CN110350759A - It is complete to carry electric device - Google Patents
It is complete to carry electric device Download PDFInfo
- Publication number
- CN110350759A CN110350759A CN201810285523.3A CN201810285523A CN110350759A CN 110350759 A CN110350759 A CN 110350759A CN 201810285523 A CN201810285523 A CN 201810285523A CN 110350759 A CN110350759 A CN 110350759A
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- Prior art keywords
- magnetic
- column group
- coil
- group
- magnetic part
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Classifications
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K49/00—Dynamo-electric clutches; Dynamo-electric brakes
- H02K49/10—Dynamo-electric clutches; Dynamo-electric brakes of the permanent-magnet type
- H02K49/104—Magnetic couplings consisting of only two coaxial rotary elements, i.e. the driving element and the driven element
- H02K49/108—Magnetic couplings consisting of only two coaxial rotary elements, i.e. the driving element and the driven element with an axial air gap
Abstract
The invention discloses a kind of full load electric devices, it is by least one first magnetic column group, at least one second magnetic column group, an at least coil column group and at least an inductive switch group is formed, this first, two magnetic column groups and coil column group are respectively defined as rotor or stator, enable this first, two magnetic column groups, which can be synchronized, generates relative motion with the coil column group, and enable coil column group accurately positive to the electric or reverse switching to electricity in specific single position of magnetic pole progress using the inductive switch group, make this first, two magnetic column groups and the coil column group can obtain whole and enhancing magnetic power-assisted when relative motion, whereby, good magnetic current management can be reached, to exempt double magnetic effects and amplification magnetic stress, raising output power is undermined for reducing to move, it can simplify electric architecture simultaneously, to reduce cost and reduce the probability of electric device damage.
Description
Technical field
The present invention relates to the electric motors of electromagnetic technique, specifically refer to a kind of full load electric device, so as to that can reach
To good magnetic current management, to exempt double magnetic effects, and horizontal power-assisted is increased newly, undermine raising output power for reducing to move, in turn
Energy conversion efficiency is improved, while can simplify electric architecture and improving control precision, to reduce the machine of electric device damage
Rate.
Background technique
General calutron is made of a coil group and a magnetic group, and wherein magnetic group is at least one in coil group two sides
Side is equipped with magnetic part, and magnetic group and coil group can be respectively defined as rotor or stator, to after to coil group to electromagnetization,
Make it that can generate magnetic force that is attracting, repelling each other between magnetic group, and then allows and form opposite linear or rotary motion, shape between the two
At a kind of electric motor mode.Conversely, coil group can be made because of magnetic when using external force [wind-force, waterpower] driving magnetic group or coil group
The magnetic force line cutting of group and generate voltage, and then form a kind of generator mode;
And with wherein common electronic device for, the configuration of the magnetic part of magnetic group directly influences the good and the bad of whole device,
Although the external magnetic force line of magnetic part is flowed from the pole N to the pole S, its magnetic line of force has vulnerable to other magnetic parts or magnetic conduction soma
It disturbs, to external diffusion and walk the characteristics such as shortcut, if magnetic current is without suitably managing, then can not adequately be utilized, in some instances it may even be possible to
A kind of resistance is formed instead.It is by arranging along the direction of motion and magnetizing and the adjacent no magnetism of homopolarity in the direction of motion for another magnetic group
When part arranges, then the magnet passage of opposite compression will be formed between adjacent magnetic part, rushes the magnetic circuit of external magnetic force line
It is prominent to extend out, it will cause the situation of magnetic force line use ratio reduction;
Furthermore when the coil piece moved in the magnetic gap between homopolarity adjacent magnetic part is magnetized in identical or opposite poles,
The coil piece and the first and second adjacent magnetic part magnetic pole can generate double magnetic effects, make it while generation repels each other and phase suction phenomenon, and
Can one reluctance force of hyperplasia, so have kinetic energy loss, for have when motor energy consumption and reduction output power the problem of;
In addition, aforementioned motor device running when, due to need in magnetic group magnetic part and coil piece different location installation
Inductive switch group gives electricity, power-off and induction detector, and to control it to the electric movement with power-off, electric-control system seems suitable
Complexity causes cost to occupy high and easily damaged.
In other words, so that magnetic current is obtained effectively management, and improve the utilization rate of the magnetic line of force, and further overcome double magnetic
Effect to reduce reluctance force when operating, while enhancing its magnetic power-assisted, and then reach the effect of reliability, precision, low cost
Fruit is that the present invention is expected.
Edge is, the present inventor be for aforementioned motor device problem encountered further investigated when in use, and by
Be engaged in the research and development experience of related industry for many years, actively seek solution, the research through being continually striving to study, finally successfully
Develop it is a kind of complete carry electric device, so as to can overcome those existing because pair magnetic effects and magnetic current can not effectively manage derived from not
Just with puzzlement.
Summary of the invention
Therefore, the main purpose of the present invention is to provide a kind of full load electric devices is reduced so as to can effectively manage magnetic current
Magnetic current diffusion and interference, can increase magnetic force line use ratio, amplify magnetic stress.
And person, a time main purpose of the invention are to provide a kind of full load electric device, can overcome pair magnetic effects, and
Reluctance force can be avoided, to reduce kinetic energy loss, whole process obtains magnetic power-assisted, and then improves output power.
Furthermore another main purpose of the invention is to provide a kind of full load electric device, can significantly simplify and entirely open
Its installation cost and maintenance cost can be effectively reduced to reduce electrical malfunction in the structure for closing control system.
Continuous person, another main purpose of the invention are that provide one kind carries electric device entirely, can be by coil piece magnetic conduction
The certainty of the position of magnetic pole of body both ends pyramid magnetic yoke improves control precision.
Another person, another main purpose of the invention are that provide one kind carries electric device entirely, can utilize coil piece magnetic conduction
Body both ends pyramid magnetic yoke two sides inclined-plane increases its horizontal component, effectively reduces its reluctance force, increases its magnetic power-assisted, reaches reduction
Kinetic energy loss and high-revolving purpose is proposed, and then improves output power.
Based on this, the present invention is mainly by following technological means, to realize purpose above-mentioned.
A kind of full load electric device, is by least one first magnetic column group, at least one second magnetic column group, at least a coil column group
And at least an inductive switch group is formed, the first and second magnetic column group and coil column group are respectively defined as rotor or stator, this
One, two magnetic column groups are synchronous generates relative motion with the coil column group;And the first magnetic column group has along direction of motion interval row
At least one first magnetic part and at least one second magnetic part of column, the equal length of first and second magnetic part, and described the
One, two magnetic parts magnetize in the direction of motion, and the magnetic pole of the first and second adjacent magnetic part or second, one magnetic part is adjacent in homopolarity,
And it is respectively provided with a magnetic gap between adjacent the first and second magnetic part or second, one magnetic part, the first magnetic column group is in each first magnetic column group
Magnetic gap correspond to the side of coil column group and be respectively equipped with a water conservancy diversion magnetic part, and the water conservancy diversion magnetic part of each first magnetic column group is perpendicular
The direction of motion magnetizes, the magnetic pole and adjacent second, one of the corresponding first magnetic column group one end of the water conservancy diversion magnetic part of each first magnetic column group
The magnetic pole of magnetic part is in heteropolar adjacent;The second magnetic column group is parallel to the first magnetic column group, which there is edge to move
The spaced at least third magnetic part in direction and at least one the 4th magnetic part, the equal length of third and fourth magnetic part,
And third and fourth described magnetic part magnetizes in the direction of motion, third and fourth described magnetic part respectively correspond the first magnetic column group first,
Two magnetic parts, and in the second magnetic column group first third magnetic part and first the first magnetic part of opposite first magnetic column group magnetic
Pole in heteropolar opposite, the magnetic pole of adjacent third and fourth magnetic part or the four, the three magnetic parts in the adjacent and adjacent third of homopolarity,
A magnetic gap is respectively provided between four magnetic parts or the four, the three magnetic parts, the second magnetic column group corresponds to line in the magnetic gap of each second magnetic column group
The side of circle column group is respectively equipped with a water conservancy diversion magnetic part, and the perpendicular direction of motion of water conservancy diversion magnetic part of each second magnetic column group is filled
Magnetic, but the magnetic pole of the corresponding second magnetic column group one end of the water conservancy diversion magnetic part of each second magnetic column group and the magnetic pole of adjacent magnetic part are in heteropolar
It is adjacent;The coil column is mounted between opposite first and second magnetic column group or second, one magnetic column group, and each coil column group is respectively provided with
One or more can the coil piece that magnetizes of the perpendicular direction of motion be alternatively arranged, each coil piece is respectively provided with a magnetic conduction
Body and one be set around magnetizer coil, and each coil be electrically connected simultaneously have it is one positive reverse to electricity to the power supply of electricity and one
Power supply;The inductive switch group include be located at coil column group coil piece one switching detector and be set to the first magnetic column group or
At least the one of second magnetic column group gives electric detector, wherein can be according to the water conservancy diversion magnetic of the first magnetic column group or the second magnetic column group to electric detector
Property part opposing polarities selection it is positive to electricity to electric detector or it is reverse to electricity to electric detector, and the switching detector is set
In each coil piece axis center of coil column group, to the water conservancy diversion at the coil piece both ends after electromagnetization and opposite first and second magnetic column group
Magnetic part is opposite in homopolarity.
The first and second magnetic column group can be respectively arranged on a disk, and the disk is fixedly arranged on a transmission shaft, and the coil
Column group can be set on a coil panel, and the coil panel is set between opposite disk, and coil panel can be pivoted with respect to transmission shaft.
The magnetizer both ends of the coil piece of the coil column group are respectively formed with a pyramid magnetic yoke, and the angle at magnetizer both ends
Cone magnetic yoke is respectively provided with the tip point of a corresponding magnetizer long axis.
The switching detector of the inductive switch group is set to the tip point of the pyramid magnetic yoke of the magnetizer of each coil piece, and described
The center of each water conservancy diversion magnetic part of the first magnetic column group or the second magnetic column group is divided into electric detector.
The full electric device that carries is by three groups or three groups or more of the first and second magnetic column group for the matrixing mechanism of disc type
And two groups or two groups or more of coil column group is staggeredly spaced setting, wherein coil column group is divided into the first and second opposite magnetic column group
And second, one between magnetic column group, and wherein in the second magnetic column group for setting or the first magnetic column group in magnetic gap two sides to be respectively equipped with one corresponding
The water conservancy diversion magnetic part of coil column group.
The position of the corresponding first and second magnetic column group of the coil piece of each coil column group is in contraposition arrangement.
The position of the corresponding first and second magnetic column group of the coil piece of each coil column group is dislocation arrangement.
The full load electric device is the matrixing mechanism of ring type, is by at least disk of one first magnetic column group, at least one
The disk of second magnetic column group and the coil panel of an at least coil column group, which are staggeredly spaced, to be arranged, and each disk is equipped with homopolarity each other
At least two side by side concentric and opposite the first magnetic column group and the second magnetic column group, and each coil panel is equipped at least two side by side
Concentric coil column group, the first and second magnetic column group of each same diameter and coil column group are in opposite shape.
Respectively the position of magnetic part is in align arrangement to the corresponding first and second magnetic column group of the coil piece of coil column group side by side side by side.
Respectively the position of the corresponding first and second magnetic column group of the coil piece of coil column group side by side magnetic part side by side is dislocation arrangement.
After above-mentioned technological means, full load electric device of the invention passes through the first magnetic column group, the second magnetic column group, coil
The design of the structure of column group and inductive switch group, realizes water conservancy diversion, magnetic power is made effectively to be guided and be managed, and existing without extending out
As, and then can be effectively used, furthermore given since the coil piece of coil column group can switch forward direction according to corresponding water conservancy diversion magnetic part
Electricity inversely gives electricity, enables the first and second magnetic column group is whole to obtain magnetic power-assisted, and overcomes double magnetic effects of magnetic column group and coil piece,
Therefore can effectively avoid its magnetic resistance, reaching reduces kinetic energy loss and proposes high-revolving purpose, and then improves output power, substantially
Promote the practicality, while the structure of entire electric-control system can be significantly simplified, reduces the probability of its damage, it can be effectively reduced
Installation cost and maintenance cost, and by coil piece magnetizer both ends pyramid magnetic yoke, its reluctance force is effectively reduced, its magnetic is increased
Power-assisted, and control precision is improved, greatly improve its economic benefit.
Detailed description of the invention
Fig. 1 is the complete wherein configuration diagram for carrying electric device preferred embodiment of the present invention.
Fig. 2 is the complete another configuration diagram for carrying electric device preferred embodiment of the present invention.
Fig. 3, which is that the present invention is complete, carries electric device preferred embodiment in easy structure configuration schematic diagram in actual use.
Fig. 4, Fig. 5 are the full action schematic diagram for carrying electric device preferred embodiment of the present invention, for illustrate coil piece forward direction to
The movement aspect of electricity.
Fig. 6, Fig. 7 are the complete another action schematic diagram for carrying electric device preferred embodiment of the present invention, for illustrating that coil piece is inverse
To the movement aspect to electricity.
Fig. 8 is the full activities enlarged diagram for carrying electric device preferred embodiment of the present invention, for illustrating its coil piece
Magnetic line of force operating state.
Fig. 9 is the full configuration diagram for carrying an electric device time preferred embodiment of the present invention, for illustrating its disc type matrixing
State.
Figure 10 is the full Fig. 9 preferred embodiment for carrying electric device of the present invention in easy structure configuration in actual use
Schematic diagram.
Figure 11 is the full configuration diagram for carrying electric device another preferred embodiment of the present invention, for illustrating its ring type matrixing
State.
Figure 12 is that the full Figure 11 another preferred embodiment for carrying electric device of the present invention is matched in easy structure in actual use
Set schematic diagram.
[symbol description]
10 first magnetic column group, 100 disk
11 first magnetic part, 12 second magnetic part
13 magnetic gap, 15 water conservancy diversion magnetic part
20 second magnetic column group, 200 disk
The 4th magnetic part of 21 third magnetic part 22
23 magnetic gap, 25 water conservancy diversion magnetic part
30 coil column group, 300 coil panel
31 coil piece, 32 magnetizer
33 pyramid magnetic yoke, 330 tip point
35 coil, 40 inductive switch group
41 switching detectors 45 give electric detector
500 transmission shafts.
Specific embodiment
It is below lifting presently preferred embodiments of the present invention for that can further appreciate that composition of the invention, feature and other purposes,
And cooperates schema detailed description is as follows, while those skilled in the art can be embodied.
The present invention is a kind of full load electric device, is appended in the specific embodiments of the present invention and its component that legend is shown, institute
About it is preceding with rear, left and right, top and bottom, top and lower part and horizontal with vertical reference, be only used for facilitating progress
Description, not the limitation present invention, also non-that its component is limited to any position or direction in space.It is specified in schema and specification
Size, when can be in without departing from claim of the invention, design and demand according to a particular embodiment of the invention
And it is changed.
And the present invention carries the composition of the preferred embodiment of electric device entirely, as shown in Figure 1 and Figure 2, wherein Fig. 1 is adjacent magnetic
The adjacent pole of the property part state opposite with N-N.And state Fig. 2 opposite with S-S for the adjacent pole of adjacent magnetic part.This is complete
Carrying electric device is the second magnetic column group 20 that the first magnetic column group 10 is parallel to by least one first magnetic column group 10, at least one, at least
One is set to the coil column group 30 between opposite first magnetic column group 10 and the second magnetic column group 20 and at least an inductive switch group 40 is formed,
And the first and second magnetic column group 10,20 is respectively defined as rotor or stator with coil column group 30, enable the first and second magnetic column group 10,20
It can synchronize and generate relative motion with the coil column group 30, and enable coil column group 30 in specific single magnetic using the inductive switch group 40
Pole position, which carries out accurately forward direction, makes the first and second magnetic column group 10,20 and the coil column group 30 to electricity or inversely to electric switching
Whole and enhancing magnetic power-assisted can be obtained when relative motion;
And the detailed construction about present pre-ferred embodiments, then it please refers to shown by Fig. 1, Fig. 2 and Fig. 3, wherein described first
Magnetic column group 10 can be set on a disk 100, and the disk 100 is fixedly arranged on a transmission shaft 500 [using opposite key block and key
Slot], disk 100 can be driven to rotate for transmission shaft 500, and the first magnetic column group 10 is by spaced at least along the direction of motion
One first magnetic part 11 and at least one second magnetic part 12 is formed, and the equal length of first and second magnetic part 11,12,
And first and second magnetic part 11,12 magnetizes in the direction of motion, and adjacent the first and second magnetic part 11,12[are as shown in Figure 1]
Or second, one magnetic part 12,11[are as shown in Figure 2] magnetic pole in homopolarity, adjacent [such as the N of Fig. 1 extremely corresponds to the pole N or the pole S of Fig. 2
The corresponding pole S], and adjacent the first and second magnetic part 11,12[are as shown in Figure 1] or second, one magnetic part 12,11[it is as shown in Figure 2]
Between be respectively provided with a magnetic gap 13, and the first magnetic column group 10 is respectively equipped with a water conservancy diversion in the side of the corresponding coil column group 30 of each magnetic gap 13
Magnetic part 15, and the perpendicular direction of motion of each water conservancy diversion magnetic part 15 magnetizes, and corresponding first and second magnetic part of each water conservancy diversion magnetic part 15
11,12[is as shown in Figure 1] or second, one magnetic part 12,11[it is as shown in Figure 2] one end magnetic pole and the first and second magnetic part 11,12
[as shown in Figure 1] or second, one magnetic part 12,11[are as shown in Figure 2] opposite end is in heteropolar adjacent [such as the first and second magnetic of Fig. 1
Property part 11,12 adjacent poles be the pole N then water conservancy diversion magnetic part 15 be the pole S, again or as Fig. 2 second, one magnetic part 12,11 adjacent magnetic
Extremely then water conservancy diversion magnetic part 15 is the pole N for the pole S], the first and second magnetic part 11 for making the first magnetic column group 10,12 magnetic powers are by water conservancy diversion
Magnetic part 15 flows outwardly or the magnetic power of second, one magnetic part 12,11 flows inward into water conservancy diversion magnetic part 15, enables the first magnetic column
The magnetic line of force flowing of group 10 obtains water conservancy diversion management;
In addition, the second magnetic column group 20 can be set to a disk 200 on, and the disk 200 be fixedly arranged on a transmission shaft 500 [can benefit
With opposite key block and keyway], for transmission shaft 500 can drive disk 200 rotate and can be with the disk 100 of the first magnetic column group 10
Rotate synchronously, but the second magnetic column group 20 by along the spaced at least third magnetic part 21 of the direction of motion and at least 1 the
Four magnetic parts 22 are formed, and the equal length of third and fourth magnetic part 21,22, and third and fourth described magnetic part 21,22
It magnetizes in the direction of motion, and third and fourth described magnetic part 21,22 and the first and second magnetic part for respectively corresponding the first magnetic column group 10
11,12, and first third magnetic part 21 and first the first magnetic part with respect to the first magnetic column group 10 in the second magnetic column group 20
Opposite [magnetic pole of starting of example the first magnetic part 11 of the first magnetic column group 10 as shown in figure 1 is the pole S then the second magnetic to 11 magnetic pole in heteropolar
The magnetic pole of starting of the third magnetic part 21 of column group 20 be the pole N, again or as in Fig. 2 the second magnetic part 12 of the first magnetic column group 10 rise
Head magnetic pole is that the magnetic pole of starting of the pole N then the 4th magnetic part 22 of the second magnetic column group 20 is the pole S], furthermore adjacent third and fourth is magnetic
Part 21,22[are as shown in Figure 1] or the four, the three magnetic parts 22,21[it is as shown in Figure 2] magnetic pole in adjacent [such as the S of Fig. 1 of homopolarity
The N for extremely corresponding to the pole S or Fig. 2 extremely corresponds to the pole N], and adjacent third and fourth magnetic part 21,22[are as shown in Figure 1] or the four, the three magnetic
Property part 22,21[it is as shown in Figure 2] between be respectively provided with a magnetic gap 23, and the second magnetic column group 20 is in the corresponding coil column group 30 of each magnetic gap 23
Side be respectively equipped with a water conservancy diversion magnetic part 25, and the perpendicular direction of motion of each water conservancy diversion magnetic part 25 magnetizes, and each water conservancy diversion is magnetic
It is as shown in Figure 1 that part 25 corresponds to third and fourth magnetic part 21,22[] or the four, the three magnetic parts 22,21[it is as shown in Figure 2] one end magnetic
Pole and third and fourth magnetic part 21,22[are as shown in Figure 1] or the four, the three magnetic parts 22,21[it is as shown in Figure 2] opposite end is in heteropolar
Adjacent [such as third and fourth magnetic part 21,22 adjacent poles of Fig. 1 are that then water conservancy diversion magnetic part 25 is the pole N, again or such as Fig. 2 for the pole S
Four, the three magnetic parts 22,21 adjacent poles are that then water conservancy diversion magnetic part 25 is the pole S for the pole N], make third and fourth magnetic of the second magnetic column group 20
The magnetic power of property part 21,22 flows inward into the magnetic power of water conservancy diversion magnetic part 25 or the four, the three magnetic parts 22,21 by water conservancy diversion magnetic
Property part 25 flow outwardly, make the water conservancy diversion magnetic part 25 of the second magnetic column group 20 and the water conservancy diversion magnetic part 15 of opposite first magnetic column group 10
In heteropolar opposite shape, enables the magnetic line of force of the second magnetic column group 20 flow and obtain water conservancy diversion management;
And the coil column group 30 can be set on a coil panel 300, and the coil panel 300 can be pivoted with respect to transmission shaft 500, for passing
It when the synchronous driving disk 100,200 of moving axis 500 rotates, can be pivoted with respect to coil panel 300, and each coil column group 30 is set to phase in parallel
Between the first and second magnetic column group 10,20 [as shown in Fig. 1, Fig. 9] or opposite second, one magnetic column group 20,10 [such as Fig. 9 institute
Show], but each coil column group 30 is respectively provided with one or more coil piece 31 and is alternatively arranged, and each coil piece 31 is distinguished
Be set around the coil 35 of magnetizer 32 with a magnetizer 32 and one, and each coil 35 be electrically connected simultaneously have a positive power supply and
One reverse power supply [not showing in figure] keeps the coil 35 of each coil piece 31 positive to electricity or reverse to electricity by selectivity, and each line
Collar member 31 can be magnetized when forward direction is to electricity or inversely gives electricity by the perpendicular direction of motion, furthermore 32 liang of the magnetizer of each coil piece 31
End is respectively formed with a pyramid magnetic yoke 33, and the pyramid magnetic yoke 33 at 32 both ends of magnetizer is respectively provided with corresponding 32 long axis of magnetizer
The tip point 330 of line, and the tip point 330 of the pyramid magnetic yoke 33 of magnetizer 32 respectively correspond the first and second opposite magnetic column group 10,
20, make the magnetizer 32 of coil piece 31 its magnetic line of force point of maximum intensity after magnetization that can be located at the tip point 330 of pyramid magnetic yoke 33, simultaneously
Horizontal component and vertical stress component [as shown in Figure 8] are generated in the two sides inclined-plane of 32 both ends pyramid magnetic yoke 33 of magnetizer;
Include a switching detector 41 of the coil piece 31 for being located at coil column group 30 as, the inductive switch group 40 and is set to the
One magnetic column group 10 or the second magnetic column group 20[present invention are main embodiment to be set to the first magnetic column group 10] at least one to electric-examination
Device 45 is known, wherein forward direction can be selected to electricity according to the opposing polarities of the water conservancy diversion magnetic part 15 of the first magnetic column group 10 to electric detector 45
It is as shown in Figure 1 to electric detector 45A[] or reverse to the as shown in Figure 2 to electric detector 45B[of electricity], for control coil column group 30
The coil 35 of coil piece 31 whether be connected to power supply to electricity and to electric direction, enable 31 both ends of coil piece and opposite first and second magnetic
The water conservancy diversion magnetic part 15,25 of column group 10,20 is opposite in homopolarity.Wherein the switching detector 41 is set to the magnetizer of each coil piece 31
The tip point 330 of 32 pyramid magnetic yoke 33, and each water conservancy diversion magnetic part that the first magnetic column group 10 is divided into electric detector 45
15 center, to when switching detector 41 respectively the leading in the first magnetic column of detection group 10 in each coil piece 31 of coil column group 30
Flow on magnetic part 15 to electric detector 45 when, can be according to the coil 35 of the correspondence pole pair of the water conservancy diversion magnetic part 15 coil piece 31
Give it is positive to electricity or reverse to electricity, such as shown in Fig. 4, when the switching detector 41 in a wherein coil piece 31 is in detection first
The water conservancy diversion magnetic part 15[N of the pole N of magnetic column group 10 is extremely with respect to shape] on forward direction to electricity when giving electricity detector 45A, then it is positive electric
Source gives the coil 35 of the coil piece 31 positive to electricity.Otherwise as shown in fig. 6, switching inspection that ought wherein in a coil piece 31
Know device 41 in the pole S of the first magnetic column of detection group 10 water conservancy diversion magnetic part 15[S extremely with respect to shape] on reverse knowing to electric-examination to electricity
When device 45B, then reverse power supply gives inversely to electricity the coil 35 of the coil piece 31;
Whereby, group constitutes one and can effectively manage magnetic current and be avoided that the full load electric device person of double magnetic effects.
Furthermore the present invention carries electric device preferred embodiment when practical actuation entirely, then such as Fig. 4, Fig. 5, Fig. 6 and Fig. 7 institute
Show, enables the first and second magnetic column group 10,20 synchronize opposite coil column group 30 in operation and move from right to left, and with inductive switch group 40
It controls to electric direction, the so pole the N magnetic pole when the water conservancy diversion magnetic part 15 between the first and second magnetic part 11,12 of the first magnetic column group 10
On forward direction correspond to the switching detector 41 in the 31 pyramid magnetic yoke 33 of coil piece of coil column group 30 to electricity detector 45A to electricity
When [as shown in Figure 4], can enable positive power supply positive to the coil 35 of the coil piece 31 to electricity, make the magnetizer 32 of the coil piece 31
The pyramid magnetic yoke 33 of corresponding first magnetic column group, 10 one end is magnetized into the N pole opposite with 15 homopolarity of water conservancy diversion magnetic part, at this time the coil
For part 31 because the water conservancy diversion magnetic part 15,25 opposite with the first and second magnetic column group 10,20 is in homopolar-repulsion shape, generation facilitates first and second
Magnetic column group 10, the pusher magnetic power-assisted of 20 directions of motion.And as shown in figure 5, when the first and second magnetic column group 10,20 continue movement when, then
Due to the pyramid of the corresponding second magnetic column group 20 in the pole N magnetic pole of pyramid magnetic yoke 33 of the corresponding first magnetic column group 10 of the coil piece 31
Magnetic yoke 33 is in the pole S magnetic pole, is in heteropolar attracting shape with next unsanctioned water conservancy diversion magnetic part 15,25, and is had along the side of moving
To preceding drawing magnetic power-assisted, will not only generate double magnetic effects, simultaneously because magnetic current guiding is concentrated, can further increase magnetic and help
Power;
Then, as shown in fig. 6, the pole the S magnetic pole of second, one magnetic part, 12,11 water conservancy diversion magnetic parts 15 when the first magnetic column group 10
On the reverse pyramid magnetic yoke 33 to the coil piece 31 for corresponding to coil column group 30 to electricity detector 45B of electricity on switching detector
When 41, reverse power supply can be enabled, inversely to electricity, to make the magnetizer 32 corresponding first of the coil piece 31 to the coil 35 of the coil piece 31
The pyramid magnetic yoke 33 of 10 one end of magnetic column group is magnetized into the S pole opposite with 15 homopolarity of water conservancy diversion magnetic part, at this time the coil piece 31 because with
The opposite water conservancy diversion magnetic part 15,25 of first and second magnetic column group 10,20 is in homopolar-repulsion shape, and generation facilitates the first and second magnetic column group
10, the pusher magnetic power-assisted of 20 directions of motion.Separately as shown in fig. 7, when the first and second magnetic column group 10,20 continues movement, then due to this
The pyramid magnetic yoke 33 of the corresponding second magnetic column group 20 in the pole S magnetic pole of pyramid magnetic yoke 33 of the corresponding first magnetic column group 10 of coil piece 31
It is in heteropolar attracting shape with next unsanctioned water conservancy diversion magnetic part 15,25 in the pole N magnetic pole, and has before the direction of motion
Magnetic power-assisted is drawn, double magnetic effects will not be not only generated, simultaneously because magnetic current guiding is concentrated, can further increase magnetic power-assisted;
Furthermore as shown in figure 8, since the both ends of the magnetizer 32 of the coil piece 31 of the coil column group 30 are respectively formed pyramid magnetic yoke
33, the two sides inclined-plane of the pyramid magnetic yoke 33 can form an oblique magnetic force, and then can generate with respect to the first and second magnetic column group 10,20
Horizontal component so can further be such that its magnetic power-assisted is amplified, and reluctance force is reduced, promote its output effect, can effectively mention
Its high revolving speed and power.
A time preferred embodiment of the invention, then as shown in Figure 9, Figure 10, the embodiment are electronic in the matrixing of disc type
Machine is that have three groups or three groups or more interlock spaced first and second magnetic column group 10,20 and two groups or two groups or more by total
Coil column group 30 formed, the present invention is with 10, one group of second magnetic column group 20 of spaced two group of first magnetic column group and two groups
Coil column group 30 is main embodiment, wherein two groups of coil column groups 30 are divided into opposite the first and second magnetic column group 10,20 and the
Two, between a magnetic column group 20,10, and each first and second magnetic column group 10,20 and coil column group 30 are divided into disk 100,200 and coil
The relative position of the same axis of disk 300, furthermore each disk 100,200 and each coil panel 300 can be respectively defined as rotor or
Stator generates mutually relative motion for synchronizing, and wherein in the second magnetic column group 20 for setting in third and fourth magnetic part 21,22 or the
Four, 23 two sides of magnetic gap of three magnetic parts 22,21, which are respectively equipped in a water conservancy diversion magnetic part 25[for example the first magnetic column group 10, sets also together],
The position of the corresponding first and second magnetic column group 10,20 of the coil piece 31 of each coil column group 30 can be in align arrangement or Heterogeneous Permutation again, with
It increases the first and second magnetic column group 10, the magnetic power-assisted at 20 same time points or the first and second magnetic column group 10,20 is enable to generate lasting obtain
Magnetic power-assisted can effectively improve the inertia force of the direction of motion.
Also, being then another preferred embodiment of the invention as shown in Figure 11, Figure 12, which is the matrix in ring type
Change motor, is by at least disk 100 of one first magnetic column group 10, the disk 200 of at least one second magnetic column group 20 and at least
The coil panel 300 of one coil column group 30, which is staggeredly spaced, to be arranged, and each disk 100,200 is equipped with each other that homopolarity is side by side at least
Two concentric the first magnetic column groups 10 or the second magnetic column group 20, and each coil panel 300 is equipped at least two side by side concentric
Coil column group 30, but the first and second magnetic column group 10,20 of each same diameter and coil column group 30 are in shape, furthermore wherein each disk 100 relatively
First magnetic part 11A, 11B, second magnetic part 12A, 12B and the water conservancy diversion magnetic part 15A of the first magnetic column group 10A, 10B side by side,
The both ends of 15B are collected to axle center in corresponding, and the third magnetic part of the second magnetic column group 20A, 20B of each disk 200 side by side
The both ends of 21A, 21B, the 4th magnetic part 22A, 22B and water conservancy diversion magnetic part 25A, 25B are collected to axle center in corresponding, and each coil
The both ends of coil piece 31A, 31B of coil column group 30A, 30B of disk 300 side by side are also collected to axle center in corresponding, furthermore each magnetic
Disk 100,200 and each coil panel 300 can be respectively defined as rotor or stator, generate relative motion mutually for synchronizing, furthermore each
It the position of the corresponding each first and second magnetic column group 10,20 of the coil piece 31 of coil column group 30 side by side can be in contraposition arrangement or dislocation row
Column, to increase each first and second magnetic column group 10, the magnetic power-assisted at 20 same time points or each first and second magnetic column group 10,20 is enable to generate
Magnetic power-assisted is persistently obtained, the inertia force of the direction of motion can be effectively improved.
Via above-mentioned design it is found that the present invention carries electric device entirely passes through the edge side of moving in the first and second magnetic column group 10,20
It magnetizes between adjacent first and second magnetic part 11,12 of homopolarity to magnetize and third and fourth magnetic part 21,22 equipped with vertical movement direction
Heteropolar opposite flow magnetic part 15,25 design, so that magnetic power is effectively guided and is managed, and without extending out phenomenon, into
And it can be effectively used, furthermore since the coil piece of coil column group 30 31 can switch just according to corresponding water conservancy diversion magnetic part 15,25
To electricity or inversely to electricity, enable the first and second magnetic column group 10,20 is whole to obtain magnetic power-assisted, and overcomes magnetic column group homopolarity adjacent
Double magnetic effects, furthermore the pyramid magnetic yoke 33 at 32 both ends of magnetizer using coil piece 31, can not only be such that magnetic current accurately concentrates on
31 axis of coil piece, and its horizontal component can be increased using 33 two sides inclined-plane of pyramid magnetic yoke, therefore can effectively increase its magnetic and help
Power, reaching reduces kinetic energy loss and proposes high-revolving purpose, and then improves output power, significantly improves the practicality;
Simultaneously as the switching detector 41 of inductive switch group 40 is further able to the 33 tip point of pyramid magnetic yoke set on coil piece 31
330, and difference must be only set to electric direction to electric detector 45, the accuracy of control so not only can be improved, while can
To significantly simplify the structure of entire control system, the probability of its damage is reduced, its installation cost and maintenance cost can be effectively reduced,
Greatly improve its economic benefit.
Whereby it will be appreciated that the present invention is the splendid creation of an intention, in addition to effectively solve that habit formula person faced asks
Topic, more significantly improves effect.
Claims (10)
1. a kind of complete carry electric device, it is characterised in that: be by least one first magnetic column group, at least one second magnetic column group, at least
One coil column group and at least an inductive switch group is formed, the first and second magnetic column group and coil column group be respectively defined as rotor or
Stator, the first and second magnetic column group is synchronous to generate relative motion with the coil column group;
And the first magnetic column group has along spaced at least one first magnetic part of the direction of motion and at least one second magnetism
Part, the equal length of first and second magnetic part, and first and second magnetic part magnetizes in the direction of motion, adjacent first,
The magnetic pole of two magnetic parts or second, one magnetic part first and second magnetic part or second, one magnetic part adjacent and adjacent in homopolarity
Between be respectively provided with a magnetic gap, the first magnetic column group is respectively equipped with one in the side that the magnetic gap of each first magnetic column group corresponds to coil column group and leads
Magnetic part is flowed, and the perpendicular direction of motion of water conservancy diversion magnetic part of each first magnetic column group magnetizes, the water conservancy diversion of each first magnetic column group is magnetic
The magnetic pole of the corresponding first magnetic column group one end of part and the magnetic pole of an adjacent second, magnetic part are in heteropolar adjacent;
The second magnetic column group is parallel to the first magnetic column group, which has along the direction of motion spaced at least one
Third magnetic part and at least one the 4th magnetic part, the equal length of third and fourth magnetic part, and third and fourth described magnetic part
It magnetizes in the direction of motion, third and fourth described magnetic part respectively corresponds the first and second magnetic part of the first magnetic column group, and the second magnetic column
The magnetic pole of first third magnetic part and first the first magnetic part of opposite first magnetic column group is in heteropolar opposite in group, adjacent
The magnetic pole of third and fourth magnetic part or the four, the three magnetic parts third and fourth magnetic part or four, three magnetic adjacent and adjacent in homopolarity
It is respectively provided with a magnetic gap between property part, the second magnetic column group is respectively equipped in the side that the magnetic gap of each second magnetic column group corresponds to coil column group
One water conservancy diversion magnetic part, and the perpendicular direction of motion of water conservancy diversion magnetic part of each second magnetic column group magnetizes, but each second magnetic column group is led
The magnetic pole of the corresponding second magnetic column group one end of magnetic part and the magnetic pole of adjacent magnetic part are flowed in heteropolar adjacent;
The coil column is mounted between opposite first and second magnetic column group or second, one magnetic column group, and each coil column group is respectively provided with one
It is a or more than one can the coil piece that magnetizes of the perpendicular direction of motion be alternatively arranged, each coil piece is respectively provided with a magnetizer
And one be set around magnetizer coil, and each coil be electrically connected simultaneously have it is one positive to the power supply of electricity and a reverse electricity to electricity
Source;
The inductive switch group include be located at coil column group coil piece one switching detector and be set to the first magnetic column group or
At least the one of second magnetic column group gives electric detector, wherein can be according to the water conservancy diversion magnetic of the first magnetic column group or the second magnetic column group to electric detector
Property part opposing polarities selection it is positive to electricity to electric detector or it is reverse to electricity to electric detector, and the switching detector is set
In each coil piece axis center of coil column group, to the water conservancy diversion at the coil piece both ends after electromagnetization and opposite first and second magnetic column group
Magnetic part is opposite in homopolarity.
2. full load electric device as described in claim 1, it is characterised in that: the first and second magnetic column group can be respectively arranged on a magnetic
On disk, and the disk is fixedly arranged on a transmission shaft, and the coil column group can be set on a coil panel, and the coil panel is set to phase
Between disk, and coil panel can be pivoted with respect to transmission shaft.
3. full load electric device as described in claim 1, it is characterised in that: the magnetizer two of the coil piece of the coil column group
End is respectively formed with a pyramid magnetic yoke, and the pyramid magnetic yoke at magnetizer both ends is respectively provided with the tip of a corresponding magnetizer long axis
Point.
4. full load electric device as claimed in claim 3, it is characterised in that: the switching detector of the inductive switch group is set to each
The tip point of the pyramid magnetic yoke of the magnetizer of coil piece, and described the first magnetic column group or the second magnetic column group are divided into electric detector
Each water conservancy diversion magnetic part center.
5. full load electric device as described in claim 1, it is characterised in that: this carries the matrixing machine that electric device is disc type entirely
Structure is staggeredly to be spaced setting by the coil column group of three groups or three groups or more of the first and second magnetic column group and two groups or two groups or more,
Wherein coil column group is divided between opposite the first and second magnetic column group and second, one magnetic column group, and wherein in the second magnetic column group for setting
Or first magnetic column group in magnetic gap two sides be respectively equipped with the water conservancy diversion magnetic part of a corresponding coil column group.
6. full load electric device as claimed in claim 5, it is characterised in that: the coil piece of each coil column group corresponding first and second
The position of magnetic column group is in contraposition arrangement.
7. full load electric device as claimed in claim 5, it is characterised in that: the coil piece of each coil column group corresponding first and second
The position of magnetic column group is dislocation arrangement.
8. full load electric device as described in claim 1, it is characterised in that: this carries the matrixing machine that electric device is ring type entirely
Structure is by the coil of at least disk of one first magnetic column group, the disk of at least one second magnetic column group and an at least coil column group
Disk, which is staggeredly spaced, to be arranged, and each disk is equipped at least two the first concentric and opposite magnetic column groups of homopolarity side by side each other
And the second magnetic column group, and each coil panel is equipped at least two concentric coil column groups side by side, the first and second magnetic column of each same diameter
Group is in opposite shape with coil column group.
9. as claimed in claim 8 complete carry electric device, it is characterised in that: the respectively coil piece of coil column group side by side corresponding the
One, the position of magnetic part is in align arrangement to two magnetic column groups side by side.
10. full load electric device as claimed in claim 8, it is characterised in that: respectively the coil piece of coil column group side by side is corresponding
The position of first and second magnetic column group magnetic part side by side is dislocation arrangement.
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CN201810285523.3A CN110350759A (en) | 2018-04-03 | 2018-04-03 | It is complete to carry electric device |
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CN201810285523.3A CN110350759A (en) | 2018-04-03 | 2018-04-03 | It is complete to carry electric device |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN204794383U (en) * | 2015-06-11 | 2015-11-18 | 宇生自然能源科技股份有限公司 | Electromagnetic device |
CN205725401U (en) * | 2016-04-25 | 2016-11-23 | 宇生自然能源科技股份有限公司 | Electric motor structure |
CN207098911U (en) * | 2017-06-20 | 2018-03-13 | 宇生自然能源科技股份有限公司 | High magnetic flux magnetic group device |
CN207098909U (en) * | 2017-06-20 | 2018-03-13 | 宇生自然能源科技股份有限公司 | Tiltedly help formula calutron |
CN208226837U (en) * | 2018-04-03 | 2018-12-11 | 宇生自然能源科技股份有限公司 | It is complete to carry electric device |
-
2018
- 2018-04-03 CN CN201810285523.3A patent/CN110350759A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN204794383U (en) * | 2015-06-11 | 2015-11-18 | 宇生自然能源科技股份有限公司 | Electromagnetic device |
CN205725401U (en) * | 2016-04-25 | 2016-11-23 | 宇生自然能源科技股份有限公司 | Electric motor structure |
CN207098911U (en) * | 2017-06-20 | 2018-03-13 | 宇生自然能源科技股份有限公司 | High magnetic flux magnetic group device |
CN207098909U (en) * | 2017-06-20 | 2018-03-13 | 宇生自然能源科技股份有限公司 | Tiltedly help formula calutron |
CN208226837U (en) * | 2018-04-03 | 2018-12-11 | 宇生自然能源科技股份有限公司 | It is complete to carry electric device |
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Application publication date: 20191018 |