in
The upper and lower ends of " H " shape are mutually close with the first end 1211B ' and the second end 1212B ' respectively, thus shape
At the first end 1211B ' and the second end 1212B ' respectively simultaneously close to the first magnetic pole 112B ' and institute
State the positional relationship of the second magnetic pole 113B '.
In contrast to a upper embodiment, this field skill personnel are it will be further understood that of the invention described disturb magnetic generator
10B ' by the magnetic medium 15B ' in by the magnetic core 12B ' with the magnet assembly 11B ' is close to each other forms the magnetic
The movement of gap 14B ' so that the medium in the magnetic gap 14B ' changes, while the magnetic responsiveness in the magnetic gap 14B ' in
The variation of medium in the magnetic gap 14B ' and change, and the magnetic responsiveness in the magnetic core 12B ' is in the magnetic gap 14B '
The variation in interior magnetic field and change so that be located on the coil 13B ' of the magnetic core 12B ' magnetic flux hair
Changing, and then produced electricl energy in the coil 13B ', wherein the structure of the magnetic core 12B ' and the magnet assembly 11B ' according to
Disclosed herein embodiment there are numerous embodiments, the present invention is not intended to limit this.
With reference to shown in Fig. 7 of Figure of description of the invention, the further deformation of above-mentioned variant embodiment under this invention
An embodiment one disturb magnetic generator 10B " and be illustrated, wherein Fig. 7 main presentation is described disturbs magnetic generator 10B's "
Schematic perspective view.Similarly, the magnetic generator 10B " that disturbs includes magnet assembly a 11B ", magnetic core a 12B ", Yi Jiyi
Coil 13B ", wherein the magnetic core 12B " is arranged to using permeability magnetic material preparation and including both ends 121B ", wherein the magnetic
The end 121B " of the two of core 12B " is mutually close with the magnet assembly 11B " respectively, in the magnet assembly 11B " and institute
It states and forms an at least magnetic gap 14B " between the two end 121B " of magnetic core 12B ", wherein the coil 13B " is located on institute
Magnetic core 12B " is stated, is become in this way with working as the variation of the medium in magnetic gap 14B " described in the magnetic responsiveness in the magnetic gap 14B "
When change, the magnetic core 12B " in response to the magnetic field in the magnetic gap 14B " variation and make the magnetic flux quilt of the coil 13B "
Change, to be produced electricl energy in the coil 13B ".
Further, the magnet assembly 11B " has one first magnetic pole 112B " and one second magnetic pole 113B ", institute
The two end 121B ", i.e. a first end 1211B " and the second end 1212B " for stating magnetic core 12B ", wherein described first
End 1211B " and the second end 1212B " are arranged to respectively from the both ends of the magnetic core 12B " in the magnetic core 12B "
Radial direction extend in the same direction, wherein the first end 1211B " and the second end 1212B " are separately arranged as simultaneously
Close to the first magnetic pole 112B " and the second magnetic pole 113B ".
Different from a upper embodiment, in this embodiment in accordance with the invention, the magnet assembly 11B " is arranged in institute
State the extending direction of first end 1211B " and the second end 1212B " respectively with the first end 1211B " and described
The second end 1212B " is mutually close, and the line direction between the first end 1211B " and the second end 1212B " is same
Line direction intersection between the first magnetic pole 112B " and the second magnetic pole 113B ", so then forms described first
End 1211B " and the second end 1212B " is respectively simultaneously close to the first magnetic pole 112B " and second magnetic pole
Hold 113B " positional relationship, and make the first end 1211B " respectively with the first magnetic pole 112B " and described second
Form the magnetic gap 14B " between magnetic pole 113B ", the second end 1212B " respectively with the first magnetic pole 112B " and
The magnetic gap 14B " is formed between the second magnetic pole 113B ".
Similarly, the magnetic generator 10B " that disturbs includes an at least magnetic medium 15B ", wherein the magnetic medium 15B " is set
It is set to and is prepared using permeability magnetic material, to form the magnetic gap 14B " in the movement of the magnetic gap 14B " by the magnetic medium 15B "
The variation of interior medium so that the variation of the medium in magnetic gap 14B " described in magnetic responsiveness in the magnetic gap 14B " and send out
Changing so that the magnetic core 12B " in response to the magnetic field in the magnetic gap 14B " variation and change the coil 13B "
Magnetic flux produced electricl energy in the coil 13B ".
Further, the magnetic core 12B " is maintained static state for the magnetic medium 15B ", so to be able to maintain that by ring
The coil 13B " for being placed on the magnetic core 12B " still reduces the requirement of the anti-fatigue performance to the coil 13B ", in turn
The stability of magnetic generator 10B " is disturbed described in enhancing.In addition, the coil 13B " is maintained static and the magnetic of disturbing is made to generate electricity
It is not necessarily to be reserved with the space of the coil 13B " in the structure design of machine 10B ", is so then conducive to disturb magnetic hair described in diminution
The volume of motor 10B ".In other words, in the case where disturbing the constancy of volume of magnetic generator 10B " described in the maintenance, the coil
13B " is maintained static and makes the fortune in the structure design for disturbing magnetic generator 10B " without being reserved with the coil 13B "
Dynamic space is so then conducive to the volume accounting for disturbing the coil 13B " of magnetic generator 10B " described in improving, and then improves institute
State the generating efficiency for disturbing magnetic generator 10B ".
In addition, the magnet assembly 11B " is equally also maintained static state for the magnetic medium 15B ", so that described
It disturbs in the structure design of magnetic generator 10B " without the space for being reserved with the magnet assembly 11B ", is so then conducive to contract
The small volume for disturbing magnetic generator 10B ".In other words, the case where disturbing the constancy of volume of magnetic generator 10B " described in the maintenance
Under, the magnet assembly 11B " is maintained static and makes in the structure design for disturbing magnetic generator 10B " without reserving
The space of magnet assembly 11B " is stated, the magnet assembly 11B " for disturbing magnetic generator 10B " described in improving so then is conducive to
Volume accounting, and then disturb the generating efficiency of magnetic generator 10B " described in improving.
Similarly, the quantity of the magnetic medium 15B " is two, i.e. one first magnetic medium 151B " and one second magnetic medium
152B ", wherein the first magnetic medium 151B " and the second magnetic medium 152B " are set when first magnetic medium
When 151B " is in the close position to connect the first end 1211B " and the first magnetic pole 112B ", second magnetic
Medium 152B " is in close to the position to connect the second end 1212B " He the second magnetic pole 113B ", and when described
When first magnetic medium 151B " is in the close position to connect the first end 1211B " and the second magnetic pole 113B ",
The second magnetic medium 152B " is in close to the position to connect the second end 1212B " He the first magnetic pole 112B "
It sets.
That is, in this embodiment in accordance with the invention, the magnetic medium 15B " is set with specific motion mode
The magnetic core 12B " is connected and the second end in the first end 1211B " and the first magnetic pole 112B "
The state and the first end 1211B " and second magnetic pole that 1212B " and the second magnetic pole 113B " are connected
It is switched between the state that 113B " is connected and the second end 1212B " and the first magnetic pole 112B " are connected,
The reversed switching in the magnetic field in the magnetic core 12B " is formed with the specific motion mode by the magnetic medium 15B ", in turn
The generating efficiency of magnetic generator 10B " is disturbed described in raising.
It is understood that by the specific motion mode of the magnetic medium 15B " enable to the magnetic core 12B " in
The first end 1211B " and the first magnetic pole 112B " are connected and the second end 1212B " and second magnetic
State that extreme 113B " is connected and the first end 1211B " and the second magnetic pole 113B " are connected and described the
It is switched between the state that two end 1212B " and the first magnetic pole 112B " are connected, wherein the magnetic medium 15B "
Motion mode it is specific without limit.
That is, the magnetic for the coil 13B " that the magnetic medium 15B " is capable of forming in the movement of the magnetic gap 14B "
The variation of flux, and the magnetic medium 15B " enables to the magnetic core 12B " in the specific motion mode of the magnetic gap 14B "
It is connected and the second end 1212B " and described second in the first end 1211B " and the first magnetic pole 112B "
The state and the first end 1211B " that magnetic pole 113B " is connected are connected and described with the second magnetic pole 113B "
It is switched between the state that the second end 1212B " and the first magnetic pole 112B " are connected, to improve by the magnetic
The movement of medium 15B " is formed by the variable quantity of the variation of the magnetic flux of the coil 13B ", but the magnetic core 12B " is in described
First end 1211B " and the first magnetic pole 112B " are connected and the second end 1212B " and second magnetic pole
The state and the first end 1211B " and the second magnetic pole 113B " is connected and the second end that 113B " is connected
The switching between state that portion 1212B " and the first magnetic pole 112B " are connected can be by the more of the magnetic medium 15B "
Kind motion mode is realized that the present invention is not intended to limit this.
In other words, the magnetic generator 10B " that disturbs of the invention is able to respond mechanical energy turn in multi-motion mode
It is changed to electric energy, is changed into the loss of mechanical energy caused by specific motion mode, Jin Erti to avoid by different motion modes
The generating efficiency of magnetic generator 10B " is disturbed described in height, further, since the magnetic generator 10B " that disturbs can adapt in a variety of
Convert mechanical energy into motion mode electric energy, it is of the invention it is described disturb magnetic generator 10B " can also be used for detecting it is different
Actuation movement ground generates corresponding electric signal, obtains corresponding make to disturb electric signal caused by magnetic generator 10B " described in
The information of dynamic movement, such as moving along a straight line or rotational motion is tested the speed.
It is understood that the first magnetic pole 112B " and the second magnetic pole 113B " are arranged to have difference
Magnetic pole magnetic, i.e., when the first magnetic pole 112B " be in the pole S magnetic pole magnetic when, the second magnetic pole 113B " be in the pole N
Magnetic pole magnetic, and when the first magnetic pole 112B " be in the pole N magnetic pole magnetic when, the second magnetic pole 113B " be in the pole S
Magnetic pole magnetic, the present invention is not intended to limit this.
In detail, the movement coaxially to swing is set in the first magnetic medium 151B " and the second magnetic medium 152B "
Mode, i.e., using the axis between the first magnetic medium 151B " and the second magnetic medium 152B " as axle center, when described first
Magnetic medium 151B " is in the position of the connection first end 1211B " and the first magnetic pole 112B " by using the axis as axle center
When rotationally close to connect the first end 1211B " and the second magnetic pole 113B ", the second magnetic medium 152B "
It is synchronous with the position of the second magnetic pole 113B " by rotating coaxially close to connect in connecting the second end 1212B "
The second end 1212B " and the first magnetic pole 112B ".
Specifically, the magnetic generator 10B " that disturbs further comprises a connecting rod 17B ", wherein the first magnetic medium 151B "
Be arranged at the both ends of the connecting rod 17B " respectively with the second magnetic medium 152B ", with by the connecting rod 17B " to described
The connection of first magnetic medium 151B " and the second magnetic medium 152B ", so that the first magnetic medium 151B " and described second
Magnetic medium 152B " can be by drivingly with a little for fulcrum coaxial swing on the connecting rod 17B ".
It is noted that in this embodiment in accordance with the invention, the first magnetic medium 151B " be arranged to it is described
First end 1211B " is maintained on-state, with can be in the magnetic gap 14B " gliding motility by first magnetic pole
112B " and the second magnetic pole 113B " are alternatively switched in the first end 1211B ";The second magnetic medium 152B "
It is arranged to be maintained on-state with the second end 1212B ", with can be in the magnetic gap 14B " gliding motility by institute
It states the first magnetic pole 112B " and the second magnetic pole 113B " is alternatively switched in the second end 1212B ".Further
Ground, since the magnet assembly 11B " is arranged in the extension of the first end 1211B " and the second end 1212B "
Direction is mutually close with the first end 1211B " and the second end 1212B " respectively, then the magnetic medium 15B " is in described
The sliding of magnetic gap 14B " will not collide with the magnet assembly 11B ", i.e., the described magnet assembly 11B " is in the magnetic medium
The glide direction of 15B " is not extended.In this way, the first magnetic pole 112B " and the second magnetic pole 113B " are described
First magnetic medium 151B " is alternatively switched on when the first end 1211B ", and the first magnetic medium 151B " can be by more
It effortlessly drives, similarly, the first magnetic pole 112B " and the second magnetic pole 113B " are by second magnetic medium
152B " is alternatively switched on when the second end 1212B ", and the second magnetic medium 152B " can also be driven more laborsavingly
It is dynamic, that is to say, that in the motion process of the magnetic medium 15B " will not with the magnetic core 12B " and the magnet assembly 11B " it
Between collide and generate kinetic energy rejection, therefore it is of the invention it is described disturb magnetic generator 10B " with higher generating efficiency and compared with
Low operating noise.
Further, the magnet assembly 11B " includes an a permanent magnet 111B " and magnetic conduction subassembly 114B ", to pass through
Stating permanent magnet 111B " is that the magnetic generator 10B " that disturbs provides magnetic field environment, wherein the permanent magnet 111B " is in the first end
The extending direction of portion 1211B " and the second end 1212B " is arranged at the radial space of the magnetic core 12B ", wherein described
Magnetic conduction subassembly 114B " connects with the permanent magnet 111B " magnetic conduction, to form first magnetic pole in the magnetic conduction subassembly 114B "
112B " and the second magnetic pole 113B " is held, and by the magnetic conduction phase of the magnetic conduction subassembly 114B " and the permanent magnet 111B "
It connects, so that the spy of the forming position of the first magnetic pole 112B " and the second magnetic pole 113B " and the magnetic medium 15B "
Fixed motion mode matches, that is to say, that the magnetic conduction subassembly 114B " is arranged for and the permanent magnet 111B " magnetic conduction
It is connected, to form the first end 1211B " and the second end 1212B " respectively simultaneously close to first magnetic pole
The positional relationship of 112B " and the second magnetic pole 113B ".
In detail, in this embodiment in accordance with the invention, the magnetic conduction subassembly 114B " includes one first magnetic conductive board 1141B "
With one second magnetic conductive board 1142B ", wherein the first magnetic conductive board 1141B " and the second magnetic conductive board 1142B " respectively with it is described
Two magnetic poles (i.e. the pole S with the pole N) magnetic conduction of permanent magnet 111B " is connected, i.e., each magnetic conduction of two magnetic poles of the described permanent magnet 111B " is connected with
One in the first magnetic conductive board 1141B " and the second magnetic conductive board 1142B ", in the first magnetic conductive board 1141B " shape
The second magnetic pole 113B " is formed at the first magnetic pole 112B ", and in the second magnetic conductive board 1142B ".Particularly,
The first magnetic conductive board 1141B " and the second magnetic conductive board 1142B " respectively simultaneously close to the first end 1211B " with
The second end 1212B ", i.e., the described permanent magnet 111B " and two magnetic poles for being arranged at the permanent magnet 111B " respectively
The first magnetic conductive board 1141B " and the second magnetic conductive board 1142B " forms the magnet assembly 11B of " H " shape ", wherein
The left and right sides of " H " shape is the first magnetic conductive board 1141B " and the second magnetic conductive board 1142B " formed, in
Side and the first end 1211B in the front and back side of " H " shape " and the second end 1212B " mutually close, thus
Formed the first end 1211B " and the second end 1212B " respectively simultaneously close to the first magnetic pole 112B " with
The positional relationship of the second magnetic pole 113B ".
In contrast to a upper embodiment, this field skill personnel are it will be further understood that of the invention described disturb magnetic generator
10B " by the magnetic medium 15B " in by the magnetic core 12B " with the magnet assembly 11B " is close to each other forms the magnetic
The movement of gap 14B " so that the medium in the magnetic gap 14B " changes, while the magnetic responsiveness in the magnetic gap 14B " in
The variation of medium in the magnetic gap 14B " and change, and the magnetic responsiveness in the magnetic core 12B " is in the magnetic gap 14B "
The variation in interior magnetic field and change so that be located on the coil 13B " of the magnetic core 12B " magnetic flux hair
Changing, and then produced electricl energy in the coil 13B ", wherein the structure of the magnetic core 12B " and the magnet assembly 11B " according to
Disclosed herein embodiment there are numerous embodiments, the present invention is not intended to limit this.
With reference to shown in Fig. 8 A and Fig. 8 B of description of the invention attached drawing, the one of another embodiment under this invention disturbs magnetic power generation
Machine 10C is illustrated, and wherein Fig. 8 A and Fig. 8 B, which is respectively shown, described disturb structure of the magnetic generator 10C under different conditions and show
It is intended to, wherein the magnetic generator 10C that disturbs includes magnet assembly a 11C, a magnetic core 12C and two coil 13C, wherein described
Magnet assembly 11C includes a permanent magnet 111C, provides magnetic field ring to disturb magnetic generator 10C for described in by the permanent magnet 111C
Border, wherein the magnetic core 12C is arranged to be prepared using permeability magnetic material and including both ends 121C, wherein the magnetic core 12C
The two end 121C are close with the magnet assembly 11C phase respectively, in the magnet assembly 11C's and magnetic core 12C
An at least magnetic gap 14C is formed between the two end 121C, wherein the two coil 13C are located on the magnetic core 12C, in this way
When being changed with the variation of the medium in the magnetic gap 14C described in the magnetic responsiveness in the magnetic gap 14C, the magnetic core 12C
In response to the magnetic field in the magnetic gap 14C variation and the magnetic flux of the two coil 13C is changed, thus in the line
Circle 13C is produced electricl energy.
In detail, in this embodiment in accordance with the invention, the magnet assembly 11C has one first magnetic pole 112C and one
Second magnetic pole 113C, the end 121C of the two of the magnetic core 12C, i.e. a first end 1211C and a second end
1212C, wherein the first end 1211C and the first magnetic pole 112C phase are close, and the second end 1212C then with
The second magnetic pole 113C phase is close, so then first end 1211C and mutually close first magnetic pole therewith
The magnetic gap 14C is formed between 112C, between the second end 1212C and the second magnetic pole 113C mutually close therewith
Form the magnetic gap 14C.
Further, in this embodiment in accordance with the invention, the magnetic generator 10C that disturbs further includes a magnetic medium 15C,
Described in magnetic medium 15C be arranged to using permeability magnetic material prepare, with by the magnetic medium 15C in the magnetic gap 14C
Movement forms the variation of the medium in the magnetic gap 14C, so that magnetic gap 14C described in the magnetic responsiveness in the magnetic gap 14C
The variation of interior medium and change so that the magnetic core 12C in response to the magnetic field in the magnetic gap 14C variation and
It is produced electricl energy in the coil 13C with changing the magnetic flux of the coil 13C.
It is noted that in this embodiment in accordance with the invention, the magnetic core 12C ties up the magnetic medium 15C
Static state is held, so to be able to maintain that the coil 13C for being located on the magnetic core 12C is still reduced to the coil 13C
Anti-fatigue performance requirement, and then disturb the stability of magnetic generator 10C described in enhancing.In addition, the coil 13C be maintained it is quiet
State and so then to have in the structure design for disturbing magnetic generator 10C without the space for being reserved with the coil 13C
Conducive to the volume for disturbing magnetic generator 10C described in diminution.In other words, the constancy of volume of magnetic generator 10C is disturbed described in the maintenance
In the case of, the coil 13C is maintained static and makes described without being reserved in the structure design for disturbing magnetic generator 10C
The space of coil 13C is so then conducive to the volume accounting that the coil 13C of magnetic generator 10C is disturbed described in improving, into
And the generating efficiency of magnetic generator 10C is disturbed described in improving.
In addition, the magnet assembly 11C is equally also maintained static state for the magnetic medium 15C, so that described disturb
It is not necessarily to be reserved with the space of the magnet assembly 11C in the structure design of magnetic generator 10C, is so then conducive to reduce institute
State the volume for disturbing magnetic generator 10C.In other words, described in the case where disturbing the constancy of volume of magnetic generator 10C described in the maintenance
Magnet assembly 11C is maintained static and makes in the structure design for disturbing magnetic generator 10C without being reserved with the magnet group
The space of part 11C is so then conducive to the volume accounting that the magnet assembly 11C of magnetic generator 10C is disturbed described in improving,
And then the generating efficiency of magnetic generator 10C is disturbed described in improving.
Particularly, to further increase the generating efficiency for disturbing magnetic generator 10C, in this embodiment of the invention
In, the magnetic medium 15C is configured in the magnetic gap 14C in close to connect the first magnetic pole 112C and described
The position of first end 1211C with close to connect the second magnetic pole 113C and the second end 1212C position it
Between switch, it is to be understood that when the first magnetic pole 112C and the first end 1211C are by the magnetic medium
When 15C magnetic conduction is connected or the second magnetic pole 113C is connected with the second end 1212C by the magnetic medium 15C magnetic conduction,
The magnetic core 15C using permeability magnetic material preparation is again arranged to due to being connected by the magnetic medium 15C magnetic in described first
Magnetic pole 112C or described second magnetic pole 113C and have biggish magnetic flux, that is to say, that at this time in the magnetic core 15C
Magnetic flux is disconnected and second magnetic pole compared with as the first magnetic pole 112C and first end 1211C
Magnetic flux when 113C and the second end 1212C are also disconnected is larger, therefore by the magnetic medium 15C in the magnetic gap
The movement of 14C, the state that the magnetic core 12C is connected in its described first end 1211C and the first magnetic pole 112C
It switches over, can switch between the state that is connected of the second end 1212C and the second magnetic pole 113C
The biggish magnetic flux change amount of the magnetic core 12C is formed in journey, is formed to improve by the movement of the magnetic medium 15C
The coil 13C magnetic flux variation variable quantity, and then disturb the generating efficiency of magnetic generator 10C described in improving.
It is understood that by the specific motion mode of the magnetic medium 15C enable to the magnetic medium 15C in
The magnetic gap 14C is close to connect the position of the first magnetic pole 112C and the first end 1211C and close to connect
Lead between the second magnetic pole 113C and the position of the second end 1212C and switch, wherein the movement of the magnetic medium 15C
Mode is specific without limiting.
That is, the magnetic flux for the coil 13C that the magnetic medium 15C is capable of forming in the movement of the magnetic gap 14C
The variation of amount, and the magnetic medium 15C enables to the magnetic core 12C in it in the specific motion mode of the magnetic gap 14C
State and the second end 1212C that the first end 1211C and the first magnetic pole 112C are connected and described the
It is switched between the state that two magnetic pole 113C are connected, is formed by institute by the movement of the magnetic medium 15C to improve
The variable quantity of the variation of the magnetic flux of coil 13C is stated, but the magnetic core 12C is in its first end 1211C and described first
Between the state that the state and the second end 1212C and the second magnetic pole 113C that magnetic pole 112C is connected are connected
Switching, can be realized that the present invention is not intended to limit this by the multi-motion mode of the magnetic medium 15C.
As in some embodiments of the invention, the magnetic medium 15C is arranged to the reciprocating manner using straight line,
With when close to the position for connecting the first magnetic pole 112C and first end 1211C, far from connecting second magnetic
The position of extreme 113C and the second end 1212C;And close to connection the second magnetic pole 113C and the second end
When the position of portion 1212C, far from the position for connecting the first magnetic pole 112C and the first end 1211C.
And in some embodiments of the invention, the magnetic medium 15C is arranged to the reciprocating manner using rotation,
With by rotationally when close to the position for connecting the first magnetic pole 112C and first end 1211C, far from connecting institute
State the position of the second magnetic pole 113C and the second end 1212C;And close to connection the second magnetic pole 113C and institute
When stating the position of the second end 1212C, far from the position for connecting the first magnetic pole 112C and the first end 1211C.
That is, the magnetic generator 10C that disturbs of the invention is able to respond mechanical energy turn in multi-motion mode
It is changed to electric energy, is changed into the loss of mechanical energy caused by specific motion mode, Jin Erti to avoid by different motion modes
The generating efficiency of magnetic generator 10C is disturbed described in height, further, since the magnetic generator 10C that disturbs can adapt in a variety of fortune
Convert mechanical energy into flowing mode electric energy, it is of the invention described to disturb magnetic generator 10C and can also be used for detecting different works
It acts ground and generates corresponding electric signal, to disturb the corresponding actuation of the acquisition of electric signal caused by magnetic generator 10C by described
The information of movement, such as moving along a straight line or rotational motion is tested the speed.
It is understood that the first magnetic pole 112C and the second magnetic pole 113C be arranged to have it is different
Magnetic pole magnetic, i.e., when the first magnetic pole 112C is in the magnetic pole magnetic of the pole S, the second magnetic pole 113C is in the magnetic of the pole N
It is extremely magnetic, and when the first magnetic pole 112C is in the magnetic pole magnetic of the pole N, the second magnetic pole 113C is in the magnetic pole of the pole S
Magnetism, the present invention are not intended to limit this.
Particularly, in this embodiment in accordance with the invention, the first end 1211C and the second end 1212C quilt
It is set as extending in the same direction from the magnetic core 12C, so to be able to maintain that the first end 1211C and the second end
1212C in centainly it is suitable apart from while increase the length of the magnetic core 12C, to be conducive to shorten the magnetic medium 15C
Movement travel while increase the number of turns of the coil 13C.It is understood that due to the movement row of the magnetic medium 15C
Journey is reduced, therefore under the premise of the movement velocity of the magnetic medium 15C is constant, the change of the magnetic flux of the magnetic core 12C
The rate of change is promoted, and the number of turns of the coil 13C is increased in addition, so that described disturb magnetic generator 10C's
Generating efficiency is improved.
It is noted that in this embodiment in accordance with the invention, the magnet assembly 11C further comprises a magnetic conduction group
Part 114C, wherein the magnetic conduction subassembly 114C connects with the permanent magnet 111C magnetic conduction, to be formed in the magnetic conduction subassembly 114C
The first magnetic pole 112C and the second magnetic pole 113C, and by the magnetic conduction subassembly 114C and the permanent magnet 111C
Magnetic conduction connect so that the forming position of the first magnetic pole 112C and the second magnetic pole 113C and the magnetic medium
The specific motion mode of 15C matches, that is to say, that the magnetic conduction subassembly 114C is arranged for and the permanent magnet 111C
Magnetic conduction be connected, with formed the first end 1211C with the first magnetic pole 112C phase the close and described the second end 1212C
The close positional relationship with the second magnetic pole 113C phase.
In detail, in this embodiment in accordance with the invention, the magnetic conduction subassembly 114C include one first magnetic conductive board 1141C and
One second magnetic conductive board 1142C, wherein the first magnetic conductive board 1141C and the second magnetic conductive board 1142C respectively with the permanent magnetism
Two magnetic poles (i.e. the pole S with the pole N) magnetic conduction of body 111C is connected, i.e., each magnetic conduction of two magnetic poles of the described permanent magnet 111C is connected with described
One in one magnetic conductive board 1141C and the second magnetic conductive board 1142C, in the first magnetic conductive board 1141C formed with it is described
Close the first magnetic pole 112C of first end 1211C phase, and formed and described second in the second magnetic conductive board 1142C
Close the second magnetic pole 113C of end 1212C phase.Such then described first magnetic pole 112 and second magnetic pole
113 have different magnetic pole magnetics, and form the first end 1211C and the first magnetic pole 112C phase is close and described
Positional relationship the second end 1212C close with the second magnetic pole 113C phase and specific fortune with the magnetic medium 15C
Flowing mode matches.
That is, the magnetic conduction subassembly 114C connects with the magnetic conduction of the permanent magnet 111C so that first magnetic pole
The specific motion mode of the forming position and the magnetic medium 15C of 112C and the second magnetic pole 113C matches, and works as
When the position of two magnetic poles of the permanent magnet 111C can directly match with the specific motion mode of the magnetic medium 15C,
The magnetic conduction subassembly 114C can and be not set, then the first magnetic pole 112C and the second magnetic pole 113C are respectively formed
In two magnetic poles of the permanent magnet 111C, such as when the permanent magnet 111C is arranged to U-shaped magnet, the first end
The 1211C and the second end 1212C with can corresponding respectively to two magnetic poles of the U-shaped magnet two magnetic poles with the U-shaped magnet
Mutually close respectively, i.e. two magnetic poles of the U-shaped magnet are the first magnetic pole 112C and the second magnetic pole 113C, so
Matched with the specific motion mode with the magnetic medium 15C, the present invention is not intended to limit this.
This field skill personnel should be appreciated that in this embodiment in accordance with the invention, the magnetic core 12C and the magnet group
Part 11C is close to each other and forms the magnetic gap 14C, the magnetic medium 15C in the magnetic gap 14C movement so that the magnetic gap
When medium in 14C changes, magnetic responsiveness in the magnetic gap 14C in the medium in the magnetic gap 14C variation and send out
Changing, magnetic responsiveness in the magnetic core 12C in the magnetic field in the magnetic gap 14C variation and change so that
The magnetic flux for being located on the coil 13C of the magnetic core 12C changes, and then produces electricl energy in the coil 13C,
Described in magnetic medium 15C quantity and motion mode be not construed as limiting the invention.
It is under this invention with reference to shown in Fig. 9 A and Fig. 9 B of Figure of description of the invention further to disclose the present invention
The distressed structure for disturbing magnetic generator 10C of this embodiment is illustrated, and main presentation is described to disturb magnetic power generation
Structural schematic diagram of the machine 10C under different conditions.Specifically, the magnetic generator 10C that disturbs further comprises a drive rod 16C,
The wherein Partner 162C that the drive rod 16C has a drive end 161C and one opposite with the end the active 161C, wherein
The magnetic medium 15C is arranged at the Partner 162C, wherein the drive rod 16C is set to stir the drive rod
Drive to the drive end 161C of 16C the Partner 162C close to the first end 1211C and first magnetic pole
Hold the position of 112C and switch between the second end 1212C and the position of the second magnetic pole 113C, in this way with
When the magnetic medium 15C is arranged at the Partner 162C, the magnetic medium 15C is in the magnetic gap 14C in close to institute
State the position of first end 1211C and the first magnetic pole 112C and close to the second end 1212C and second magnetic
Switching between the position of extreme 113C is controlled by the drive rod 16C, with stirring the drive rod 16C in the coil
13C is produced electricl energy.
With reference to shown in Figure 10 A and Figure 10 B of Figure of description of the invention, the one of another embodiment under this invention disturbs magnetic
Generator 10D is illustrated, wherein the magnetic generator 10D that disturbs includes magnet assembly a 11D, a magnetic core 12D and two lines
13D is enclosed, wherein the magnet assembly 11D includes a permanent magnet 111D, to disturb magnetic power generation by the permanent magnet 111D to be described
Machine 10D provides magnetic field environment, wherein the magnetic core 12D is arranged to be prepared using permeability magnetic material and including both ends 121D,
Described in magnetic core 12D the two end 121D it is close with the magnet assembly 11D phase respectively, in the magnet assembly 11D
An at least magnetic gap 14D is formed between the two end 121D of the magnetic core 12D, wherein the two coil 13D are located on
The magnetic core 12D is become in this way with working as the variation of the medium in magnetic gap 14D described in the magnetic responsiveness in the magnetic gap 14D
When change, the magnetic core 12D in response to the magnetic field in the magnetic gap 14D variation and make the magnetic flux quilt of the two coil 13D
Change, to be produced electricl energy in the coil 13D.
In detail, in this embodiment in accordance with the invention, the magnet assembly 11D has two first magnetic pole 112D and one
Second magnetic pole 113D, the end 121D of the two of the magnetic core 12D, i.e. a first end 1211D and a second end
1212D, wherein the first end 1211D corresponds to one of two described first magnetic pole 112D and second magnetic pole simultaneously
113D it is close with the first magnetic pole 112D described in this and the second magnetic pole 113D phase, wherein the second end 1212D
Then simultaneously corresponding to the second magnetic pole 113D and another first magnetic pole 112D with the second magnetic pole 113D
Close with the first magnetic pole 112D phase described in this, so then first end 1211D is respectively with therewith mutually close described
Form the magnetic gap 14D between one magnetic pole 112D and the second magnetic pole 113D, the second end 1212D also respectively and
The magnetic gap 14D is formed between mutually close the first magnetic pole 112D and the second magnetic pole 113D therewith.
Further, the magnetic generator 10D that disturbs further includes an at least magnetic medium 15D, wherein the magnetic medium 15D is set
It is set to and is prepared using permeability magnetic material, to form the magnetic gap 14D in the movement in the magnetic gap 14D by the magnetic medium 15D
The variation of interior medium so that the variation of the medium in magnetic gap 14D described in magnetic responsiveness in the magnetic gap 14D and occur
Variation so that the magnetic core 12D in response to the magnetic field in the magnetic gap 14D variation and change the magnetic of the coil 13D
Produced electricl energy in the coil 13D to flux.
It is noted that in this embodiment in accordance with the invention, the magnetic core 12D ties up the magnetic medium 15D
Static state is held, so to be able to maintain that the coil 13D for being located on the magnetic core 12D is still reduced to the coil 13D
Anti-fatigue performance requirement, and then disturb the stability of magnetic generator 10D described in enhancing.In addition, the coil 13D be maintained it is quiet
State and so then to have in the structure design for disturbing magnetic generator 10D without the space for being reserved with the coil 13D
Conducive to the volume for disturbing magnetic generator 10D described in diminution.In other words, the constancy of volume of magnetic generator 10D is disturbed described in the maintenance
In the case of, the coil 13D is maintained static and makes described without being reserved in the structure design for disturbing magnetic generator 10D
The space of coil 13D is so then conducive to the volume accounting that the coil 13D of magnetic generator 10D is disturbed described in improving, into
And the generating efficiency of magnetic generator 10D is disturbed described in improving.
In addition, the magnet assembly 11D is equally also maintained static state for the magnetic medium 15D, so that described disturb
It is not necessarily to be reserved with the space of the magnet assembly 11D in the structure design of magnetic generator 10D, is so then conducive to reduce institute
State the volume for disturbing magnetic generator 10D.In other words, described in the case where disturbing the constancy of volume of magnetic generator 10D described in the maintenance
Magnet assembly 11D is maintained static and makes in the structure design for disturbing magnetic generator 10D without being reserved with the magnet group
The space of part 11D is so then conducive to the volume accounting that the magnet assembly 11D of magnetic generator 10D is disturbed described in improving,
And then the generating efficiency of magnetic generator 10D is disturbed described in improving.
Particularly, in this embodiment in accordance with the invention, the quantity of the magnetic medium 15D is two, i.e. one first magnetic is situated between
Matter 151D and one second magnetic medium 152D, wherein the first magnetic medium 151D and the second magnetic medium 152D are set to work as
The first magnetic medium 151D be in close to connect the first end 1211D and with the first end 1211D phase it is close
The first magnetic pole 112D position when, the second magnetic medium 152D is synchronous to be located at close to connect the second end
The position of 1212D and the second magnetic pole 113D close with the second end 1212D phase, and work as first magnetic medium
151D is located at close to connect the first end 1211D and second magnetic pole close with the first end 1211D phase
When holding the position of 113D, the second magnetic medium 152D is synchronous be located at close to connect the second end 1212D and with it is described
The position of close the first magnetic pole 112D of the second end 1212D phase.
That is, in this embodiment in accordance with the invention, the magnetic medium 15D is set will with specific motion mode
The magnetic core 12D is in the first end 1211D and two first magnetic pole 112D close to the first end 1211D's
One is connected and state that the second end 1212D and the second magnetic pole 113D are connected and the first end
1211D and the second magnetic pole 113D is connected and leans in the second end 1212D and two first magnetic pole 112D
It is switched between a state being connected of the nearly the second end 1212D, with specific by this of the magnetic medium 15D
Motion mode form the reversed switching in the magnetic field in the magnetic core 12D, and then the power generation effect of magnetic generator 10D is disturbed described in improving
Rate.
Enable to the magnetic core 12D in the first end by the specific motion mode of the magnetic medium 15D
It is connected in the first magnetic pole 112D of 1211D and two close to one of the first end 1211D and the second end
The state and the first end 1211D and the second magnetic pole 113D that 1212D and the second magnetic pole 113D are connected
It is connected and in the second end 1212D and two first magnetic pole 112D close to one of the second end 1212D
It is switched between the state being connected, wherein the motion mode of the magnetic medium 15D is specific without limiting.
That is, the magnetic flux for the coil 13D that the magnetic medium 15D is capable of forming in the movement of the magnetic gap 14D
The variation of amount, and the magnetic medium 15D enables to the magnetic core 12D in institute in the specific motion mode of the magnetic gap 14D
One for stating the close first end 1211D in the first magnetic pole 112D of first end 1211D and two is connected and institute
State the state and the first end 1211D and described second that the second end 1212D and the second magnetic pole 113D are connected
Magnetic pole 113D is connected and in the second end 1212D and two first magnetic pole 112D close to the second end
It is switched between a state being connected of 1212D, to be formed by the specific motion mode of the magnetic medium 15D
The reversed switching in the magnetic field in the magnetic core 12D, and then improve and be formed by the coil by the movement of the magnetic medium 15D
The variable quantity of the variation of the magnetic flux of 13D, but the magnetic core 12D is in the first end 1211D and two first magnetic pole
It is connected in 112D close to one of the first end 1211D and the second end 1212D and second magnetic pole
The state and the first end 1211D and the second magnetic pole 113D is connected and the second end that 113D is connected
Cutting between a state being connected of the second end 1212D in the first magnetic pole 112D of 1212D and two
Transducing is enough to be realized that the present invention is not intended to limit this by the multi-motion mode of the magnetic medium 15D.
In other words, the magnetic generator 10D that disturbs of the invention is able to respond mechanical energy turn in multi-motion mode
It is changed to electric energy, is changed into the loss of mechanical energy caused by specific motion mode, Jin Erti to avoid by different motion modes
The generating efficiency of magnetic generator 10D is disturbed described in height, further, since the magnetic generator 10D that disturbs can adapt in a variety of fortune
Convert mechanical energy into flowing mode electric energy, it is of the invention described to disturb magnetic generator 10D and can also be used for detecting different works
It acts ground and generates corresponding electric signal, to disturb the corresponding actuation of the acquisition of electric signal caused by magnetic generator 10D by described
The information of movement, such as moving along a straight line or rotational motion is tested the speed.
It is understood that the first magnetic pole 112D and the second magnetic pole 113D be arranged to have it is different
Magnetic pole magnetic, i.e., when the first magnetic pole 112D is in the magnetic pole magnetic of the pole S, the second magnetic pole 113D is in the magnetic of the pole N
It is extremely magnetic, and when the first magnetic pole 112D is in the magnetic pole magnetic of the pole N, the second magnetic pole 113D is in the magnetic pole of the pole S
Magnetism, the present invention are not intended to limit this.
Particularly, in this embodiment in accordance with the invention, the first end 1211D and the second end 1212D quilt
It is set as extending in the same direction in the magnetic core 12D, so to be able to maintain that the first end 1211D and the second end
1212D in centainly it is suitable apart from while increase the length of the magnetic core 12D, to be conducive to shorten the magnetic medium 15D
Movement travel while increase the number of turns of the coil 13D.It is understood that due to the movement row of the magnetic medium 15D
Journey is reduced, therefore under the premise of the movement velocity of the magnetic medium 15D is constant, the change of the magnetic flux of the magnetic core 12D
The rate of change is promoted, and the number of turns of the coil 13D is increased in addition, so that described disturb magnetic generator 10D's
Generating efficiency is improved.
Further, in this embodiment in accordance with the invention, the second magnetic pole 113D and two first magnetic pole
112D is set at same plane, to be conducive to the first magnetic medium 151D and the second magnetic medium 152D in described
Sliding in magnetic gap 14D to reduce the movement loss of the magnetic medium 15D, and then disturbs magnetic generator 10D for machine described in raising
Tool kinetic energy is converted to the conversion ratio of electric energy.
In addition, in this embodiment in accordance with the invention, the magnet assembly 11D is in the first magnetic pole 112D and described
It is further provided with filler 115D between second magnetic pole 113D, wherein the filler 115D is arranged to non-magnetic material
Material, and with the second magnetic pole 113D and two first magnetic pole 112D in the second magnetic pole 113D and two described the
A complete plane is formed in plane locating for one magnetic pole 112D, so that it is complete in this to be further conducive to the magnetic medium 15D
Whole plane slides, and then disturbs the conversion ratio that mechanical kinetic energy is converted to electric energy by magnetic generator 10D described in raising.
Further, in this embodiment in accordance with the invention, the first magnetic medium 151D and second magnetic medium
152D is set using coaxial reciprocating manner in the same direction, when the first magnetic medium 151D is in the connection first end
The position of 1211D and the first magnetic pole 112D mutually close with first magnetic medium 151, movement ground is close to connect
When stating first end 1211D and the second magnetic pole 113D, the second magnetic medium 152D is in the connection the second end
The position of 1212D and the second magnetic pole 113D, with the movement of the first magnetic medium 151D it is coaxial in the same direction and synchronously lean on
Closely to connect the second end 1212D and the first magnetic pole 112D close with the second end 1212D phase;And work as
The first magnetic medium 151D is leaned on to movement in the position for connecting the first end 1211D and the second magnetic pole 113D
When closely to connect the first end 1211D and close with the first end 1211D phase the first magnetic pole 112D, institute
The second magnetic medium 152D is stated in connecting the second end 1212D and close described first with the second end 1212D phase
The position of magnetic pole 112D, it is coaxial in the same direction and synchronously close to connect described second with the movement of the first magnetic medium 151D
End 1212D and the second magnetic pole 113D.
In detail, in this embodiment in accordance with the invention, the magnetic generator 10D that disturbs further comprises a connecting rod 17D,
Described in the first magnetic medium 151D and the second magnetic medium 152D be arranged at the both ends of the connecting rod 17D respectively, with by
Connection of the connecting rod 17D to the first magnetic medium 151D and the second magnetic medium 152D, so that first magnetic medium
151D and the second magnetic medium 152D can be moved synchronously drivingly.
It is noted that in some embodiments of the invention, the first magnetic medium 151D and second magnetic are situated between
Matter 152D can also be set to be schemed with reference to shown in Figure 10 A of Figure of description of the invention using the motion mode of rotation
In the state of disturbing magnetic generator 10D described in shown in 10A, as the first magnetic medium 151D and the second magnetic medium 152D quilt
It is arranged using the center line A-A of the magnetic core 12D when intersection point of the connecting rod 17D is circled as the center of circle, first magnetic
Medium 151D can be connected to being circled with the center of circle with the second magnetic medium 152D in the first magnetic medium 151D
The first end 1211D and the first magnetic pole 112D, and second magnetic medium be connected to the second end 1212D and
The state of the second magnetic pole 113D is connected to the second end 1212D and described first with the first magnetic medium 151D
Magnetic pole 112D, and the second magnetic medium 152D is connected to the shape of the first end 1211D and the second magnetic pole 113D
It is switched between state.
It is described shown in Figure 10 A to disturb magnetic generator shown in Figure 10 A with further reference to Figure of description of the invention
In the state of 10D, when the first magnetic medium 151D and the second magnetic medium 152D are set with the center of the magnetic core 12D
Line A-A is when the intersection point of the connecting rod 17D circles for the center of circle, the first magnetic medium 151D and second magnetic medium
152D can be connected to the first end 1211D and described the in the first magnetic medium 151D with circling with the center of circle
Two magnetic pole 113D, and the second magnetic medium 152D is connected to the second end 1212D's and the first magnetic pole 112D
State is connected to the second end 1212D and the second magnetic pole 113D, and described second with the first magnetic medium 151D
Magnetic medium 152D is connected between the first end 1211D and the state of the first magnetic pole 112D and switches over.
In this way, this field skill personnel should can further understand, the quantity and structure of the magnetic medium 15D are simultaneously unlimited
System, i.e., the described first magnetic medium 151D and the second magnetic medium 152D are the magnetic medium 15D, between the two can be mutual
Replacement, that is to say, that the switching energy disturbed between state shown in magnetic generator 10D state shown in Figure 10 A and Figure 10 B
It is enough to be realized that the present invention is not intended to limit this by the multi-motion mode of the magnetic medium 15D.
It is noted that in this embodiment in accordance with the invention, the magnet assembly 11D further comprises a magnetic conduction group
Part 114D, wherein the magnetic conduction subassembly 114D connects with the permanent magnet 111D magnetic conduction, to be formed in the magnetic conduction subassembly 114D
The first magnetic pole 112D and the second magnetic pole 113D, and by the magnetic conduction subassembly 114D and the permanent magnet 111D
Magnetic conduction connect so that the forming position of the first magnetic pole 112D and the second magnetic pole 113D and the magnetic medium
The specific motion mode of 15D matches, that is to say, that the magnetic conduction subassembly 114D is arranged for and the permanent magnet 111D
Magnetic conduction is connected, to form the first end 1211D while correspond to one of two described first magnetic pole 112D and described second
The ground magnetic pole 113D, and the second end close with the first magnetic pole 112D described in this and the second magnetic pole 113D phase
1212D with corresponding to the second magnetic pole 113D and another first magnetic pole 112D simultaneously with second magnetic pole
Positional relationship 113D close with the first magnetic pole 112D phase described in this.
In detail, in this embodiment in accordance with the invention, the magnetic conduction subassembly 114D include one first magnetic conductive board 1141D and
One second magnetic conductive board 1142D, wherein the first magnetic conductive board 1141D and the second magnetic conductive board 1142D respectively with the permanent magnetism
Two magnetic poles (i.e. the pole S with the pole N) magnetic conduction of body 111D is connected, i.e., each magnetic conduction of two magnetic poles of the described permanent magnet 111D is connected with described
One in one magnetic conductive board 1141D and the second magnetic conductive board 1142D, in the first magnetic conductive board 1141D formed respectively with
The two first end 1211D close with the second end 1212D phase first magnetic pole 112D, and in described second
Magnetic conductive board 1142D forms second magnetic pole close with the first end 1211D and the second end 1212D phase simultaneously
Hold 113D.Such then described first magnetic pole 112 and second magnetic pole 113 have different magnetic pole magnetics, and form institute
One of state first end 1211D while corresponding to the two first magnetic pole 112D and the second magnetic pole 113D with the institute
State the first magnetic pole 112D and the second magnetic pole 113D phase be close, and the second end 1212D correspond to simultaneously it is described
Second magnetic pole 113D and another first magnetic pole 112D with the second magnetic pole 113D and first magnetic pole
The positional relationship for holding 112D phase close, to match with the specific motion mode of the magnetic medium 15D.
Shown in Figure 11 with further reference to Figure of description of the invention, a upper embodiment under this invention it is further
The described of one variant embodiment of deformation disturbs magnetic generator 10D and is illustrated, and disturbs magnetic generator wherein described and further comprises
One reset element 18D, wherein the reset element 18D is set to maintain the first magnetic medium 151D and second magnetic to be situated between
An original state of matter 152D, wherein under the original state, the first magnetic medium 151D, which is maintained at, connects described the
The position of one end 1211D and the first magnetic pole 112D, the second magnetic medium 152D are maintained at connection described second
The position of end 1212D and the second magnetic pole 113D, so with when the first magnetic medium 151D be driven to by external force it is close
The position of the first end 1211D and the second magnetic pole 113D, and the second magnetic medium 152D is synchronized to be driven to and lean on
When the position of the nearly the second end 1212D and the first magnetic pole 112D, the reset element 18D can be released in external force
After reset the first magnetic medium 151D and the second magnetic medium 152D to the original state.
It is noted that in this embodiment in accordance with the invention, the reset element 18D is arranged to a spring
181D, wherein the spring 181D is arranged in the first magnetic medium 151D and the second magnetic medium 152D in described first
Under beginning state, when the first magnetic medium 151D is driven to by external force close to the first end 1211D and second magnetic pole
The position of 113D, and the second magnetic medium 152D is synchronized to be driven to close to the second end 1212D and first magnetic pole
When holding the position of 112D, the spring 181D is compressed, and so with after the external force is released from, the spring 181D is by described the
One magnetic medium 151D and the second magnetic medium 152D return back to the original state.
Shown in Figure 12 with further reference to Figure of description of the invention, a upper embodiment under this invention it is further
The described of one variant embodiment of deformation disturbs magnetic generator 10D and is illustrated, and disturbs magnetic generator wherein described and further comprises
One drive rod 16D, wherein the drive rod 16D have a drive end 161D and one it is opposite with the drive end 161D one passively
162D is held, wherein the drive rod 16D is set to drive the quilt with stirring the drive end 161D of the drive rod 16D
Moved end 162D is swung between the first end 1211D and the second end 1212D, wherein the connecting rod 17D is pivotable
Ground is arranged at the Partner 162D of the drive rod 16D, by the driving end 161D's of the drive rod 16D
It stirs, drives moving synchronously for the first magnetic medium 151D and the second magnetic medium 152D.
This field skill personnel should be appreciated that in this embodiment in accordance with the invention, the magnetic core 12D and the magnet group
Part 11D is close to each other and forms the magnetic gap 14D, the magnetic medium 15D in the magnetic gap 14D movement so that the magnetic gap
When medium in 14D changes, magnetic responsiveness in the magnetic gap 14D in the medium in the magnetic gap 14D variation and send out
Changing, magnetic responsiveness in the magnetic core 12D in the magnetic field in the magnetic gap 14D variation and change so that
The magnetic flux for being located on the coil 13D of the magnetic core 12D changes, and then produces electricl energy in the coil 13D,
Described in the quantity of magnetic medium 15D and the quantity of motion mode and the coil 13D be not construed as limiting the invention.
With reference to shown in Figure 13 A and Figure 13 B of Figure of description of the invention, the one of another embodiment under this invention disturbs magnetic
Generator 10E is illustrated, wherein the magnetic generator 10E that disturbs includes magnet assembly a 11E, a magnetic core 12E and two lines
13E is enclosed, wherein the magnet assembly 11E includes a permanent magnet 111E, to disturb magnetic power generation by the permanent magnet 111E to be described
Machine 10E provides magnetic field environment, wherein the magnetic core 12E is arranged to be prepared using permeability magnetic material and including both ends 121E,
Described in magnetic core 12E the two end 121E it is close with the magnet assembly 11E phase respectively, in the magnet assembly 11E
An at least magnetic gap 14E is formed between the two end 121E of the magnetic core 12E, wherein the two coil 13E are located on
The magnetic core 12E is become in this way with working as the variation of the medium in magnetic gap 14E described in the magnetic responsiveness in the magnetic gap 14E
When change, the magnetic core 12E in response to the magnetic field in the magnetic gap 14E variation and make the magnetic flux quilt of the two coil 13E
Change, to be produced electricl energy in the coil 13E.
In detail, in this embodiment in accordance with the invention, the two of the magnetic core 12E end 121E, i.e. a first end
A portion 1211E and the second end 1212E, wherein the first end 1211E and the second end 1212E are arranged in the same direction
The magnetic core 12E is extended, so to be able to maintain that the first end 1211E and the second end 1212E in certain suitable
It is suitable apart from while increase the length of the magnetic core 12E, to be conducive to shorten the length in space shared by the magnetic core 12E
While increase the number of turns of the coil 13E.It is understood that since the number of turns of the coil 13E is increased, to make
The generating efficiency for disturbing magnetic generator 10E is obtained to be improved.
In detail, in this embodiment in accordance with the invention, the magnet assembly 11E has one first magnetic pole 112E and one
Second magnetic pole 113E, wherein the first end 1211E corresponds to the first magnetic pole 112E and second magnetic simultaneously
Extreme 113E it is close with the first magnetic pole 112E and the second magnetic pole 113E phase, the second end 1212E is same
When corresponding to the first magnetic pole 112E and the second magnetic pole 113E with the first magnetic pole 112E and described
Two magnetic pole 113E phases are close.Specifically, the magnet assembly 11E is arranged at the first end 1211E and described second
Between the 1212E of end, so then first end 1211E respectively with the first magnetic pole 112E and second magnetic pole
Form the magnetic gap 14E between 113E, the second end 1212E also respectively with the first magnetic pole 112E and described second
The magnetic gap 14E is formed between magnetic pole 113E.
Further, the magnetic generator 10E that disturbs further includes an at least magnetic medium 15E, wherein the magnetic medium 15E is set
It is set to and is prepared using permeability magnetic material, with the movement by the magnetic medium 15E in the magnetic gap 14E relative to the magnetic gap 14E
The variation of the medium in the magnetic gap 14E is formed, so that in magnetic gap 14E described in the magnetic responsiveness in the magnetic gap 14E
The variation of medium and change so that the magnetic core 12E in response to the magnetic field in the magnetic gap 14E variation and change
Produced electricl energy in the coil 13E to the magnetic flux of the coil 13E.
It is noted that in this embodiment in accordance with the invention, the magnetic medium 15E is arranged to be shaped in institute
State the end 121E of magnetic core 12E, so with by the magnet assembly 11 in the first end 1211E and described second
Movement between the 1212E of end forms movement of the magnetic medium 15E in the magnetic gap 14E relative to the magnetic gap 14E, into
And form the variation of the medium in the magnetic gap 14E.
Particularly, in this embodiment in accordance with the invention, the magnetic core 12E is maintained the magnet assembly 11E quiet
State so resists the coil 13E with being able to maintain that the coil 13E for being located on the magnetic core 12E is still reduced
The requirement of fatigue behaviour, and then the stability of magnetic generator 10E is disturbed described in enhancing.In addition, the coil 13E be maintained it is static and
So that being not necessarily to be reserved with the space of the coil 13E in the structure design for disturbing magnetic generator 10E, be so then conducive to
The volume of magnetic generator 10E is disturbed described in diminution.In other words, the case where disturbing the constancy of volume of magnetic generator 10E described in the maintenance
Under, the coil 13E is maintained static and makes in the structure design for disturbing magnetic generator 10E without being reserved with the coil
The space of 13E is so then conducive to the volume accounting that the coil 13E of magnetic generator 10E is disturbed described in improving, Jin Erti
The generating efficiency of magnetic generator 10E is disturbed described in height.
Further, in this embodiment in accordance with the invention, the quantity of the magnetic medium 15E is three, i.e. one first magnetic
Medium 151E and two the second magnetic medium 152E, wherein the first magnetic medium 151E is arranged to from the first end
1211E extends to the magnetic gap 14E and is integral with magnetic core 12E integrated molding, wherein two second magnetic mediums
152E is separately arranged as extending from the second end 1212E to the magnetic gap 14E and being integrally molded so as with the magnetic core 12E
One is whole.
Particularly, it is further arranged between the magnetic medium 15E and the magnet assembly 11E when first magnetic pole
112E is held to be in close to the first magnetic medium 151E so that the first magnetic pole 112E and the first end 1211E quilt
When the position that the first magnetic medium 151E is connected, the second magnetic pole 113E is in close to two second magnetic mediums
One in 152E so that the second magnetic pole 113E and the second end 1212E by the second magnetic medium 152E described in this
The position connected;And when the second magnetic pole 113E is in close to the first magnetic medium 151E so that second magnetic
When the position that the extreme 113E and first end 1211E is connected by the first magnetic medium 151E, first magnetic pole
112E is in another in the two second magnetic medium 152E so that the first magnetic pole 112E and described second
End 1212E is by the position that the second magnetic medium 152E is connected described in this.
That is, in this embodiment in accordance with the invention, the magnetic core 12E and the magnetic medium 15E are maintained static state,
The magnet assembly 11E is set with the movement between the first end 1211E and the second end 1212E, by institute
Magnetic core 12E is stated to be connected in the first end 1211E and the first magnetic pole 112E, and the second end 1212E with
The state and the first end 1211E and the second magnetic pole 113E that the second magnetic pole 113E is connected are connected,
And switched between the state that is connected of the second end 1212E and the first magnetic pole 112E, so by institute
It states movement of the magnet assembly 11E between the first end 1211E and the second end 1212E and forms the magnetic core 12E
The reversed switching in interior magnetic field, and then the generating efficiency of magnetic generator 10E is disturbed described in raising.
It is understood that the first magnetic pole 112E and the second magnetic pole 113E be arranged to have it is different
Magnetic pole magnetic, i.e., when the first magnetic pole 112E is in the magnetic pole magnetic of the pole S, the second magnetic pole 113E is in the magnetic of the pole N
It is extremely magnetic, and when the first magnetic pole 112E is in the magnetic pole magnetic of the pole N, the second magnetic pole 113E is in the magnetic pole of the pole S
Magnetism, the present invention are not intended to limit this.
Further, in this embodiment in accordance with the invention, the magnet assembly 11E is set using reciprocating motion side
Formula, between the first end 1211E and the second end 1212E, along the first magnetic pole 112E and described
The line direction of two magnetic pole 113E moves back and forth, so to be situated between when the first magnetic pole 112E is in close to first magnetic
Matter 151E is so that the first magnetic pole 112E and the first end 1211E were connected by the first magnetic medium 151E
When position, the second magnetic pole 113E be in one in the two second magnetic medium 152E so that second magnetic
The extreme 113E and the second end 1212E is by the position that the second magnetic medium 152E is connected described in this;And work as second magnetic
Extreme 113E is in close to the first magnetic medium 151E so that the second magnetic pole 113E and first end 1211E
When the position connected by the first magnetic medium 151E, the first magnetic pole 112E is in close to two second magnetic mediums
In 152 another so that the first magnetic pole 112E and the second end 1212E by the second magnetic medium described in this
The position that 152E is connected.
It is noted that in this embodiment in accordance with the invention, the magnet assembly 11E further comprises a magnetic conduction group
Part 114E, wherein the magnetic conduction subassembly 114E connects with the permanent magnet 111E magnetic conduction, to be formed in the magnetic conduction subassembly 114E
The first magnetic pole 112E and the second magnetic pole 113E, and by the magnetic conduction subassembly 114E and the permanent magnet 111E
Magnetic conduction connect so that the forming position of the first magnetic pole 112E and the second magnetic pole 113E and the magnetic medium
The position of 15E matches.That is, the magnetic conduction subassembly 114E is arranged for being connected with the permanent magnet 111E magnetic conduction,
With form the first end 1211E and meanwhile with corresponding to the first magnetic pole 112E and the second magnetic pole 113E with institute
State the first magnetic pole 112E and the second magnetic pole 113E phase be close, and the second end 1212E correspond to simultaneously it is described
First magnetic pole 112E and the second magnetic pole 113E with the first magnetic pole 112E and the second magnetic pole 113E
Mutually close positional relationship.
In detail, in this embodiment in accordance with the invention, the magnetic conduction subassembly 114E include one first magnetic conductive board 1141E and
One second magnetic conductive board 1142E, wherein the first magnetic conductive board 1141E and the second magnetic conductive board 1142E respectively with the permanent magnetism
Two magnetic poles (i.e. the pole S with the pole N) magnetic conduction of body 111E is connected, i.e., each magnetic conduction of two magnetic poles of the described permanent magnet 111E is connected with described
One in one magnetic conductive board 1141E and the second magnetic conductive board 1142E, in the first magnetic conductive board 1141E formed simultaneously with
The the first magnetic pole 112E first end 1211E close with the second end 1212E phase, and led in described second
Magnetic sheet 1142E forms second magnetic pole close with the first end 1211E and the second end 1212E phase simultaneously
113E, so then first magnetic pole 112 and second magnetic pole 113 have different magnetic pole magnetics.
Particularly, the first magnetic conductive board 1141E and the second magnetic conductive board 1142E is respectively simultaneously close to described first
The end 1211E and the second end 1212E, i.e., the described permanent magnet 111E and it is arranged at the two of the permanent magnet 111E respectively
The the first magnetic conductive board 1141E and the second magnetic conductive board 1142E of magnetic pole form the magnet assembly 11E of " H " shape,
Wherein the left and right sides of described " H " shape is that the first magnetic conductive board 1141E and the second magnetic conductive board 1142E are formed, with
It is close with the first end 1211E and the second end 1212E phase respectively in the upper and lower ends of " H " shape, thus shape
At the first end 1211E and the second end 1212E respectively simultaneously close to the first magnetic pole 112E and described
The positional relationship of second magnetic pole 113E.
So to swing by the magnet assembly 11E for being arranged to described " H " shape, by the magnetic core 12E in
The first end 1211E is connected with the first magnetic pole 112E, and the second end 1212E and second magnetic pole
The state and the first end 1211E and the second magnetic pole 113E that end 113E is connected are connected, and the second end
It is switched between the state that portion 1212E and the first magnetic pole 112E are connected.
Further, in this embodiment in accordance with the invention, the magnetic generator of disturbing further comprises a reset element
18E, wherein the original state to maintain the magnet assembly 11E is set in the reset element 18E, wherein described
Under the original state of magnet assembly 11E, it is described that the magnet assembly 11E is maintained at its described first magnetic pole 112E
First magnetic medium 151E is connected in the first end 1211E, and its described second magnetic pole 113E is situated between by two second magnetic
One in matter 152E is connected in the state of the second end 1212E.So to be driven to as the magnet assembly 11E by external force
Its described second magnetic pole 113E by the first magnetic medium 151E connect in the first end 1211E, and its described first
Magnetic pole 112E by another connection in the two second magnetic medium 152E when state of the second end 1212E, institute
The magnet assembly 11E can be resetted to the original state after external force releasing by stating reset element 18E.
With reference to shown in Figure 14 A, Figure 14 B, Figure 15 A and Figure 15 B of Figure of description of the invention, above-mentioned reality under this invention
It applies the one of a variant embodiment of example and disturbs magnetic generator 10F and be illustrated, wherein the magnetic generator 10F that disturbs includes a magnet
Component 11F, a magnetic core 12F and a coil 13F, wherein the magnet assembly 11F includes a permanent magnet 111F, wherein described
Magnet assembly 11F includes a permanent magnet 111F, provides magnetic field ring to disturb magnetic generator 10F for described in by the permanent magnet 111F
Border, wherein the magnetic core 12F is arranged to be prepared using permeability magnetic material and including both ends 121F, wherein the magnetic core 12F
The two end 121F are close with the magnet assembly 11F phase respectively, in the magnet assembly 11F's and magnetic core 12F
An at least magnetic gap 14F is formed between the two end 121F, wherein the two coil 13F are located on the magnetic core 12F, in this way
When being changed with the variation of the magnetic gap 14F described in the magnetic responsiveness in the magnetic gap 14F, the magnetic core 12F is in response to institute
It states the variation in the magnetic field in magnetic gap 14F and the magnetic flux of the two coil 13F is changed, to be produced in the coil 13F
Raw electric energy.
In detail, in this embodiment in accordance with the invention, the two of the magnetic core 12F end 121F, i.e. a first end
A portion 1211F and the second end 1212F, wherein the first end 1211F and the second end 1212F are arranged in the same direction
The magnetic core 12F is extended, so to be able to maintain that the first end 1211F and the second end 1212F in certain suitable
It is suitable apart from while increase the length of the magnetic core 12F, to be conducive to shorten the length in space shared by the magnetic core 12F
While increase the number of turns of the coil 13F.It is understood that since the number of turns of the coil 13F is increased, to make
The generating efficiency for disturbing magnetic generator 10F is obtained to be improved.
Further, the magnet assembly 11F has one first magnetic pole 112F and one second magnetic pole 113F, wherein institute
State first end 1211F at the same with corresponding to the first magnetic pole 112F and the second magnetic pole 113F with first magnetic
Extreme 112F and the second magnetic pole 113F phase are close, and the second end 1212F corresponds to first magnetic pole simultaneously
112F and the second magnetic pole 113F it is close with the first magnetic pole 112F and the second magnetic pole 113F phase.Specifically
Ground, the magnet assembly 11F are arranged between the first end 1211F and the second end 1212F, so then described
First end 1211F forms the magnetic gap 14F between the first magnetic pole 112F and the second magnetic pole 113F respectively,
The second end 1212F also forms the magnetic between the first magnetic pole 112F and the second magnetic pole 113F respectively
Gap 14F.
Particularly, in this embodiment in accordance with the invention, the magnetic core 12F is maintained the magnet assembly 11F quiet
State so resists the coil 13F with being able to maintain that the coil 13F for being located on the magnetic core 12F is still reduced
The requirement of fatigue behaviour, and then the stability of magnetic generator 10F is disturbed described in enhancing.In addition, the coil 13F be maintained it is static and
So that being not necessarily to be reserved with the space of the coil 13F in the structure design for disturbing magnetic generator 10F, be so then conducive to
The volume of magnetic generator 10F is disturbed described in diminution.In other words, the case where disturbing the constancy of volume of magnetic generator 10F described in the maintenance
Under, the coil 13F is maintained static and makes in the structure design for disturbing magnetic generator 10F without being reserved with the coil
The space of 13F is so then conducive to the volume accounting that the coil 13F of magnetic generator 10F is disturbed described in improving, Jin Erti
The generating efficiency of magnetic generator 10F is disturbed described in height.
Further, in this embodiment in accordance with the invention, the magnetic core 12F is maintained static state, the magnet assembly 11F
It is set with the movement between the first end 1211F and the second end 1212F, forms the first end
The variation of the 1211F magnetic gap 14F between the first magnetic pole 112F and the second magnetic pole 113F respectively, and
The second end 1212F magnetic gap between the first magnetic pole 112F and the second magnetic pole 113F respectively
The variation of 14F so that the variation of magnetic gap 14F described in magnetic responsiveness in the magnetic gap 14F and change so that institute
The magnetic flux that magnetic core 12F changes the two coil 13F in response to the variation in the magnetic field in the magnetic gap 14F is stated, and then in institute
Coil 13F is stated to produce electricl energy.
Particularly, the magnet assembly 11F is set in the first end 1211F and the second end 1212F
Between movement, the magnetic core 12F is connected in the first end 1211F and the first magnetic pole 112F, and described
The state and the first end 1211F and second magnetic that the second end 1212F and the second magnetic pole 113F are connected
Extreme 113F is connected, and is cut between the state that is connected of the second end 1212F and the first magnetic pole 112F
It changes, so with the movement by the magnet assembly 11F between the first end 1211F and the second end 1212F
The reversed switching in the magnetic field in the magnetic core 12F is formed, and then disturbs the generating efficiency of magnetic generator 10F described in raising.
It is understood that the first magnetic pole 112F and the second magnetic pole 113F be arranged to have it is different
Magnetic pole magnetic, i.e., when the first magnetic pole 112F is in the magnetic pole magnetic of the pole S, the second magnetic pole 113F is in the magnetic of the pole N
It is extremely magnetic, and when the first magnetic pole 112F is in the magnetic pole magnetic of the pole N, the second magnetic pole 113F is in the magnetic pole of the pole S
Magnetism, the present invention are not intended to limit this.
Further, in this embodiment in accordance with the invention, the magnet assembly 11F is set using the movement side pivoted
Formula, between the first end 1211F and the second end 1212F, with the first magnetic pole 112F and described second
A little for axle center back and forth pivoting between magnetic pole 113F, to be in as the first magnetic pole 112F close to the first end
Portion 1211F and when the position for the connection that is connected with the first end 1211F, the second magnetic pole 113F is in close to described
The second end 1212F and the position being connected with the second end 1212F;And when the second magnetic pole 113F is in close
The first end 1211F and when the position being connected with the first end 1211F, the first magnetic pole 112F is in and leans on
The nearly the second end 1212F and the position being connected with the second end 1212F.So by the magnet assembly
Reciprocating rotation of the 11F between the first end 1211F and the second end 1212F forms the magnetic in the magnetic core 12F
The reversed switching of field, and then the generating efficiency of magnetic generator 10F is disturbed described in raising.
It is noted that the magnet assembly 11F further comprises a magnetic conduction subassembly 114F, wherein the magnetic conduction subassembly
114F connects with the permanent magnet 111F magnetic conduction, to form the first magnetic pole 112F and described in the magnetic conduction subassembly 114F
Second magnetic pole 113F, and connect by the magnetic conduction subassembly 114F with the magnetic conduction of the permanent magnet 111F, so that described first
The motion mode of the forming position and the magnet assembly 11F of magnetic pole 112F and the second magnetic pole 113F matches.?
That is the magnetic conduction subassembly 114F is arranged for being connected with the permanent magnet 111F magnetic conduction, to form the first end
1211F with corresponding to the first magnetic pole 112F and the second magnetic pole 113F simultaneously with the first magnetic pole 112F and
The second magnetic pole 113F phase is close, and the second end 1212F corresponds to the first magnetic pole 112F and institute simultaneously
With stating the second magnetic pole 113F positional relationship close with the first magnetic pole 112F and the second magnetic pole 113F phase.
Specifically, the magnetic conduction subassembly 114F includes one first magnetic conductive board 1141F and one second magnetic conductive board 1142F, wherein
The first magnetic conductive board 1141F and the second magnetic conductive board 1142F respectively with two magnetic poles (the i.e. pole S and the N of the permanent magnet 111F
Pole) magnetic conduction be connected, i.e., each magnetic conduction of two magnetic poles of the described permanent magnet 111F is connected with the first magnetic conductive board 1141F and described second
One in magnetic conductive board 1142F, in the first magnetic conductive board 1141F formed simultaneously with the first end 1211F and described
Close the first magnetic pole 112F of the second end 1212F phase, and in the second magnetic conductive board 1142F formed simultaneously with it is described
The second magnetic pole 113F first end 1211F close with the second end 1212F phase, so then first magnetic pole
End 112 and second magnetic pole 113 have different magnetic pole magnetics.
Particularly, the first magnetic conductive board 1141F and the second magnetic conductive board 1142F is respectively simultaneously close to described first
The end 1211F and the second end 1212F, i.e., the described permanent magnet 111F and it is arranged at the two of the permanent magnet 111F respectively
The the first magnetic conductive board 1141F and the second magnetic conductive board 1142F of magnetic pole form the magnetic conduction subassembly of " H " shape
114F, wherein the left and right sides of described " H " shape is the first magnetic conductive board 1141F and the second magnetic conductive board 1142F institute shape
At, with close with the first end 1211F and the second end 1212F phase respectively in the upper and lower ends of " H " shape, from
And formed the first end 1211F and the second end 1212F respectively simultaneously close to the first magnetic pole 112F and
The positional relationship of the second magnetic pole 113F.
It is understood that be arranged to the magnet assembly 11F of described " H " shape in the first end 1211F and
It, can be by the magnetic core 12F in institute using the center of " H " shape as the pivoting action of fulcrum between the second end 1212F
It states first end 1211F and the first magnetic pole 112F to be connected, and the second end 1212F and second magnetic pole
The state and the first end 1211F and the second magnetic pole 113F that 113F is connected are connected, and the second end
It is switched between the state that 1212F and the first magnetic pole 112F are connected, to form the magnetic field in the magnetic core 12F
Reversed switching, and then disturb the generating efficiency of magnetic generator 10F described in improving.
Specifically, in this embodiment in accordance with the invention, the magnetic generator 10F that disturbs further comprises a mounting base 19F,
Wherein the magnet assembly 11F is between the first end 1211F and the second end 1212F, in " H " shape
The heart is that pivotal axis is pivotally secured to the mounting base 19F, with by the pivoting action of the magnet assembly 11F, by institute
Magnetic core 12F is stated to be connected in the first end 1211F and the first magnetic pole 112F, and the second end 1212F with
The state and the first end 1211F and the second magnetic pole 113F that the second magnetic pole 113F is connected are connected,
And it is switched between the state that is connected of the second end 1212F and the first magnetic pole 112F.
It is noted that in this embodiment in accordance with the invention, the magnetic generator 10F that disturbs further comprises a driving
Elastic slice 20F, wherein the driving elastic slice 20F is arranged at the magnet assembly 11F, by the driving elastic slice 20F's
Wobble drive drives the reciprocal pivotal movement of the magnet assembly 11F.
It is understood that the driving elastic slice 20F extends the magnet assembly 11F and makes the driving elastic slice
The stroke that 20F is swung is amplified relative to the stroke of the rotation of the magnet assembly 11F, that is to say, that the magnet assembly 11F
Pivoting action between the first end 1211F and the second end 1212F can be arranged to have lesser fortune
Dynamic stroke and be conducive to reduce the magnet assembly 11F space reduce it is described disturb the volume of magnetic generator 10F, and lead to
Cross the driving elastic slice 20F amplify the magnet assembly 11F pivot stroke obtain the pendulum of the suitable driving elastic slice 20F
Dynamic stroke, to be conducive to the operation sense for disturbing magnetic generator 10F described in enhancing.
In addition it is noted that the driving elastic slice 20F is arranged to prepare using elastic material, can be exerted a force
Ground saves certain elastic potential energy and when the elastic potential energy saved reaches certain critical value, drives the magnet assembly
11F's is pivotally connected the magnetic core 12F in the first end 1211F and the first magnetic pole 112F, and described
The state and the first end 1211F and second magnetic that the second end 1212F and the second magnetic pole 113F are connected
Extreme 113F is connected, and is cut between the state that is connected of the second end 1212F and the first magnetic pole 112F
It changes.It is so connected with enhancing the magnetic core 12F in the first end 1211F and the first magnetic pole 112F, and described
The state and the first end 1211F and second magnetic that the second end 1212F and the second magnetic pole 113F are connected
Extreme 113F is connected, and the switching between the state that is connected of the second end 1212F and the first magnetic pole 112F
Stability.
In other words, the driving elastic slice 20F only ability when its elastic potential energy saved reaches certain critical value
The magnetic core 12F is completed while the pivoting action of the magnet assembly 11F can be driven in the first end 1211F and described first
Magnetic pole 112F is connected, and the state that is connected of the second end 1212F and the second magnetic pole 113F and described the
One end 1211F is connected with the second magnetic pole 113F, and the second end 1212F and the first magnetic pole 112F
The switching between state being connected, so is conducive to improve the coil 13F to shorten the deadline of the switching action
Magnetic flux change rate enhance it is described disturb the generating efficiency of magnetic generator 10F, and make the complete of each switching action
Tend to be identical at the time and is conducive to the stability for disturbing the generating efficiency of magnetic generator 10F described in enhancing.
Particularly, in this embodiment in accordance with the invention, the magnetic generator 10F that disturbs further comprises a reset element
18F, wherein the original state to maintain the magnet assembly 11F is set in the reset element 18F, wherein described
Under the original state of magnet assembly 11F, the magnet assembly 11F is maintained at its described first magnetic pole 112F and is switched on
In the first end 1211F, and its described second magnetic pole 113F is switched in the state of the second end 1212F.Such as
This to be driven to its described second magnetic pole 113F as the magnet assembly 11F by external force and be switched in the first end 1211F,
And its described first magnetic pole 112F is switched on when the state of the second end 1212F, the reset element 18F can be
The external force resets the magnet assembly 11F to the original state after releasing.
Specifically, in this embodiment in accordance with the invention, the reset element 18F is arranged to a torsional spring 182F, wherein
The torsional spring 182F is coupled between the mounting base 19F and the driving elastic slice 20F, the magnet assembly 11F's
Under the original state, it is switched on when the magnet assembly 11F is driven to its described second magnetic pole 113F by external force in described
One end 1211F, and its described first magnetic pole 112F is switched on when the state of the second end 1212F, the torsional spring
182F is saved certain elastic potential energy by compression, and so with after the external force is released from, the torsional spring 182F is by the magnetic
Body component 11F returns back to the original state.
This field skill personnel should be appreciated that in this embodiment in accordance with the invention the magnetic generator 10F that disturbs passes through institute
Movement of the magnet assembly 11F relative to the magnetic core 12F is stated, so that the magnetic gap 14F changes, while the magnetic gap 14F
Interior magnetic responsiveness in the magnetic gap 14F variation and change, and the magnetic responsiveness in the magnetic core 12F is in the magnetic gap
The variation in the magnetic field in 14F and change so that being located on the magnetic flux of the coil 13F of the magnetic core 12F
It changes, and then is produced electricl energy in the coil 13F, wherein the structure of the magnetic core 12F and the magnet assembly 11F are according to this
This embodiment of invention has various deformation, and the present invention is not intended to limit this.
To further describe the present invention, as shown in Figure 16 of Figure of description of the invention, and explanation of the invention is referred to
Fig. 1 to Figure 15 B of book attached drawing, the present invention also provides an electricity-generating method, wherein the electricity-generating method the following steps are included:
(a) a magnetic core 12G close to each other and magnet assembly 11G in the magnetic core 12G and the magnet assembly 11G it
Between form an at least magnetic gap 14G;With
(b) one magnetic medium 15G of driving is in the movement in the magnetic gap 14G relative to the magnetic gap 14G, to form the magnetic
The variation in the magnetic field in gap 14G, so that change of the magnetic flux of the magnetic core 12G in response to the magnetic field in the magnetic gap 14G
Change and change, and then is produced electricl energy in at least coil 13G for being surrounded on the magnetic core 12G.
Particularly, in step (b), the magnetic core 12G is maintained static state, and in some embodiments of the invention, institute
It states magnet assembly 11G and is also maintained static state, so the coil 13G and the magnet can be improved in passing through in the same space
Improve to the space accounting of component 11G the generating efficiency of the electricity-generating method.
It will be appreciated by those skilled in the art that above embodiments are only for example, wherein the feature of different embodiments
It can be combined with each other, with the reality that the content disclosed according to the present invention is readily conceivable that but is not explicitly pointed out in the accompanying drawings
Apply mode.
It should be understood by those skilled in the art that foregoing description and the embodiment of the present invention shown in the drawings are only used as illustrating
And it is not intended to limit the present invention.The purpose of the present invention has been fully and effectively achieved.Function and structural principle of the invention exists
It shows and illustrates in embodiment, under without departing from the principle, embodiments of the present invention can have any deformation or modification.
Claims (65)
1. disturbing magnetic generator characterized by comprising
One magnet assembly, wherein the magnet assembly includes an at least permanent magnet, to be that the magnetic of disturbing is sent out by the permanent magnet
Motor provides magnetic field environment;
One magnetic core, wherein the magnetic core is arranged to prepare using permeability magnetic material, wherein the magnetic core includes both ends, wherein institute
At least one end and the magnet assembly for stating magnetic core are mutually close, in the magnet assembly with it is mutually close therewith described in
An at least magnetic gap is formed between end;And
An at least coil, wherein the coil is located on the magnetic core, wherein the magnetic described in the magnetic responsiveness in the magnetic gap
The variation of gap and when changing, the magnetic core is able to respond the variation in the magnetic field in the magnetic gap and makes the magnetic core
Magnetic flux is changed, to produce electricl energy in the coil.
2. according to claim 1 disturb magnetic generator, wherein described, to disturb magnetic generator further comprise an at least magnetic medium,
Wherein the magnetic medium is arranged to prepare using permeability magnetic material, to be formed by the magnetic medium in the movement in the magnetic gap
The variation of medium in the magnetic gap.
3. according to claim 2 disturb magnetic generator, wherein the magnetic core is maintained static state, to be capable of increasing the coil
In the volume accounting for disturbing magnetic generator, to disturb the generating efficiency of magnetic generator described in improving.
4. according to claim 3 disturb magnetic generator, wherein the magnet assembly is maintained static state, it is described to be capable of increasing
Permanent magnet is in the volume accounting for disturbing magnetic generator, to disturb the generating efficiency of magnetic generator described in improving.
5. according to claim 4 disturb magnetic generator, wherein the magnet assembly has one first magnetic pole and one second
Magnetic pole, wherein first magnetic pole and second magnetic pole are extended in the same direction in the magnet assembly, wherein the magnetic core
Two ends in one simultaneously close to first magnetic pole and second magnetic pole, in the end and
The magnetic gap is respectively formed between first magnetic pole and between the end and second magnetic pole.
6. according to claim 5 disturb magnetic generator, wherein the magnetic medium is configured in the magnetic gap in leaning on
Closely to connect the position of first magnetic pole and the end mutually close with the magnet assembly, and close to described in connection
Be switched between second magnetic pole and the position of the end, with by the magnetic medium in connect first magnetic pole and
The position of the end, and the switching connected between second magnetic pole and the position of the end form the magnetic core
The inverse change of interior magnetic induction line to increase the variable quantity of the magnetic flux of the magnetic core, and then disturbs magnetic generator described in raising
Generating efficiency.
7. according to claim 6 disturb magnetic generator, wherein the magnet assembly further comprises a magnetic conduction subassembly, wherein
The magnetic conduction subassembly magnetic conduction is connected to the permanent magnet, to form first magnetic pole and described second in the magnetic conduction subassembly
Magnetic pole, and first magnetic pole and second magnetic are connected to form by the magnetic conduction of the magnetic conduction subassembly and the permanent magnet
Extremely from the magnet assembly extend in the same direction close to one positional relationship in two ends.
8. according to claim 7 disturb magnetic generator, wherein the magnetic conduction subassembly includes one first magnetic conductive board and one second
Magnetic conductive board, wherein first magnetic conductive board and second magnetic conductive board are connected with two magnetic pole magnetic conductions of the permanent magnet respectively, with
First magnetic pole is formed in first magnetic conductive board, and forms second magnetic pole in second magnetic conductive board, so
So that first magnetic pole and second magnetic pole have different magnetic pole magnetics.
9. according to claim 4 disturb magnetic generator, wherein the magnet assembly has two first magnetic poles and two second
Magnetic pole, the end of the two of the magnetic core, i.e. a first end and a second end, wherein the first end section is not with two
One in first magnetic pole is mutually close with one in two second magnetic poles, the second end respectively with it is another
First magnetic pole and another second magnetic pole are mutually close.
10. according to claim 9 disturb magnetic generator, wherein the magnetic medium quantity is two, i.e. one first magnetic medium
With one second magnetic medium, wherein first magnetic medium and second magnetic medium are arranged to be in when first magnetic medium
When connecting the position of the first end and first magnetic pole mutually close with the first end, second magnetic medium
In the position for connecting the second end and second magnetic pole mutually close with the second end, and work as described first
It is described when magnetic medium is in the position for connecting the first end and second magnetic pole mutually close with the first end
Second magnetic medium is in the position for connecting the second end and first magnetic pole mutually close with the second end.
11. according to claim 10 disturb magnetic generator, wherein the first end and the second end are arranged to
From the both ends of the magnetic core backwards to extension.
12. according to claim 10 disturb magnetic generator, wherein the first end and the second end are arranged to
It is extended in the same direction from the magnetic core, the magnet assembly is shortened with being set to the side of the magnetic core and described disturbs magnetic generator
Length.
13. according to claim 12 disturb magnetic generator, wherein the magnet assembly be arranged at the first end and
Between the second end.
14. according to claim 4 disturb magnetic generator, wherein the magnet assembly has one first magnetic pole and one second
Magnetic pole, wherein a two ends i.e. first end for the magnetic core and a second end, wherein the first end is simultaneously
Close to first magnetic pole and second magnetic pole, with respectively at the first end and first magnetic pole it
Between and the first end and second magnetic pole between form the magnetic gap, wherein the second end simultaneously it is close
In first magnetic pole and second magnetic pole, between the second end and first magnetic pole, with
And the magnetic gap is formed between the second end and second magnetic pole.
15. according to claim 14 disturb magnetic generator, wherein the first end and the second end are set respectively
It is set to from the magnetic core and extends in the same direction.
16. according to claim 15 disturb magnetic generator, wherein the magnet assembly is arranged in the first end
It is mutually close with the first end and the second end simultaneously between the second end.
17. according to claim 16 disturb magnetic generator, wherein the magnetic medium quantity is two, i.e. one first magnetic medium
With one second magnetic medium, wherein first magnetic medium and second magnetic medium are arranged to be in when first magnetic medium
When connecting the position of the first end and first magnetic pole, second magnetic medium be in connect the second end and
The position of second magnetic pole, and the first end and second magnetic pole are connected when first magnetic medium is in
When position, second magnetic medium is in the position for connecting the second end and first magnetic pole.
18. according to claim 17 disturb magnetic generator, wherein the magnet assembly further comprises a magnetic conduction subassembly,
Described in magnetic conduction subassembly magnetic conduction be connected to the permanent magnet, to form first magnetic pole and described in the magnetic conduction subassembly
Two magnetic poles, and first magnetic pole and described second are connected to form by the magnetic conduction of the magnetic conduction subassembly and the permanent magnet
Magnetic pole is between the first end and the second end respectively simultaneously close to the first end and the second end
Positional relationship.
19. according to claim 18 disturb magnetic generator, wherein the magnetic conduction subassembly includes one first magnetic conductive board and one the
Two magnetic conductive boards, wherein first magnetic conductive board and second magnetic conductive board are connected with two magnetic pole magnetic conductions of the permanent magnet respectively,
To form first magnetic pole in first magnetic conductive board, and second magnetic pole is formed in second magnetic conductive board.
20. according to claim 19 disturb magnetic generator, wherein the permanent magnet and being arranged at the permanent magnet respectively
Two magnetic poles first magnetic conductive board and second magnetic conductive board form the magnet assembly of " H " shape, wherein described
The left and right sides of " H " shape is that first magnetic conductive board and second magnetic conductive board are formed, wherein up and down the two of described " H " shape
End is mutually close with the first end and the second end respectively, to form the first end and the second end difference
Simultaneously close to the positional relationship of first magnetic pole and second magnetic pole.
21. according to claim 20 disturb magnetic generator, wherein described, to disturb magnetic generator further comprise a connecting rod, wherein
First magnetic medium and second magnetic medium are arranged at the both ends of the connecting rod respectively, with by the connecting rod to described
The connection of first magnetic medium and second magnetic medium enables first magnetic medium and second magnetic medium to be driven
Ground is with a little for fulcrum coaxial swing on the connecting rod.
22. according to claim 15 disturb magnetic generator, wherein the magnet assembly is arranged in the first end
It is mutually close with the first end and the second end simultaneously with the extending direction of the second end.
23. according to claim 22 disturb magnetic generator, wherein the magnetic medium quantity is two, i.e. one first magnetic medium
With one second magnetic medium, wherein first magnetic medium and second magnetic medium are arranged to be in when first magnetic medium
When connecting the position of the first end and first magnetic pole, second magnetic medium be in connect the second end and
The position of second magnetic pole, and the first end and second magnetic pole are connected when first magnetic medium is in
When position, second magnetic medium is in the position for connecting the second end and first magnetic pole.
24. according to claim 23 disturb magnetic generator, wherein the magnet assembly further comprises a magnetic conduction subassembly,
Described in magnetic conduction subassembly magnetic conduction be connected to the permanent magnet, to form first magnetic pole and described in the magnetic conduction subassembly
Two magnetic poles, and first magnetic pole and described second are connected to form by the magnetic conduction of the magnetic conduction subassembly and the permanent magnet
Magnetic pole is in the extending direction of the first end and the second end respectively simultaneously close to the first end and described the
The positional relationship of two ends.
25. according to claim 24 disturb magnetic generator, wherein the magnetic conduction subassembly includes one first magnetic conductive board and one the
Two magnetic conductive boards, wherein first magnetic conductive board and second magnetic conductive board are connected with two magnetic pole magnetic conductions of the permanent magnet respectively,
To form first magnetic pole in first magnetic conductive board, and second magnetic pole is formed in second magnetic conductive board.
26. according to claim 25 disturb magnetic generator, wherein the permanent magnet and being arranged at the permanent magnet respectively
Two magnetic poles first magnetic conductive board and second magnetic conductive board form the magnet assembly of " H " shape, wherein described
The left and right sides of " H " shape is that first magnetic conductive board and second magnetic conductive board are formed, wherein the front and back side of described " H " shape
In side and the first end and the second end it is mutually close, to form the first end simultaneously close to described the
One magnetic pole and second magnetic pole, and the second end is also simultaneously close to first magnetic pole and second magnetic
Extreme positional relationship.
27. according to claim 26 disturb magnetic generator, wherein described, to disturb magnetic generator further comprise a connecting rod, wherein
First magnetic medium and second magnetic medium are arranged at the both ends of the connecting rod respectively, with by the connecting rod to described
The connection of first magnetic medium and second magnetic medium enables first magnetic medium and second magnetic medium to be driven
Ground is with a little for fulcrum coaxial swing on the connecting rod.
28. according to claim 4 disturb magnetic generator, wherein a two ends i.e. first end and one for the magnetic core
The second end, wherein the first end and the second end are extended in the same direction in the magnetic core, to be able to extend the magnetic core
Length increase the number of turns of the coil, and then the generating efficiency of magnetic generator is disturbed described in improving.
29. according to claim 28 disturb magnetic generator, wherein the magnet assembly has one first magnetic pole and one the
Two magnetic poles, wherein first magnetic pole and second magnetic pole are extended in the same direction in the magnet assembly, wherein described
One end is mutually close with first magnetic pole corresponding to first magnetic pole, and the second end corresponds to described second
Magnetic pole and it is mutually close with second magnetic pole, it is described so between the first end and first magnetic pole
The magnetic gap is respectively formed between the second end and second magnetic pole.
30. according to claim 29 disturb magnetic generator, wherein the magnetic medium is configured in close to connect
The first end and the position of first magnetic pole with close to connect the second end and second magnetic pole
Switch between position, thus by the magnetic medium in position close to the first end and first magnetic pole and close
The size of the magnetic flux of the magnetic core is formed in handoff procedure between the second end and the position of second magnetic pole
Variation, and then produced electricl energy in the coil.
31. according to claim 30 disturb magnetic generator, wherein described, to disturb magnetic generator further comprise a drive rod,
Described in drive rod have a drive end and a Partner opposite with the drive end, wherein the drive rod be set with
Drive the Partner in position close to the first end and first magnetic pole and close with stirring the drive end
Switch between the second end and the position of second magnetic pole, wherein the magnetic medium is arranged at the Partner,
The such then described magnetic medium is in the magnetic gap in the position close to the first end and first magnetic pole and close to institute
The switching stated between the second end and the position of second magnetic pole is controlled by the drive rod, can stir the drive
Produced electricl energy in the coil to lever.
32. according to claim 28 disturb magnetic generator, wherein the magnet assembly has two first magnetic poles and is located at
One second magnetic pole between two first magnetic poles, wherein the first end corresponds to two first magnetic poles simultaneously
One of and second magnetic pole it is mutually close with the first magnetic pole described in this and second magnetic pole, wherein the second end
Portion with corresponding to second magnetic pole and another first magnetic pole simultaneously with second magnetic pole and this described first
Magnetic pole is mutually close, so then the first end respectively with mutually close first magnetic pole and second magnetic pole therewith
Form the magnetic gap between end, the second end also respectively with mutually close first magnetic pole and second magnetic therewith
The magnetic gap is formed between extreme.
33. according to claim 32 disturb magnetic generator, wherein the magnetic medium quantity is two, i.e. one first magnetic medium
With one second magnetic medium, wherein first magnetic medium and second magnetic medium are arranged to be in when first magnetic medium
When connecting the position of the first end and first magnetic pole mutually close with the first end, second magnetic medium
Described first is connected in the position for connecting the second end and second magnetic pole, and when first magnetic medium is in
When end and the position of second magnetic pole, second magnetic medium be in connect the second end and with the second end
The position of mutually close first magnetic pole in portion, with by first magnetic medium and second magnetic medium in the magnetic gap
Synchronous reciprocating move the inverse change to form the magnetic induction line of the magnetic core, and then the power generation effect of magnetic generator is disturbed described in improving
Rate.
34. according to claim 33 disturb magnetic generator, wherein described, to disturb magnetic generator further comprise a connecting rod, wherein
First magnetic medium and second magnetic medium are arranged at the both ends of the connecting rod respectively, with by the connecting rod to described
The connection of first magnetic medium and second magnetic medium enables first magnetic medium and second magnetic medium mutual
Drivingly move synchronously.
35. according to claim 34 disturb magnetic generator, wherein described, to disturb magnetic generator further comprise a reset element,
Wherein the original state to maintain first magnetic medium and second magnetic medium is set in the reset element, wherein
Under the original state, first magnetic medium, which is maintained at, connects the first end and mutually close with the first end
The position of first magnetic pole, and second magnetic medium is maintained at and connects the second end and second magnetic pole
Position, so to be driven to by external force in connecting the first end and second magnetic pole when first magnetic medium
Position, and second magnetic medium is synchronized to be driven to and connects the second end and mutually close with the second end described the
When the position of one magnetic pole, the reset element can reset first magnetic medium and second magnetic after external force releasing
Medium is to the original state.
36. according to claim 35 disturb magnetic generator, wherein described, to disturb magnetic generator further comprise a drive rod,
Described in drive rod have a drive end and a Partner opposite with the drive end, wherein the drive rod be set with
The Partner is driven to put between the first end and the second end with stirring the drive end of the drive rod
It is dynamic, wherein the connecting rod is pivotly arranged at the Partner of the drive rod, by described in the drive rod
Driving end is stirred, and moving synchronously for first magnetic medium and second magnetic medium is driven.
37. according to claim 32 disturb magnetic generator, wherein the magnetic medium quantity is two, i.e. one first magnetic medium
With one second magnetic medium, wherein first magnetic medium and second magnetic medium are arranged to be in when first magnetic medium
When connecting the position of the first end and first magnetic pole mutually close with the first end, second magnetic medium
Described second is connected in the position for connecting the second end and second magnetic pole, and when first magnetic medium is in
When end and the position of first magnetic pole mutually close with the second end, second magnetic medium is in described in connection
The position of first end and second magnetic pole, with by first magnetic medium and second magnetic medium in the magnetic gap
Concentric rotation formed the magnetic core magnetic induction line inverse change, and then the generating efficiency of magnetic generator is disturbed described in improving.
38. according in claim 32 to 37 it is any it is described disturb magnetic generator, wherein second magnetic pole and two described the
One magnetic pole is set at same plane, so that the magnetic medium can be in glidingly reducing the magnetic in the magnetic gap
The movement of medium is lost, and then disturbs the conversion ratio that mechanical kinetic energy is converted to electric energy by magnetic generator described in raising.
39. magnetic generator is disturbed according to claim 38, wherein between first magnetic pole and second magnetic pole
Be further provided with filler, wherein the filler is set and is adopted as non-magnet material, with second magnetic pole
It is complete that one is formed in the plane locating for second magnetic pole and two first magnetic poles with two first magnetic poles
Plane, to reduce the magnetic medium in the resistance of taxing of the complete plane, and then disturbing magnetic generator described in raising will be mechanical
Kinetic energy is converted to the conversion ratio of electric energy.
40. according to claim 3 disturb magnetic generator, wherein a two ends i.e. first end and one for the magnetic core
The second end, wherein the first end and the second end are extended in the same direction in the magnetic core, to be able to extend the magnetic core
Length increase the number of turns of the coil, and then the generating efficiency of magnetic generator is disturbed described in improving.
41. according to claim 40 disturb magnetic generator, wherein the magnet assembly has one first magnetic pole and one the
Two magnetic poles, wherein the first end is simultaneously with corresponding to first magnetic pole and second magnetic pole with described first
Magnetic pole and second magnetic pole are mutually close, and the second end corresponds to first magnetic pole and second magnetic simultaneously
It is terrifically mutually close with first magnetic pole and second magnetic pole so that the first end can respectively with it is described
Form the magnetic gap between first magnetic pole and second magnetic pole, the second end also can respectively with first magnetic
The magnetic gap is formed between extreme and described second magnetic pole.
42. according to claim 26 disturb magnetic generator, wherein the magnetic medium is arranged to be shaped in the magnetic
The end of core, so with the movement by the magnet assembly between the first end and the second end, shape
Movement at the magnetic medium in the magnetic gap relative to the magnetic gap, and then form the variation of the medium in the magnetic gap.
43. according to claim 42 disturb magnetic generator, wherein the quantity of the magnetic medium is three, i.e. one first magnetic is situated between
Matter and two the second magnetic mediums, wherein first magnetic medium be arranged to extend from the first end to the magnetic gap and with
Magnetic core integrated molding is integral, wherein two second magnetic mediums are separately arranged as from the second end to described
Magnetic gap extends and is integral with magnetic core integrated molding.
44. according to claim 43 disturb magnetic generator, wherein the magnet assembly is further arranged to when described the
One magnetic pole is in close to first magnetic medium so that first magnetic pole and the first end are by first magnetic
When the position that medium is connected, second magnetic pole be in one in two second magnetic mediums so that described the
Two magnetic poles and the second end are leaned on by the position that the second magnetic medium is connected described in this, and when second magnetic pole is in
Nearly first magnetic medium is so that the position that second magnetic pole and the first end are connected by first magnetic medium
When setting, first magnetic pole is in another in two second magnetic mediums so that first magnetic pole and institute
The second end is stated by the second magnetic medium is connected described in this position.
45. according to claim 44 disturb magnetic generator, wherein described, to disturb magnetic generator further comprise a reset element,
Wherein the original state to maintain the magnet assembly is set in the reset element, wherein in the magnet assembly
Under the original state, the magnet assembly is maintained at its described first magnetic pole and is connected by first magnetic medium in described
First end, and its described second magnetic pole is connected by one in two second magnetic mediums in the shape of the second end
State, so to be connected by first magnetic medium in described the when the magnet assembly is driven to its described second magnetic pole by external force
One end, and its described first magnetic pole by another connection in two second magnetic mediums in the state of the second end
When, the reset element can reset the magnet assembly to the original state after external force releasing.
46. according to claim 45 disturb magnetic generator, wherein the magnet assembly further comprises a magnetic conduction subassembly,
Described in magnetic conduction subassembly magnetic conduction be connected to the permanent magnet, to form first magnetic pole and described in the magnetic conduction subassembly
Two magnetic poles, and first magnetic pole and described second are connected to form by the magnetic conduction of the magnetic conduction subassembly and the permanent magnet
Magnetic pole is between the first end and the second end respectively simultaneously close to the first end and the second end
Positional relationship.
47. according to claim 46 disturb magnetic generator, wherein the magnetic conduction subassembly includes one first magnetic conductive board and one the
Two magnetic conductive boards, wherein first magnetic conductive board and second magnetic conductive board are connected with two magnetic pole magnetic conductions of the permanent magnet respectively,
To form first magnetic pole in first magnetic conductive board, and second magnetic pole is formed in second magnetic conductive board.
48. according to claim 47 disturb magnetic generator, wherein the permanent magnet and being arranged at the permanent magnet respectively
Two magnetic poles first magnetic conductive board and second magnetic conductive board form the magnet assembly of " H " shape, wherein described
The left and right sides of " H " shape is that first magnetic conductive board and second magnetic conductive board are formed, wherein up and down the two of described " H " shape
End is mutually close with the first end and the second end respectively, to form the first end simultaneously close to described first
Magnetic pole and second magnetic pole, and the second end is also simultaneously close to first magnetic pole and second magnetic pole
The positional relationship at end.
49. according to claim 1 disturb magnetic generator, wherein the magnetic core is maintained static state, to be capable of increasing the line
It encloses in the volume accounting for disturbing magnetic generator, to disturb the generating efficiency of magnetic generator described in improving.
50. according to claim 49 disturb magnetic generator, wherein a two ends i.e. first end for the magnetic core and
One the second end, wherein the first end and the second end are extended in the same direction in the magnetic core, to be able to extend the magnetic
Increase to the length of core the number of turns of the coil, and then disturbs the generating efficiency of magnetic generator described in raising.
51. according to claim 50 disturb magnetic generator, wherein the magnet assembly is arranged in the first end
It is mutually close with the first end and the second end simultaneously between the second end.
52. according to claim 51 disturb magnetic generator, wherein the magnet assembly has one first magnetic pole and one the
Two magnetic poles, wherein the first end is simultaneously with corresponding to first magnetic pole and second magnetic pole with described first
Magnetic pole and second magnetic pole are mutually close, and the second end corresponds to first magnetic pole and second magnetic simultaneously
It is terrifically mutually close with first magnetic pole and second magnetic pole so that the first end can respectively with it is described
Form the magnetic gap between first magnetic pole and second magnetic pole, the second end also can respectively with first magnetic
The magnetic gap is formed between extreme and described second magnetic pole.
53. according to claim 52 disturb magnetic generator, wherein the magnet assembly is further arranged to when described the
One magnetic pole is connected when the first end, and second magnetic pole is connected in the second end, and works as first magnetic
Extreme to connect when the second end, second magnetic pole is connected in the first end.
54. according to claim 53 disturb magnetic generator, wherein be further arranged to can be with institute for the magnet assembly
It states and is a little pivoted movement for axle center between the first magnetic pole and second magnetic pole, to work as first magnetic pole
When position in the connection that is connected with the first end, second magnetic pole is in be connected with the second end
Position, and when second magnetic pole be in be connected with the first end position when, first magnetic pole be in
The position that the second end is connected.
55. according to claim 54 disturb magnetic generator, wherein the magnet assembly further comprises a magnetic conduction subassembly,
Described in magnetic conduction subassembly magnetic conduction be connected to the permanent magnet, to form first magnetic pole and described in the magnetic conduction subassembly
Two magnetic poles, and first magnetic pole and described second are connected to form by the magnetic conduction of the magnetic conduction subassembly and the permanent magnet
Magnetic pole is between the first end and the second end respectively simultaneously close to the first end and the second end
Positional relationship.
56. according to claim 55 disturb magnetic generator, wherein the magnetic conduction subassembly includes one first magnetic conductive board and one the
Two magnetic conductive boards, wherein first magnetic conductive board and second magnetic conductive board are connected with two magnetic pole magnetic conductions of the permanent magnet respectively,
To form first magnetic pole in first magnetic conductive board, and second magnetic pole is formed in second magnetic conductive board.
57. according to claim 56 disturb magnetic generator, wherein the permanent magnet and being arranged at the permanent magnet respectively
Two magnetic poles first magnetic conductive board and second magnetic conductive board form the magnet assembly of " H " shape, wherein described
The left and right sides of " H " shape is that first magnetic conductive board and second magnetic conductive board are formed, wherein up and down the two of described " H " shape
End is mutually close with the first end and the second end respectively, to form the first end simultaneously close to described first
Magnetic pole and second magnetic pole, and the second end is also simultaneously close to first magnetic pole and second magnetic pole
The positional relationship at end.
58. according to claim 57 disturb magnetic generator, wherein the magnet assembly is configured to " H " shape
Center movement is pivoted for axle center.
59. according to claim 58 disturb magnetic generator, wherein described, to disturb magnetic generator further comprise a mounting base,
Described in magnet assembly be arranged between the first end and the second end, using the center of " H " shape as pivot
Shaft is pivotally secured to the mounting base.
60. according to claim 59 disturb magnetic generator, wherein described, to disturb magnetic generator further comprise a driving elastic slice,
Wherein the driving elastic slice is arranged at the magnet assembly, with by the wobble drive to the driving elastic slice, described in driving
The reciprocal pivotal movement of magnet assembly.
61. according to claim 60 disturb magnetic generator, wherein the driving elastic slice is arranged to using elastic material system
It is standby.
62. according to claim 61 disturb magnetic generator, wherein described, to disturb magnetic generator further comprise a reset element,
Wherein the original state to maintain the magnet assembly is set in the reset element, wherein in the magnet assembly
Under the original state, the magnet assembly is maintained at its described first magnetic pole and is switched in the first end, and institute
The second magnetic pole is stated to be switched in the state of the second end.
63. a kind of electricity-generating method, which is characterized in that the electricity-generating method the following steps are included:
(a) ring set there are at least one end and the magnet assembly of a magnetic core of an at least coil close to each other, in the end
An at least magnetic gap is formed between portion and the magnet assembly;With
(b) one magnetic medium of driving is in the movement in the magnetic gap relative to the magnetic gap, with the magnetic field that is formed in the magnetic gap
Variation, so by the magnetic core response in the magnetic field in the magnetic gap is changed the magnetic core magnetic flux in the line
Circle produces electricl energy.
64. electricity-generating method according to claim 63, wherein the magnet assembly is maintained static state according to step (b), with
The variation in the magnetic field in the magnetic gap is formed in the movement in the magnetic gap by the magnetic medium.
65. electricity-generating method according to claim 64, wherein the magnetic medium is in the magnetic gap according to step (b)
Movement is configured to be formed the inverse change of the magnetic induction line of the magnetic core, to disturb the power generation effect of magnetic generator described in raising
Rate.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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PCT/CN2018/086253 WO2019213885A1 (en) | 2018-05-10 | 2018-05-10 | Magnetic disturbance generator and power generation method |
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CN109041588A true CN109041588A (en) | 2018-12-18 |
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Family Applications (1)
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CN201880000383.9A Pending CN109041588A (en) | 2018-05-10 | 2018-05-10 | Disturb magnetic generator and electricity-generating method |
Country Status (2)
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CN (1) | CN109041588A (en) |
WO (1) | WO2019213885A1 (en) |
Citations (12)
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CN85104276A (en) * | 1985-06-01 | 1986-11-26 | 屈延良 | Magnetoelectric energy generator |
CN1719715A (en) * | 2005-05-24 | 2006-01-11 | 梁庆彤 | Magnetic energy generator |
US20060273682A1 (en) * | 2005-06-07 | 2006-12-07 | Fuji Cera-Tech Co., Ltd. | Permanent-magnet generator with magnetic flux controls |
CN101807845A (en) * | 2010-04-30 | 2010-08-18 | 台培昌 | Generator |
CN201750237U (en) * | 2010-08-08 | 2011-02-16 | 张新东 | Flux control generator |
CN102938600A (en) * | 2011-09-21 | 2013-02-20 | 武汉领普科技有限公司 | Staggering mesh-type magnetic power generation device |
CN102938606A (en) * | 2011-09-21 | 2013-02-20 | 武汉领普科技有限公司 | Seesaw type unicoil magnetic generating device |
CN204376676U (en) * | 2015-02-12 | 2015-06-03 | 卢健华 | A kind of microgenerator |
CN205583987U (en) * | 2016-02-05 | 2016-09-14 | 广东顺德智勤智能技术有限公司 | Miniature electromagnetic power generation facility |
CN205693542U (en) * | 2016-02-04 | 2016-11-16 | 廖淑辉 | High power kinetic energy is from electric generating devcie |
CN206004515U (en) * | 2016-05-08 | 2017-03-08 | 赵跃军 | A kind of symmetrical miniature power generating device of magnetic pole |
CN106712440A (en) * | 2016-12-31 | 2017-05-24 | 武汉领普科技有限公司 | Power generation device |
-
2018
- 2018-05-10 CN CN201880000383.9A patent/CN109041588A/en active Pending
- 2018-05-10 WO PCT/CN2018/086253 patent/WO2019213885A1/en active Application Filing
Patent Citations (12)
Publication number | Priority date | Publication date | Assignee | Title |
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CN85104276A (en) * | 1985-06-01 | 1986-11-26 | 屈延良 | Magnetoelectric energy generator |
CN1719715A (en) * | 2005-05-24 | 2006-01-11 | 梁庆彤 | Magnetic energy generator |
US20060273682A1 (en) * | 2005-06-07 | 2006-12-07 | Fuji Cera-Tech Co., Ltd. | Permanent-magnet generator with magnetic flux controls |
CN101807845A (en) * | 2010-04-30 | 2010-08-18 | 台培昌 | Generator |
CN201750237U (en) * | 2010-08-08 | 2011-02-16 | 张新东 | Flux control generator |
CN102938600A (en) * | 2011-09-21 | 2013-02-20 | 武汉领普科技有限公司 | Staggering mesh-type magnetic power generation device |
CN102938606A (en) * | 2011-09-21 | 2013-02-20 | 武汉领普科技有限公司 | Seesaw type unicoil magnetic generating device |
CN204376676U (en) * | 2015-02-12 | 2015-06-03 | 卢健华 | A kind of microgenerator |
CN205693542U (en) * | 2016-02-04 | 2016-11-16 | 廖淑辉 | High power kinetic energy is from electric generating devcie |
CN205583987U (en) * | 2016-02-05 | 2016-09-14 | 广东顺德智勤智能技术有限公司 | Miniature electromagnetic power generation facility |
CN206004515U (en) * | 2016-05-08 | 2017-03-08 | 赵跃军 | A kind of symmetrical miniature power generating device of magnetic pole |
CN106712440A (en) * | 2016-12-31 | 2017-05-24 | 武汉领普科技有限公司 | Power generation device |
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WO2019213885A1 (en) | 2019-11-14 |
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