CN205490075U

CN205490075U - Magnetic energy conversion device

Info

Publication number: CN205490075U
Application number: CN201620108506.9U
Authority: CN
Inventors: 许永顺; 许名俊; 许文毓
Original assignee: Yu Sheng Natural Energy Technology (hongkong) Co Ltd; Yu Sheng Natural Energy Technology Co Ltd (singapore); Yusheng Natural Energy Technology Co Ltd
Current assignee: Yu Sheng Natural Energy Technology (hongkong) Co Ltd; Yu Sheng Natural Energy Technology Co Ltd (singapore); Yusheng Natural Energy Technology Co Ltd
Priority date: 2016-02-03
Filing date: 2016-02-03
Publication date: 2016-08-17
Anticipated expiration: 2026-02-03

Abstract

The utility model provides a magnetic energy conversion device, it is by two relative magnetic units, an at least coil assembly and an at least induction switch circuit form, two relative magnetic units are the interval and set up, and form by magnetic pole and direction of motion vertically magnetism spare tandem respectively, the adjacent magnetism spare of homonymy magnetic unit is the different form of magnetic pole and arranges, it is relative that the magnetism spare of coil assembly both sides magnetic unit is homopolar magnetic pole, the coil assembly is located between two relative magnetic units, and be the equidistance interval with two relative magnetic units, induction switch circuit then is equipped with a route in magnetism spare central authorities and examines the knowledge ware, and the punishment of respectively meeting of adjacent magnetism spare is equipped with one and opens circuit and examine the knowledge ware, therefore, the switch -on that sees through induction switch circuit control coil group whether, except that the magnetic stress that can make the in operation supports each other, and the compression of magnet passage magnetic current forms the flux, the horizontal component of summation is utilized and the reluctance force of in operation can be reduced, and hyperplasia magnetism helping hand, can effectively reduce the kinetic energy loss, thereby improve whole running speed, further increase magnetic action power and generated energy, thereby carry high energy conversion efficiency.

Description

Magnetic energy conversion device

Technical field

This utility model is subordinate to the technical field of a kind of magnetic energy conversion, specifically refer to a kind of reluctance force reduce, hypertrophy The magnetic energy conversion device of magnetic power-assisted, so as to reducing kinetic energy loss, thus improves its energy conversion efficiency.

Background technology

Pressing, the structure of general calutron is made up of with rotor the stator in relative motion, as Figure 1A to Fig. 1 C takes off The person of showing, this magnetic group 10 can be respectively defined as rotor and stator with coil groups 20, and wherein magnetic group 10 is by the first relative magnetic Part 11 forms side by side with the second magnetic part 12, and the magnetic pole of the opposite end of first and second magnetic part 11,12 is different shape, and coil groups 20 are made up of at least one coil 21 being located between first and second magnetic part 11,12.The magnetic line of force due to first and second magnetic part 11,12 Near magnetic pole center line, the most intensive and sectioned coil 21 number of turn is most, and when generating, the coil 21 of coil groups 20 under a load can The excitatory electric magnet that becomes, and form different polarity with magnetic group 10；

Therefore, when the magnetic pole center line of first and second magnetic part 11,12 crossed over by the coil 21 of coil groups 20 (such as Figure 1A～figure 1C), inevasible hypertrophy magnetic phenomenon, right coil 21 2 end is i.e. occurred to be single magnetic attraction, interfere without any magnetic stress Phenomenon, makes the magnetic group 10 in moving cause the high reluctance force being unfavorable for movement velocity, and causes kinetic energy loss, have influence on the energy and turn Change rate, therefore how to solve this problem, be industry institute urgently developer.

Edge is, the design people is to convert problem encountered further investigated in application for aforementioned existing magnetic energy, and borrows By being engaged in the research and development experience of related industry for many years, actively seek solution, the research through being continually striving to study, success finally Develop a kind of magnetic energy conversion device, so as to the inconvenience that overcomes existing magnetic energy to convert to be caused because of hypertrophy height reluctance force with tired Disturb.

Utility model content

Therefore, main purpose of the present utility model is at the magnetic energy conversion device providing a kind of magnetic stress to support mutually, by energy Reduce reluctance force, and hypertrophy magnetic power-assisted, to reduce kinetic energy loss, and improve rotating speed, thus improve energy conversion efficiency.

Also, another main purpose of the present utility model is providing a kind of magnetic energy conversion device making vertical component support mutually, It can reduce reluctance force, and the compression of magnet passage magnetic current forms flux, utilizes the horizontal component being added, and strengthens magnetic force and send out Electricity.

Based on this, this utility model, mainly through following technological means, realizes aforesaid purpose and effect thereof:

A kind of magnetic energy conversion device, it is by relative two magnetic groups, at least one coil groups and at least one inductive switch circuit institute group Become, and these relative two magnetic groups and can synchronize and coil groups generation relative motion；

Described relative two magnetic groups are set in distance, vertical with the direction of motion at least by magnetic pole respectively relative to two magnetic groups again One first magnetic part and at least one second magnetic part tandem form, and first and second magnetic part of homonymy magnetic group is the arrangement of magnetic pole different shape, separately First and second magnetic part of coil groups both sides magnetic group and second, one magnetic part are that homopolarity magnetic pole is relative；

Coil groups described again is located between aforementioned relative two magnetic groups, and is equi-spaced apart with relative two magnetic groups, respectively this coil Group has the coil in a parallel motion direction and is constituted；

As for, described inductive switch circuit then in relative two magnetic groups in each first and second magnetic part of either side magnetic group Centre is provided with a path detector, and each joint of first and second magnetic part is arranged with an open circuit detector, and this inductive switch circuit In the middle of the coil of this coil groups, be provided with a sensing element, in order to can make when this path detector of sensing element detection coil with Turn between load, and can make when this open circuit detector of sensing element detection to cut off between coil and load.

Further, the length of this coil is 0.8～1:2 with the length ratio of first and second magnetic part.

Whereby, this utility model is through the realization of aforementioned embodiment, and this utility model can make the magnetic stress in operating Support mutually, and the compression of magnet passage magnetic current forms flux, utilize the horizontal component being added can reduce the reluctance force in operating, and hypertrophy Magnetic power-assisted, can effectively reduce kinetic energy loss, thus improve overall operation speed, strengthens magnetic force and generated energy further, from And improve energy conversion efficiency.

For making your juror can further appreciate that composition of the present utility model, feature and other purposes, it is below to lift this The preferred embodiment of utility model, and coordinate graphic detailed description as after, allow simultaneously be familiar with this those skilled in the art can be concrete Implement.

Accompanying drawing explanation

Figure 1A to Fig. 1 C is the configuration diagram of existing calutron；

Fig. 2 is the configuration diagram of this utility model magnetic energy conversion device, in order to its main composition element and phase thereof to be described To relation；

Fig. 3 A to Fig. 3 C is the action schematic diagram of this utility model magnetic energy conversion device;

Fig. 4 A to Fig. 4 C is the action schematic diagram of this utility model magnetic energy conversion device;

Fig. 5 A, Fig. 5 B are the action schematic diagram of this utility model magnetic energy conversion device;

Fig. 6 A, Fig. 6 B are the action schematic diagram of this utility model magnetic energy conversion device.

Symbol description:

10 magnetic group 11 first magnetic parts

12 second magnetic part 20 coil groups

21 coil 50 magnetic groups

51 first magnetic part 52 second magnetic parts

60 coil groups 61 coils

70 inductive switch circuit 71 path detectors

72 open circuit detector 75 sensing elements.

Detailed description of the invention

This utility model one magnetic energy conversion device, the specific embodiment of the utility model of figure of enclosing illustration and component thereof In, all about before with rear, left and right, top and bottom, top and bottom and level and vertical reference, the side of being only used for Just it is described, and unrestricted this utility model, the most non-its component is limited to any position or direction in space.Graphic with explanation Size specified in book, when can without departing from claim of the present utility model, according to of the present utility model specifically The design of embodiment is changed with demand.

And the composition of magnetic energy conversion device of the present utility model, as in figure 2 it is shown, by relative two magnetic group 50, at least coils Group 60 and an inductive switch circuit 70 are formed, and this relative to two magnetic groups 50 and can synchronize to produce relative rotating with coil groups 60 Or linear movement；

The composition in detail of this magnetic energy conversion device preferred embodiment is then still referring to person shown by Fig. 2 again, wherein two magnetic group 50 are set in distance, and coil groups 60 can be moved by locking phase by two magnetic groups 50, and two magnetic groups 50 are respectively by magnetic pole and the direction of motion again At least one first vertical magnetic part 51 and at least one second magnetic part 52 tandem form, and first and second magnetic part of the magnetic group 50 of homonymy 51, the 52 different shape arrangement in magnetic pole, such as the first magnetic part 51 of upside magnetic group 50 with N pole pole pair answer coil groups 60, then second Magnetic part 52 i.e. answers coil groups 60, again first and second magnetic part 51,52 and second, of coil groups 60 both sides magnetic group 50 with S pole pole pair In homopolarity magnetic pole relatively, such as the first magnetic part 51 of the magnetic group 50 of upside answers coil groups 60, then with N pole pole pair to magnetic part 52,51 The magnetic group 50 of downside i.e. answers coil groups 60 with the N pole pole pair of the second relative magnetic part 52；

Coil groups 60 described again is located between aforementioned two magnetic groups 50, and with two magnetic groups 50 in equi-spaced apart, for offsetting two magnetic Organizing the vertical component of 50 opposed coil groups 60, respectively this coil groups 60 has 61 structures of coil of parallel magnetic group 50 direction of motion Become, and the length ratio of the length of coil 61 and first and second magnetic part 51,52 is 0.8～1:2, and coil 61 opening with aforementioned sensing Close circuit 70 to connect, for being controlled to form switching line state by inductive switch circuit 70；

Then each first and second magnetic part 51,52 of arbitrary magnetic group 50 in two magnetic groups 50 as described inductive switch circuit 70 Central authorities be provided with a path detector 71, and each joint of first and second magnetic part 51,52 is arranged with an open circuit detector 72, and This inductive switch circuit 70 is provided with a sensing element 75, in order to when sensing element 75 detection in the middle of the coil 61 of this coil groups 60 Can make during this path detector 71 to turn between coil 61 and load, on the contrary the energy when this open circuit detector 72 of sensing element 75 detection Make to cut off between coil 61 and load；

Whereby, group constitutes one can effectively reduce reluctance force, reduces kinetic energy loss, and carries high-revolving magnetic energy conversion device Person.

As for this utility model magnetic energy conversion device when actually used, then as shown in Fig. 3 A～Fig. 6 B, when two magnetic groups 50 When opposed coil group 60 is moved towards the second magnetic part 52 displacement operating by the first magnetic part 51 of upside, if the coil 61 of coil groups 60 is because of sense When answering the path detector 71 in element 75 detection the first magnetic part 51 stage casing (such as Fig. 3 A), then inductive switch circuit 70 forms path, Can make to turn between coil 61 and load；(such as Fig. 3 B) coil 61 because generating an electric magnet under load of electrical generation, its corresponding motion side To one end can swash raw S pole magnetic pole, the other end then forms the S pole magnetic pole of N pole magnetic pole, so this coil 61 can opposite upper magnetic First magnetic part 51 of group 50 produces forward magnetic attraction, simultaneously this coil 61 with the N pole magnetic pole of the second magnetic part 52 of downside magnetic group 50 The N pole magnetic pole of another end can produce with the N pole magnetic pole of the second magnetic part 52 of downside magnetic group 50 by the first magnetic part 51 of opposite upper magnetic group 50 Give birth to forward magnetic repulsion, and understand the next one the second magnetic part 52 of opposite upper magnetic group 50 and the next one the first magnetic part of downside magnetic group 50 The S pole magnetic pole of 51 produces forward magnetic attraction (such as Fig. 3 B)；(such as Fig. 3 C) moves on close to Magnet joint when both sides magnetic group 50 Time, although the S pole magnetic pole of this coil 61 crosses the first magnetic part 51 of upside magnetic group 50 and the N of the second magnetic part 52 of downside magnetic group 50 Pole magnetic pole and produce reverse magnetic attraction, but owing to the N pole magnetic pole of this coil 61 another end can the first magnetic part of opposite upper magnetic group 50 51 produce forward magnetic repulsion with the N pole magnetic pole of the second magnetic part 52 of downside magnetic group 50, and can the next one of opposite upper magnetic group 50 The S pole magnetic pole of the second magnetic part 52 and the next one the first magnetic part 51 of downside magnetic group 50 produces forward magnetic attraction (such as Fig. 3 C), therefore always On body, forward magnetic stress, more than reverse magnetic stress, after reducing with aforementioned reverse reluctance force, still can produce the beneficially direction of motion Magnetic power-assisted.

And when the open circuit detector 72 between detection first and second magnetic part 51,52 of the sensing element 75 on coil 61, then feel Inductive switch circuit 70 forms open circuit, cuts off the load (such as Fig. 4 A～Fig. 4 C) of coil 61；(such as Fig. 4 B) if inductive switch circuit 70 Such as non-open circuit, then coil 61 will be because of generation one electric magnet excitatory under load of electrical generation, and one end of its corresponding direction of motion can form S Pole magnetic pole, the other end then forms the first magnetic part of the S pole magnetic pole meeting opposite upper magnetic group 50 of N pole magnetic pole, so this coil 61 51 produce reverse magnetic attraction with the N pole magnetic pole of the second magnetic part 52 of downside magnetic group 50, and can the next one of opposite upper magnetic group 50 Second magnetic part 52 produces reverse magnetic repulsion with the S pole magnetic pole of the next one the first magnetic part 51 of downside magnetic group 50, although this coil 61 The N pole magnetic pole of another end can produce with the S pole magnetic pole of the first magnetic part 51 of downside magnetic group 50 by the second magnetic part 52 of opposite upper magnetic group 50 Raw forward magnetic attraction, but reverse magnetic stress is more than forward magnetic stress generally, and generation is so unfavorable for the magnetic resistance of the direction of motion Power (such as Fig. 4 B)；(such as Fig. 4 C) when both sides magnetic group 50 moves on close to upside magnetic group 50 second magnetic part 52 magnetic pole center line, because of A upper first magnetic part 51 of the S pole magnetic pole meeting opposite upper magnetic group 50 of this coil 61 and upper second magnetic of downside magnetic group 50 The N pole magnetic pole of part 52 produces reverse magnetic attraction, and the second magnetic part 52 and the first of downside magnetic group 50 of meeting opposite upper magnetic group 50 The S pole magnetic pole of magnetic part 51 produces reverse magnetic repulsion, and the second magnetic of the N pole magnetic pole meeting opposite upper magnetic group 50 of this coil 61 another end Part 52 produces reverse magnetic attraction (such as Fig. 4 C), therefore its magnetic resistance of whole section with the S pole magnetic pole of the first magnetic part 51 of downside magnetic group 50 Power is relatively big, therefore takes to cut off coil 61 and load, and makes coil 61 no power, keeps away it and swashs raw polarity, lowers kinetic energy loss.

Then, as shown in Fig. 5 A, Fig. 5 B, two magnetic groups 50 continue displacement operating, when in sensing element 75 detection on coil 61 During the path detector 71 in the second magnetic part 52 stage casing of side magnetic group 50 (such as Fig. 5 A), then inductive switch circuit 70 forms path, energy Make to turn between coil 61 and load；(such as Fig. 5 B), coil 61 because generating an electric magnet under load of electrical generation, its corresponding direction of motion One end can form N pole magnetic pole, the other end then forms S pole magnetic pole, although the N pole magnetic pole of this coil 61 can opposite upper magnetic group The second magnetic part 52 of 50 produces reverse magnetic attraction with the S pole magnetic pole of the first magnetic part 51 of downside magnetic group 50, but due to this coil 61 The S pole magnetic pole of another end can produce with the S pole magnetic pole of the first magnetic part 51 of downside magnetic group 50 by the second magnetic part 52 of opposite upper magnetic group 50 Raw forward magnetic repulsion, and can be to the next one the second magnetic part 52 of the next one the first magnetic part 51 of upside magnetic group 50 with downside magnetic group 50 N pole magnetic pole produce forward magnetic attraction (such as Fig. 5 B), therefore the most forward magnetic stress is more than reverse magnetic stress, with aforementioned inversely After reluctance force reduces, still can produce the magnetic power-assisted of the beneficially direction of motion.

And when the open circuit detector 72 between detection second, magnetic part 52,51 of the sensing element 75 on coil 61, then feel Inductive switch circuit 70 forms open circuit, cuts off the load (such as Fig. 6 A～Fig. 6 B) of coil 61；(such as Fig. 6 B) if inductive switch circuit 70 Such as non-open circuit, then coil 61 will be because of generation one electric magnet excitatory under load of electrical generation, and one end of its corresponding direction of motion can form N Pole magnetic pole, the other end then forms the N pole magnetic pole of S pole magnetic pole, so this coil 61 can upper the of opposite upper magnetic group 50 Two magnetic parts 52 produce reverse magnetic attraction with the S pole magnetic pole of a upper first magnetic part 51 of downside magnetic group 50, and can opposite upper magnetic First magnetic part 51 of group 50 produces reverse magnetic repulsion with the N pole magnetic pole of the second magnetic part 52 of downside magnetic group 50, and this coil 61 is another The S pole magnetic pole of end can produce with the N pole magnetic pole of the second magnetic part 52 of downside magnetic group 50 by the first magnetic part 51 of opposite upper magnetic group 50 Reverse magnetic attraction (such as Fig. 6 B), therefore its reluctance force of whole section is relatively big, therefore takes to cut off coil 61 and load, and makes coil 61 obstructed Electricity, keeps away it and swashs raw polarity, lower kinetic energy loss.

This utility model is also arranged to shape in homopolarity by relative two magnetic groups 50, offsetting the vertical component of magnetic resistance Strengthen the horizontal component that magnetic helps, reluctance force can be reduced further, and effectively reduce kinetic energy loss, strengthen its magnetic force simultaneously, Promote operating rotating speed, and energy transition rate can be substantially improved, the flux of the compressed formation of the magnetic line of force simultaneously so that it is magnetic flux conduct is advised Rule, intensive full, increase cutting number, strengthen its generated energy.

Claims

1. a magnetic energy conversion device, it is made up of relative two magnetic groups, at least one coil groups and at least one inductive switch circuit, And these relative two magnetic groups and can synchronize and coil groups produce relative motion；It is characterized in that:

Described relative two magnetic groups are set in distance, again relative to two magnetic groups respectively by magnetic pole vertical with the direction of motion at least one One magnetic part and at least one second magnetic part tandem form, and first and second magnetic part of homonymy magnetic group is the arrangement of magnetic pole different shape, another coil First and second magnetic part and second, the one magnetic part of group both sides magnetic group are that homopolarity magnetic pole is relative；

Coil groups described again is located between aforementioned relative two magnetic groups, and is equi-spaced apart with relative two magnetic groups, respectively this coil groups tool The coil having a parallel motion direction is constituted；

As for, described inductive switch circuit, then in relative two magnetic groups, the central authorities of each first and second magnetic part of either side magnetic group set There is a path detector, and each joint of first and second magnetic part is arranged with an open circuit detector, and this inductive switch circuit is in this A sensing element it is provided with, in order to coil and load can be made when this path detector of sensing element detection in the middle of the coil of coil groups Between turn on, and can make when this open circuit detector of sensing element detection coil and load between cut off.

2. magnetic energy conversion device as claimed in claim 1, it is characterised in that: the length of this coil and the length of first and second magnetic part Degree ratio is 0.8～1:2.