CN101938200A - Axial-axial magnetic field modulation type brushless composite structure motor - Google Patents

Abstract

The invention relates to an axial-axial magnetic field modulation type brushless composite structure motor, belonging to the field of motors. The invention aims at solving the problems of large system size, complex structure, high cost, limited performance and ineffective power output because an engine and other components of the system can cooperate simply and efficiently in the traditional serial, parallel and mixed drive devices. In the invention, a case is divided into two parts which are respectively provided an axial dual-rotor motor and an axial torque regulating motor, wherein a permanent magnet rotor of the axial dual-rotor motor is driven by a prime motor to form a 2n magnetic field, a stator forms a 2p magnetic filed, an output shaft of a modulation loop rotor with q magnetic blocks and insulated blocks outputs a required rotating speed, p is equal to the absolute value of hn+kq, the output rotating speed does not depend on the input rotating speed, and stepless speed change is realized; the axial torque regulating motor inputs drive torque or braking torque according to actual load need, the actual torque need of the load is satisfied, and thus, energy input and output by the output shaft of the modulation loop rotor are balanced.

Description

Axially-axial magnetic field modulation type brushless composite structure motor

Technical field

The present invention relates to axial-axial magnetic field modulation type brushless composite structure motor, belong to machine field.

Background technology

The fuel consume of traditional combustion engine automobile and pollution emission are the hot issues of worldwide attention.Use electric automobile can realize low energy consumption, low emission, but because as the problem of aspects such as its energy density of battery of one of critical component of electric automobile, life-span, price, make the cost performance of electric automobile to contend with traditional internal-combustion engines vehicle, in this case, the mixed power electric car development of merging internal-combustion engines vehicle and electric automobile advantage is rapid, becomes the new automobile hot of research and development.

The characteristics of existing tandem drive unit are: can make engine not be subjected to the influence of automobile running working condition, all the time in its best service area stable operation, and optionally use lower-powered engine, but generator that required power is enough big and motor, the output of engine need all be converted into electric energy and become the mechanical energy that drives automobile again, because the efficient of energy converting between mechanical and battery charging and discharging is lower, makes that the fuel oil energy utilization ratio is lower; Parallel drive unit capacity usage ratio is higher relatively, but engine operating condition will be subjected to the influence of automobile running working condition, therefore be unsuitable for changing frequent driving cycle,, need comparatively complicated speed change gear and power set composite and transmission mechanism than series-mode frame; The series parallel type drive unit has merged tandem and parallel advantage, because the energy Flow of whole drive system is more flexible, so parts such as engine, generator, motor can further be optimized, thereby make whole system efficient higher.But still need comparatively complicated speed change gear and power set composite and transmission mechanism.

In above-mentioned drive unit, there is the problem that engine and system's miscellaneous part can not cooperation, make whole system have volume heaviness, complex structure, power consumption is big, the exhaust emissions amount is big problem, and can not effectively output power.

Summary of the invention

The present invention seeks to that engine and system's miscellaneous part can not simply efficiently cooperate in existing tandem, the parallel and series parallel type drive unit in order to solve, whole system exists volume heaviness, complex structure, cost is higher, performance is limited thereby make, and the problem that can not output power effectively, provide a kind of axially-axial magnetic field modulation type brushless composite structure motor.

The present invention axially-first kind of structure of axial magnetic field modulation type brushless composite structure motor:

Axially-housing of axial magnetic field modulation type brushless composite structure motor is divided into left and right sides two parts by separator, axially double-rotor machine and axial torque adjusting motor is separately positioned in left and right sides two parts of housing, described axial double-rotor machine comprises first stator, the modulation rotor, first p-m rotor, p-m rotor output shaft and modulation rotor output shaft, described axial torque is regulated motor and is comprised second stator and second p-m rotor, modulation rotor output shaft is regulated the armature spindle of motor simultaneously as axial torque

Second stator that described axial torque is regulated motor is fixed on its right end face inwall of housing right half, and second p-m rotor is fixed on the modulation rotor output shaft, between second stator and second p-m rotor air gap L3 is arranged in axial direction;

Each outer toroid end face of two first stators of described axial double-rotor machine is separately fixed on the left and right sides end face inwall of housing left half, first p-m rotor is fixed on the p-m rotor output shaft, the p-m rotor output shaft is rotationally connected by a side end face of clutch shaft bearing and housing, and be rotationally connected with the modulation rotor by second bearing and the 4th bearing, the modulation rotor is between two first stators, the outside of first p-m rotor, one end of modulation rotor output shaft is fixed on the modulation rotor, and the separator of modulation rotor output shaft by the 3rd bearing and housing is rotationally connected, another end face by the 5th bearing and housing is rotationally connected; Between the annulus end face of the modulation rotor and first stator air gap L1 is arranged; Between the modulation rotor and first p-m rotor air gap L2 is arranged,

First stator by first stator core and m mutually first stator winding constitute, when first stator winding is connected with the symmetrical alternating current of m, form the rotating magnetic field of 2p number of poles, m, p are positive integer;

First p-m rotor is made of first p-m rotor iron core and a plurality of first permanent magnet units, first p-m rotor iron core is a disc, be symmetrical arranged first permanent magnet unit on the two side discs end faces of the first p-m rotor iron core, the 2n that is provided with on each disk end face first permanent magnet unit is that the center is the radiation wire and evenly arranges with the p-m rotor output shaft, first permanent magnet unit is parallel magnetization vertically, the magnetizing direction of adjacent two first permanent magnet units of same disk end face is opposite, two first permanent magnet unit magnetizing directions of position symmetry are identical on the two side discs end faces, during the rotation of first p-m rotor, form the p-m rotor magnetic fidle of end of 2n number of poles, n is a positive integer;

The modulation rotor is made of rotor field spider, 2q piece magnetic inductive block and 2q piece collets, rotor field spider is by two nose circle faces and the closed frame that annulus constitutes, be crisscross arranged on each nose circle face q piece magnetic inductive block and q piece collets, and be that the center is the radiation wire and evenly arranges with the p-m rotor output shaft;

And satisfy the p=|hn+kq| relational expression and set up, wherein, h is a positive odd number, and k is an integer.

The present invention axially-second kind of structure of axial magnetic field modulation type brushless composite structure motor:

Axially-housing of axial magnetic field modulation type brushless composite structure motor is divided into left and right sides two parts by separator, axial torque regulates motor and axial double-rotor machine is separately positioned in left and right sides two parts of housing, described axial double-rotor machine comprises first stator, the modulation rotor, first p-m rotor, p-m rotor output shaft and modulation rotor output shaft, described axial torque is regulated motor and is comprised second stator and second p-m rotor, modulation rotor output shaft is regulated the armature spindle of motor simultaneously as axial torque

Second stator that described axial torque is regulated motor is fixed on the left end face inwall of housing left half, and second p-m rotor is fixed on the modulation rotor output shaft, between second stator and second p-m rotor air gap L3 is arranged in axial direction;

The outer toroid end face of first stator of described axial double-rotor machine is fixed on the separator inwall of housing right half, first p-m rotor is fixed on the p-m rotor output shaft, the p-m rotor output shaft is rotationally connected by a side end face of the 3rd bearing and housing, the modulation rotor is between first stator and first p-m rotor, one end of modulation rotor output shaft is rotationally connected by second bearing and first p-m rotor, and modulates the separator of rotor output shaft by clutch shaft bearing and housing and be rotationally connected, opposite side end face by the 4th bearing and housing is rotationally connected; Between the modulation rotor and first stator air gap L1 is arranged; Between the modulation rotor and first p-m rotor air gap L2 is arranged;

First stator by first stator core and m mutually first stator winding constitute, when first stator winding is connected with the symmetrical alternating current of m, form the rotating magnetic field of 2p number of poles, m, p are positive integer;

First p-m rotor is made of first p-m rotor iron core and 2n first permanent magnet unit, first p-m rotor iron core is a disc, 2n first permanent magnet unit is arranged on the disk end face of the first p-m rotor iron core relative with modulating rotor, and with the p-m rotor output shaft be the center be the radiation wire evenly arrange, first permanent magnet unit is parallel magnetization vertically, the magnetizing direction of adjacent two first permanent magnet units is opposite, during the rotation of first p-m rotor, form the p-m rotor magnetic fidle of end of 2n number of poles, n is a positive integer;

The modulation rotor is made of rotor field spider, 2q piece magnetic inductive block and 2q piece collets, rotor field spider is by two nose circle faces and the closed frame that annulus constitutes, be crisscross arranged on each nose circle face q piece magnetic inductive block and q piece collets, and be that the center is the radiation wire and evenly arranges with the p-m rotor output shaft;

And satisfy the p=|hn+kq| relational expression and set up, wherein, h is a positive odd number, and k is an integer.

Advantage of the present invention: motor of the present invention is the motor of composite construction, have two rotating shafts, independently of one another and the rotating speed adjustable of the rotating speed of these two rotating shafts, the torque of two rotating shaft outputs is independently of one another and torque is adjustable, can make a rotating shaft realize the little torque operation of high speed like this, another rotating shaft realizes the low speed high torque operation.

The present invention can make internal combustion engine not rely on road conditions when being used in combination with internal combustion engine, operates in the peak efficiency district all the time, thereby has reduced fuel consume and exhaust emissions, realizes energy-saving and cost-reducing; It also can replace gearbox in the automobile simultaneously, and parts such as clutch and flywheel are simplified vehicle structure, and cost reduces.It can realize speed driving control, the wide region smoothly adjustable-speed of automobile by electronic device; Also having does not simultaneously need complicated cooling device, simple in structure, advantage that volume is little, with low cost.It also can be applicable in the commercial plant that two mechanical rotating shafts of different rotating speeds work simultaneously.

The invention belongs to brushless structure, having overcome has the brush composite structure motor because of the operational efficiency that adopts the electric brush slip ring feed structure and cause descends, reliability reduces and often need problem such as safeguard to parts such as brushes.

Description of drawings

Fig. 1 is the structural representation of execution mode one;

Fig. 2 is the A-A cutaway view of Fig. 1;

Fig. 3 is the B-B cutaway view of Fig. 1;

Fig. 4 is the C-C cutaway view of Fig. 1;

Fig. 5 is the D-D cutaway view of Fig. 1;

Fig. 6 is the E-E cutaway view of Fig. 1;

Fig. 7 is the structural representation of execution mode two;

Fig. 8 is the F-F cutaway view of Fig. 7;

Fig. 9 is the G-G cutaway view of Fig. 7;

Figure 10 is the H-H cutaway view of Fig. 7;

Figure 11 is the I-I cutaway view of Fig. 7;

Figure 12 is the J-J cutaway view of Fig. 7.

Embodiment

Embodiment one: present embodiment is described below in conjunction with Fig. 1 to Fig. 6, present embodiment axially-housing 4 of axial magnetic field modulation type brushless composite structure motor is divided into left and right sides two parts by separator, axially double-rotor machine and axial torque adjusting motor is separately positioned in left and right sides two parts of housing 4, described axial double-rotor machine comprises first stator 5, modulation rotor 6, first p-m rotor 7, p-m rotor output shaft 1 and modulation rotor output shaft 9, described axial torque is regulated motor and is comprised second stator 11 and second p-m rotor 12, modulation rotor output shaft 9 is regulated the armature spindle of motor simultaneously as axial torque

Second stator 11 that described axial torque is regulated motor is fixed on its right end face inwall of housing 4 right halfs, and second p-m rotor 12 is fixed on the modulation rotor output shaft 9, between second stator 11 and second p-m rotor 12 air gap L3 is arranged in axial direction;

Each outer toroid end face of two first stators 5 of described axial double-rotor machine is separately fixed on the left and right sides end face inwall of housing 4 left halfs, first p-m rotor 7 is fixed on the p-m rotor output shaft 1, p-m rotor output shaft 1 is rotationally connected by the side end face of clutch shaft bearing 2 with housing 4, and be rotationally connected with modulation rotor 6 by second bearing 3 and the 4th bearing 10, modulation rotor 6 is between two first stators 5, the outside of first p-m rotor 7, one end of modulation rotor output shaft 9 is fixed on the modulation rotor 6, and modulation rotor output shaft 9 is rotationally connected by the separator of the 3rd bearing 8 with housing 4, be rotationally connected by the 5th bearing 13 another end face with housing 4; Between the annulus end face of the modulation rotor 6 and first stator 5 air gap L1 is arranged; Between the modulation rotor 6 and first p-m rotor 7 air gap L2 is arranged,

First stator 5 by the first stator core 5-2 and m mutually the first stator winding 5-1 constitute, when the first stator winding 5-1 is connected with the symmetrical alternating current of m, form the rotating magnetic field of 2p number of poles, m, p are positive integer;

First p-m rotor 7 is made of first p-m rotor 7-2 unshakable in one's determination and a plurality of first permanent magnet unit 7-1, first p-m rotor 7-2 unshakable in one's determination is a disc, be symmetrical arranged the first permanent magnet unit 7-1 on the two side discs end faces of first p-m rotor 7-2 unshakable in one's determination, the 2n that is provided with on each disk end face the first permanent magnet unit 7-1 be that the center is and radiates wire and evenly arrange with p-m rotor output shaft 1, the first permanent magnet unit 7-1 is parallel magnetization vertically, the magnetizing direction of the adjacent two first permanent magnet unit 7-1 of same disk end face is opposite, two first permanent magnet unit 7-1 magnetizing directions of position symmetry are identical on the two side discs end faces, during 7 rotations of first p-m rotor, form the p-m rotor magnetic fidle of end of 2n number of poles, n is a positive integer;

Modulation rotor 6 is made of rotor field spider 6-3,2q piece magnetic inductive block 6-1 and 2q piece collets 6-2, rotor field spider 6-3 is by two nose circle faces and the closed frame that annulus constitutes, be crisscross arranged on each nose circle face q piece magnetic inductive block 6-1 and q piece collets 6-2, and be that the center is the radiation wire and evenly arranges with p-m rotor output shaft 1; Magnetic inductive block 6-1 selects soft-magnetic composite material, silicon steel sheet, solid-iron or soft magnetic ferrite for use.

And satisfy the p=|hn+kq| relational expression and set up, wherein, h is a positive odd number, and k is an integer.

The described axial double-rotor machine of present embodiment is axially symmetric structure, and it can avoid axially producing asymmetric magnetic field pulling force.

The first permanent magnet unit 7-1 that is provided with on first p-m rotor 7 has dual mode:

First kind: the 2n that embed to be provided with on each disk end face of the first permanent magnet unit 7-1 first a permanent magnet unit 7-1 be that the center is and radiates wire and evenly arrange with p-m rotor output shaft 1.

Second kind: the 2n of Surface Mount setting the first permanent magnet unit 7-1 be that the center is and radiates wire and evenly arrange with p-m rotor output shaft 1 on each disk end face of the first permanent magnet unit 7-1.

The first stator core 5-2 is an annular, the outer toroid end face of the first stator core 5-2 is fixed on the end face inwall of housing 4 left halfs, radially have a plurality of grooves on the interior annulus end face of the first stator core 5-2, the open centre line of described a plurality of grooves with p-m rotor output shaft 1 be the center be the radiation wire evenly distribute, the first stator winding 5-1 embeds respectively and forms the m phase winding in the described groove, and m is a positive integer.

Second stator 11 by the second stator core 11-1 and m ' mutually the second stator winding 11-2 constitute, the second stator core 11-1 is an annular, the outer toroid end face of the second stator core 11-1 is fixed on its right end face inwall of housing 4 right halfs, radially have a plurality of grooves on the interior annulus end face of the second stator core 11-1, the open centre line of described a plurality of grooves be that the center is and radiates wire and evenly distribute with modulation rotor output shaft 9, the second stator winding 11-2 embeds respectively and forms m ' phase winding in the described groove, and m ' is a positive integer.

Second p-m rotor 12 is made of second p-m rotor 12-2 unshakable in one's determination and 2r the second permanent magnet unit 12-1, second p-m rotor 12-2 unshakable in one's determination is a disc, and be fixed on the modulation rotor output shaft 9,2r the second permanent magnet unit 12-1 is arranged on the second p-m rotor 12-2 unshakable in one's determination card relative with second stator 11, and be that the center is and radiates wire and evenly arrange with modulation rotor output shaft 9, the individual second permanent magnet unit 12-1 of 2r is arranged on the second p-m rotor 12-2 unshakable in one's determination surface or embeds in the second p-m rotor 12-2 unshakable in one's determination surface, the second permanent magnet unit 12-1 is parallel magnetization vertically, and the magnetizing direction of adjacent two second permanent magnet unit 12-1 is opposite, and r is a positive integer.

Axially-and the radial magnetic field modulation type brushless composite structure motor is divided into two parts from attainable function: a part is axial double-rotor machine; Another part is that axial torque is regulated motor.The function that axial double-rotor machine is mainly realized is to make the rotating speed of modulating rotor output shaft 9 not rely on the rotating speed of p-m rotor output shaft 1, and make modulation rotor output shaft 9 can realize infinitely variable speeds, modulate rotor output shaft 9 simultaneously and export corresponding torque according to certain ratio according to the torque of the input of p-m rotor output shaft 1.The effect of axial torque adjusting motor is the needs according to actual loading, input driving torque or brake torque, the torque that makes modulation rotor output shaft 9 finally output to load does not rely on the torque that p-m rotor output shaft 1 is imported, and has realized the flexible of torque.

Following first labor is the operation principle of axial double-rotor machine once:

Have two air gap L1 in the axial double-rotor machine structure of present embodiment, action mechanism of magnetic field is identical in these two air gaps; Have two air gap L2 in the axial double-rotor machine structure of present embodiment, action mechanism of magnetic field also is identical in these two air gaps.This execution mode is the left-right symmetric structure, is the operation principle that example illustrates this execution mode with the stator in left side, the left end face of modulation rotor and the left surface of p-m rotor below, and the right side mechanism of action is identical with the left side.

At first prime mover drives first p-m rotor 7 by p-m rotor output shaft 1 with driving torque T and is rotated counterclockwise, and its rotary speed is Ω ₁, to first stator, 5 directions, the view direction in the following describes is identical from first p-m rotor 7;

In order to make first p-m rotor, 7 suffered equalising torques, will feed the symmetrical alternating current of m this moment among the first stator winding 5-1 of first stator 5, produce the stator rotating magnetic field of 2p number of poles in outer air gap L1, and the rotary speed of described stator rotating magnetic field is Ω ₂

Described stator rotating magnetic field is by the modulating action of modulation rotor 6, produces the rotating magnetic field with first p-m rotor, 7 identical numbers of poles in internal layer air gap L2, by the interaction in magnetic field, and the internal modulation torque T of generation ₁Act on first p-m rotor 7, and torque T ₁Direction be clockwise direction;

By principle of moment balance as can be known, T ₁=-T, the two equal and opposite in direction, direction is opposite;

According to the principle of active force and reaction force, in internal layer air gap L2, exist and internal modulation torque T as can be known again ₁The moment T ' that equal and opposite in direction and direction are opposite ₁Act on the modulation rotor 6 T ' simultaneously ₁Direction be counterclockwise;

Simultaneously, internal layer is with speed Ω ₁The p-m rotor rotating magnetic field that first p-m rotor 7 of rotation produces produces the rotating magnetic field of 2p number of poles by the modulating action of modulation rotor 6 in outer air gap L1, interact with the stator rotating magnetic field, can produce external modulation torque T ₂, and act on first stator 5, and external modulation torque T ₂Direction is a clockwise direction;

According to the principle of active force and reaction force, in outer air gap L1, exist and external modulation torque T as can be known ₂The moment T ' that equal and opposite in direction and direction are opposite ₂Act on simultaneously on the modulation rotor 6, and direction is counterclockwise;

Therefore, the output torque T of modulation rotor 6 ₃Satisfy condition: T ₃=T ' ₁+ T ' ₂=-(T ₁+ T ₂), the rotary speed of modulation rotor 6 is Ω ₃, and direction is counterclockwise, modulation rotor output shaft 9 is with torque T ₃Drive load.

This shows the output torque T of modulation rotor 6 ₃Be internal modulation torque T ₁With external modulation torque T ₂Synthetic torque, and the output torque of first p-m rotor 7 is internal modulation torque T ₁Therefore, the output torque T of modulation rotor 6 ₃Will be greater than the output torque T of first p-m rotor 7 ₁, and the two has certain no-load voltage ratio.

Dual-rotor structure motor of the present invention can be regulated rotating speed, the rotary speed Ω of stator rotating magnetic field by the frequency f of regulating the electric current that feeds the first stator winding 5-1 ₂, the modulation rotor 6 rotary speed Ω ₃Rotary speed Ω with first p-m rotor 7 ₁Satisfy relational expression:

${\mathrm{\Ω}}_2=\frac{\mathrm{hn}}{|\mathrm{hn}+\mathrm{kq}|}{\mathrm{\Ω}}_1+\frac{\mathrm{kq}}{|\mathrm{hn}+\mathrm{kq}|}{\mathrm{\Ω}}_3---\left(1\right)$

Make a concrete analysis of the principle of several special circumstances and generation thereof below:

1, modulating under the rotor 6 actionless situations, i.e. Ω ₃=0, substitution formula (1) then exists following relational expression to set up:

${\mathrm{\Ω}}_2=\frac{\mathrm{hn}}{|\mathrm{hn}+\mathrm{kq}|}{\mathrm{\Ω}}_1---\left(2\right)$

The principle of its generation is:

Under modulation rotor 6 actionless situations, the symmetrical alternating current of the logical m of first stator winding 5-1 this moment produces the stator rotating magnetic field, and first p-m rotor 7 also to have produced rotary speed under the driving of prime mover in the space be Ω ₁The rotor rotating magnetic field, this mode of operation can equivalence be regarded the mode of operation of magnetic gear as.Operation principle according to magnetic gear, and magnetic inductive block is counted the relational expression that q satisfies: p=|hn+kq| in the rotating magnetic field number of pole-pairs n of the number of pole-pairs p of stator rotating magnetic field, first p-m rotor 7 and the modulation rotor 6, as can be known: when modulation rotor 6 transfixions, the rotary speed Ω of stator rotating magnetic field then ₂Rotary speed Ω with first p-m rotor 7 of internal layer ₁Satisfy relational expression (2), the rotary speed Ω of stator rotating magnetic field that hence one can see that ₂Rotary speed Ω with first p-m rotor 7 ₁Have certain no-load voltage ratio relation, regulate that either party rotating speed all can make the opposing party's rotating speed change in the two.

2, feed frequency f=0 of the electric current of the first stator winding 5-1, when then the first stator winding 5-1 feeds direct current, produce the stationary magnetic field, do not rotate Ω ₂=0, substitution formula (1) then exists following relational expression to set up:

${\mathrm{\Ω}}_3=\frac{-\mathrm{hn}}{\mathrm{kq}}{\mathrm{\Ω}}_1---\left(3\right)$

The principle of its generation is:

When the first stator winding 5-1 feeds direct current, produce the stationary magnetic field, while first p-m rotor 7 has produced rotary speed in the space under the driving of prime mover be Ω ₁The rotor rotating magnetic field, and do not fix modulation rotor 6 this moment, this mode of operation can equivalence be regarded the another kind of mode of operation of magnetic gear as.Operation principle according to magnetic gear, and magnetic inductive block is counted the relational expression that q satisfies: p=|hn+kq| in the rotating magnetic field number of pole-pairs n of the number of pole-pairs p of stator rotating magnetic field, first p-m rotor 7 and the modulation rotor 6, as can be known: modulation rotor 6 will be rotated with certain speed, modulation rotor 6 rotary speed Ω ₃Rotary speed Ω with first p-m rotor 7 ₁To satisfy relational expression (3), hence one can see that the modulation rotor 6 rotary speed Ω ₃Rotary speed Ω with first p-m rotor 7 ₁Have certain no-load voltage ratio, regulate that either party rotating speed all can make the opposing party's rotating speed change in the two;

Describe the generation principle of formula (1) below, if the stationary magnetic field " rotation " that first stator 5 is produced, promptly when the first stator winding 5-1 feeds symmetrical alternating current generation stator rotating magnetic field, can derive the rotary speed Ω of stator rotating magnetic field according to the magnetic field modulation principle ₂Rotary speed Ω with modulation rotor 6 ₃Rotary speed Ω with first p-m rotor 7 ₁Satisfy relational expression (1).Therefore, as the speed Ω of internal layer first p-m rotor 7 ₁Under the constant situation, regulate the rotary speed Ω of stator rotating magnetic field ₂, can realize modulating the rotation rotating speed Ω of rotor 6 ₃Adjusting.This shows the rotary speed Ω of modulation rotor 6 ₃Be rotary speed Ω by first p-m rotor 7 ₁Rotary speed Ω with the stator rotating magnetic field ₂Common decision.

To sum up, double-rotor machine of the present invention is regulated rotating speed according to the frequency f of the electric current of formula (1) the adjusting feeding first stator winding 5-1.

The operation principle of following labor axial torque adjusting once motor:

Because second p-m rotor 12 is fixed on the modulation rotor output shaft 9, so second p-m rotor 12 is with the rotating speed rotation of modulation rotor output shaft 9.When the second stator winding 11-2 feeds polyphase alternating current, produce and the identical rotating magnetic field of second p-m rotor, 12 magnetic field numbers of poles in the space, interaction by magnetic field produces torque and affacts on second p-m rotor 12, is delivered to simultaneously on the modulation rotor output shaft 9.

When axial double-rotor machine is input to the torque that the torque on the modulation rotor output shaft 9 needs greater than load, electric current by the control input second stator winding 11-2, make axial torque regulate machine operation at the dynamic brake state, axial torque adjusting this moment motor produces brake torque and acts on the modulation rotor output shaft 9, therefore, the torque that has guaranteed 9 input and output of modulation rotor output shaft balances each other.At this moment, axially the energy part that is input on the modulation rotor output shaft 9 of double-rotor machine is used for driving load, and another part is used for driving axial torque adjustment motor makes its generating, thus make 9 input and output of modulation rotor output shaft can amount phase equilibrium.

When axial double-rotor machine is input to the torque that the torque on the modulation rotor output shaft 9 needs less than load, electric current by the control input second stator winding 11-2, make axial torque regulate machine operation at the motorized motions state, axial torque adjusting this moment motor produces driving torque and acts on the modulation rotor output shaft 9, therefore, the torque that has guaranteed 9 input and output of modulation rotor output shaft balances each other.At this moment, an energy part that drives load derives from axial double-rotor machine and is input to the energy of modulating on the rotor output shaft 9, another part derives from the energy that axial torque is regulated the motor input, thereby makes the energy amount phase equilibrium of modulation rotor output shaft 9 input and output.

When axial double-rotor machine is input to torque on the modulation rotor output shaft 9 when torque that load needs equates, the motor of axial torque adjusting is not at this moment worked.At this moment, the energy that drives load all derives from axial double-rotor machine and is input to the energy of modulating on the rotor output shaft 9, thereby makes the energy amount phase equilibrium of modulation rotor output shaft input and output.

Embodiment two: present embodiment is described below in conjunction with Fig. 7 to Figure 12, present embodiment axially-housing 4 of axial magnetic field modulation type brushless composite structure motor is divided into left and right sides two parts by separator, axial torque regulates motor and axial double-rotor machine is separately positioned in left and right sides two parts of housing 4, described axial double-rotor machine comprises first stator 5, modulation rotor 6, first p-m rotor 7, p-m rotor output shaft 1 and modulation rotor output shaft 9, described axial torque is regulated motor and is comprised second stator 11 and second p-m rotor 12, modulation rotor output shaft 9 is regulated the armature spindle of motor simultaneously as axial torque

Second stator 11 that described axial torque is regulated motor is fixed on the left end face inwall of housing 4 left halfs, and second p-m rotor 12 is fixed on the modulation rotor output shaft 9, between second stator 11 and second p-m rotor 12 air gap L3 is arranged in axial direction;

The outer toroid end face of first stator 5 of described axial double-rotor machine is fixed on the separator inwall of housing 4 right halfs, first p-m rotor 7 is fixed on the p-m rotor output shaft 1, p-m rotor output shaft 1 is rotationally connected by the side end face of the 3rd bearing 8 with housing 4, modulation rotor 6 is between first stator 5 and first p-m rotor 7, one end of modulation rotor output shaft 9 is rotationally connected by second bearing 3 and first p-m rotor 7, and modulation rotor output shaft 9 is rotationally connected by the separator of clutch shaft bearing 2 with housing 4, be rotationally connected by the opposite side end face of the 4th bearing 10 with housing 4; Between the modulation rotor 6 and first stator 5 air gap L1 is arranged; Between the modulation rotor 6 and first p-m rotor 7 air gap L2 is arranged;

First stator 5 by the first stator core 5-2 and m mutually the first stator winding 5-1 constitute, when the first stator winding 5-1 is connected with the symmetrical alternating current of m, form the rotating magnetic field of 2p number of poles, m, p are positive integer;

First p-m rotor 7 is made of first p-m rotor 7-2 unshakable in one's determination and 2n the first permanent magnet unit 7-1, first p-m rotor 7-2 unshakable in one's determination is a disc, 2n the first permanent magnet unit 7-1 is arranged on the disk end face of the first p-m rotor unshakable in one's determination 7-2 relative with modulating rotor 6, and with p-m rotor output shaft 1 be the center be the radiation wire evenly arrange, the first permanent magnet unit 7-1 is parallel magnetization vertically, the magnetizing direction of adjacent two first permanent magnet unit 7-1 is opposite, during 7 rotations of first p-m rotor, form the p-m rotor magnetic fidle of end of 2n number of poles, n is a positive integer;

Modulation rotor 6 is made of rotor field spider 6-3,2q piece magnetic inductive block 6-1 and 2q piece collets 6-2, rotor field spider 6-3 is by two nose circle faces and the closed frame that annulus constitutes, be crisscross arranged on each nose circle face q piece magnetic inductive block 6-1 and q piece collets 6-2, and be that the center is the radiation wire and evenly arranges with p-m rotor output shaft 1; Magnetic inductive block 6-1 selects soft-magnetic composite material, silicon steel sheet, solid-iron or soft magnetic ferrite for use.

And satisfy the p=|hn+kq| relational expression and set up, wherein, h is a positive odd number, and k is an integer.

The structure of the described motor of present embodiment is axial unilateral, makes that the volume of motor is littler, more compact structure.

The first stator core 5-2 is an annular, the outer toroid end face of the first stator core 5-2 is fixed on the separator inwall of housing 4 right halfs, radially have a plurality of grooves on the interior annulus end face of the first stator core 5-2, the open centre line of described a plurality of grooves with p-m rotor output shaft 1 be the center be the radiation wire evenly distribute, the first stator winding 5-1 embeds respectively and forms the m phase winding in the described groove, and m is a positive integer.

The first permanent magnet unit 7-1 that is provided with on first p-m rotor 7 has dual mode:

First kind: the 2n that embed to be provided with on each disk end face of the first permanent magnet unit 7-1 first a permanent magnet unit 7-1 be that the center is and radiates wire and evenly arrange with p-m rotor output shaft 1.

Second kind: the 2n of Surface Mount setting the first permanent magnet unit 7-1 be that the center is and radiates wire and evenly arrange with p-m rotor output shaft 1 on each disk end face of the first permanent magnet unit 7-1.

Second stator 11 by the second stator core 11-1 and m ' mutually the second stator winding 11-2 constitute, the second stator core 11-1 is an annular, the outer toroid end face of the second stator core 11-1 is fixed on the left end face inwall of housing 4 left halfs, radially have a plurality of grooves on the interior annulus end face of the second stator core 11-1, the open centre line of described a plurality of grooves be that the center is and radiates wire and evenly distribute with modulation rotor output shaft 9, the second stator winding 11-2 embeds respectively and forms m ' phase winding in the described groove, and m ' is a positive integer.

Second p-m rotor 12 is made of second p-m rotor 12-2 unshakable in one's determination and 2r the second permanent magnet unit 12-1, second p-m rotor 12-2 unshakable in one's determination is a disc, and be fixed on the modulation rotor output shaft 9,2r the second permanent magnet unit 12-1 is arranged on the second p-m rotor 12-2 unshakable in one's determination card relative with second stator 11, and be that the center is and radiates wire and evenly arrange with modulation rotor output shaft 9, the individual second permanent magnet unit 12-1 of 2r is arranged on the second p-m rotor 12-2 unshakable in one's determination surface or embeds in the second p-m rotor 12-2 unshakable in one's determination surface, the second permanent magnet unit 12-1 is parallel magnetization vertically, and the magnetizing direction of adjacent two second permanent magnet unit 12-1 is opposite, and r is a positive integer.

The principle of the described motor of present embodiment and execution mode one are described similar, repeat no more.

Claims (10)

1. axially-axial magnetic field modulation type brushless composite structure motor, it is characterized in that, housing (4) is divided into left and right sides two parts by separator, axially double-rotor machine and axial torque adjusting motor is separately positioned in left and right sides two parts of housing (4), described axial double-rotor machine comprises first stator (5), modulation rotor (6), first p-m rotor (7), p-m rotor output shaft (1) and modulation rotor output shaft (9), described axial torque is regulated motor and is comprised second stator (11) and second p-m rotor (12), modulation rotor output shaft (9) is regulated the armature spindle of motor simultaneously as axial torque

Second stator (11) that described axial torque is regulated motor is fixed on its right end face inwall of housing (4) right half, second p-m rotor (12) is fixed on the modulation rotor output shaft (9), between second stator (11) and second p-m rotor (12) air gap L3 is arranged in axial direction;

Each outer toroid end face of two first stators (5) of described axial double-rotor machine is separately fixed on the left and right sides end face inwall of housing (4) left half, first p-m rotor (7) is fixed on the p-m rotor output shaft (1), p-m rotor output shaft (1) is rotationally connected by the side end face of clutch shaft bearing (2) with housing (4), and be rotationally connected with modulation rotor (6) by second bearing (3) and the 4th bearing (10), modulation rotor (6) is positioned between two first stators (5), the outside of first p-m rotor (7), one end of modulation rotor output shaft (9) is fixed on the modulation rotor (6), and modulation rotor output shaft (9) is rotationally connected by the separator of the 3rd bearing (8) with housing (4), be rotationally connected by the 5th bearing (13) another end face with housing (4); Between the annulus end face of modulation rotor (6) and first stator (5) air gap L1 is arranged; Between modulation rotor (6) and first p-m rotor (7) air gap L2 is arranged,

First stator (5) by first stator core (5-2) and m mutually first stator winding (5-1) constitute, when first stator winding (5-1) is connected with the symmetrical alternating current of m, form the rotating magnetic field of 2p number of poles, m, p are positive integer;

First p-m rotor (7) is made of the first p-m rotor iron core (7-2) and a plurality of first permanent magnet unit (7-1), the first p-m rotor iron core (7-2) is a disc, be symmetrical arranged first permanent magnet unit (7-1) on the two side discs end faces of the first p-m rotor iron core (7-2), the 2n that is provided with on each disk end face first permanent magnet unit (7-1) be that the center is and radiates wire and evenly arrange with p-m rotor output shaft (1), first permanent magnet unit (7-1) is parallel magnetization vertically, the magnetizing direction of adjacent two first permanent magnet units of same disk end face (7-1) is opposite, two first permanent magnet units (7-1) magnetizing direction of position symmetry is identical on the two side discs end faces, during first p-m rotor (7) rotation, form the p-m rotor magnetic fidle of end of 2n number of poles, n is a positive integer;

Modulation rotor (6) is made of rotor field spider (6-3), 2q piece magnetic inductive block (6-1) and 2q piece collets (6-2), rotor field spider (6-3) is by two nose circle faces and the closed frame that annulus constitutes, be crisscross arranged on each nose circle face q piece magnetic inductive block (6-1) and q piece collets (6-2), and be that the center is the radiation wire and evenly arranges with p-m rotor output shaft (1);

And satisfy the p=|hn+kq| relational expression and set up, wherein, h is a positive odd number, and k is an integer.

2. according to claim 1 axially-axial magnetic field modulation type brushless composite structure motor, it is characterized in that, first stator core (5-2) is an annular, the outer toroid end face of first stator core (5-2) is fixed on the end face inwall of housing (4) left half, radially have a plurality of grooves on the interior annulus end face of first stator core (5-2), the open centre line of described a plurality of grooves with p-m rotor output shaft (1) be the center be the radiation wire evenly distribute, first stator winding (5-1) embeds respectively and forms the m phase winding in the described groove, and m is a positive integer.

3. according to claim 1 axially-axial magnetic field modulation type brushless composite structure motor, it is characterized in that magnetic inductive block (6-1) is selected soft-magnetic composite material, silicon steel sheet, solid-iron or soft magnetic ferrite for use.

4. according to claim 1 axially-axial magnetic field modulation type brushless composite structure motor, it is characterized in that, second stator (11) by second stator core (11-1) and m ' mutually second stator winding (11-2) constitute, second stator core (11-1) is an annular, the outer toroid end face of second stator core (11-1) is fixed on its right end face inwall of housing (4) right half, radially have a plurality of grooves on the interior annulus end face of second stator core (11-1), the open centre line of described a plurality of grooves be that the center is and radiates wire and evenly distribute with modulation rotor output shaft (9), second stator winding (11-2) embeds respectively and forms m ' phase winding in the described groove, and m ' is a positive integer.

5. according to claim 1 axially-axial magnetic field modulation type brushless composite structure motor, it is characterized in that, second p-m rotor (12) is made of the second p-m rotor iron core (12-2) and 2r second permanent magnet unit (12-1), the second p-m rotor iron core (12-2) is a disc, and be fixed on the modulation rotor output shaft (9), 2r second permanent magnet unit (12-1) is arranged on the second p-m rotor iron core (12-2) card relative with second stator (11), and be that the center is and radiates wire and evenly arrange with modulation rotor output shaft (9), individual second permanent magnet unit (12-1) of 2r is arranged on second p-m rotor iron core (12-2) surface or embeds in second p-m rotor iron core (12-2) surface, second permanent magnet unit (12-1) is parallel magnetization vertically, and the magnetizing direction of adjacent two second permanent magnet units (12-1) is opposite, and r is a positive integer.

6. axially-axial magnetic field modulation type brushless composite structure motor, it is characterized in that, housing (4) is divided into left and right sides two parts by separator, axial torque regulates motor and axial double-rotor machine is separately positioned in left and right sides two parts of housing (4), described axial double-rotor machine comprises first stator (5), modulation rotor (6), first p-m rotor (7), p-m rotor output shaft (1) and modulation rotor output shaft (9), described axial torque is regulated motor and is comprised second stator (11) and second p-m rotor (12), modulation rotor output shaft (9) is regulated the armature spindle of motor simultaneously as axial torque

Second stator (11) that described axial torque is regulated motor is fixed on the left end face inwall of housing (4) left half, second p-m rotor (12) is fixed on the modulation rotor output shaft (9), between second stator (11) and second p-m rotor (12) air gap L3 is arranged in axial direction;

The outer toroid end face of first stator (5) of described axial double-rotor machine is fixed on the separator inwall of housing (4) right half, first p-m rotor (7) is fixed on the p-m rotor output shaft (1), p-m rotor output shaft (1) is rotationally connected by the side end face of the 3rd bearing (8) with housing (4), modulation rotor (6) is positioned between first stator (5) and first p-m rotor (7), one end of modulation rotor output shaft (9) is rotationally connected by second bearing (3) and first p-m rotor (7), and modulation rotor output shaft (9) is rotationally connected by the separator of clutch shaft bearing (2) with housing (4), be rotationally connected by the opposite side end face of the 4th bearing (10) with housing (4); Between modulation rotor (6) and first stator (5) air gap L1 is arranged; Between modulation rotor (6) and first p-m rotor (7) air gap L2 is arranged;

First stator (5) by first stator core (5-2) and m mutually first stator winding (5-1) constitute, when first stator winding (5-1) is connected with the symmetrical alternating current of m, form the rotating magnetic field of 2p number of poles, m, p are positive integer;

First p-m rotor (7) is made of the first p-m rotor iron core (7-2) and 2n first permanent magnet unit (7-1), the first p-m rotor iron core (7-2) is a disc, 2n first permanent magnet unit (7-1) is arranged on the disk end face of the first p-m rotor iron core (7-2) relative with modulating rotor (6), and with p-m rotor output shaft (1) be the center be the radiation wire evenly arrange, first permanent magnet unit (7-1) is parallel magnetization vertically, the magnetizing direction of adjacent two first permanent magnet units (7-1) is opposite, during first p-m rotor (7) rotation, form the p-m rotor magnetic fidle of end of 2n number of poles, n is a positive integer;

Modulation rotor (6) is made of rotor field spider (6-3), 2q piece magnetic inductive block (6-1) and 2q piece collets (6-2), rotor field spider (6-3) is by two nose circle faces and the closed frame that annulus constitutes, be crisscross arranged on each nose circle face q piece magnetic inductive block (6-1) and q piece collets (6-2), and be that the center is the radiation wire and evenly arranges with p-m rotor output shaft (1);

And satisfy the p=|hn+kq| relational expression and set up, wherein, h is a positive odd number, and k is an integer.

7. according to claim 6 axially-axial magnetic field modulation type brushless composite structure motor, it is characterized in that, first stator core (5-2) is an annular, the outer toroid end face of first stator core (5-2) is fixed on the separator inwall of housing (4) right half, radially have a plurality of grooves on the interior annulus end face of first stator core (5-2), the open centre line of described a plurality of grooves with p-m rotor output shaft (1) be the center be the radiation wire evenly distribute, first stator winding (5-1) embeds respectively and forms the m phase winding in the described groove, and m is a positive integer.

8. according to claim 6 axially-axial magnetic field modulation type brushless composite structure motor, it is characterized in that magnetic inductive block (6-1) is selected soft-magnetic composite material, silicon steel sheet, solid-iron or soft magnetic ferrite for use.

9. according to claim 6 axially-axial magnetic field modulation type brushless composite structure motor, it is characterized in that, second stator (11) by second stator core (11-1) and m ' mutually second stator winding (11-2) constitute, second stator core (11-1) is an annular, the outer toroid end face of second stator core (11-1) is fixed on the left end face inwall of housing (4) left half, radially have a plurality of grooves on the interior annulus end face of second stator core (11-1), the open centre line of described a plurality of grooves be that the center is and radiates wire and evenly distribute with modulation rotor output shaft (9), second stator winding (11-2) embeds respectively and forms m ' phase winding in the described groove, and m ' is a positive integer.

10. according to claim 6 axially-axial magnetic field modulation type brushless composite structure motor, it is characterized in that, second p-m rotor (12) is made of the second p-m rotor iron core (12-2) and 2r second permanent magnet unit (12-1), the second p-m rotor iron core (12-2) is a disc, and be fixed on the modulation rotor output shaft (9), 2r second permanent magnet unit (12-1) is arranged on the second p-m rotor iron core (12-2) card relative with second stator (11), and be that the center is and radiates wire and evenly arrange with modulation rotor output shaft (9), individual second permanent magnet unit (12-1) of 2r is arranged on second p-m rotor iron core (12-2) surface or embeds in second p-m rotor iron core (12-2) surface, second permanent magnet unit (12-1) is parallel magnetization vertically, and the magnetizing direction of adjacent two second permanent magnet units (12-1) is opposite, and r is a positive integer.

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