CN203872025U - Permanent magnetic resistance energy saving motor - Google Patents

Abstract

The utility model relates to a permanent magnetic resistance energy saving motor belonging to the motor energy saving technology field. The rotation of the rotor can be driven by magnetic attraction to a rotor salient pole generated by combination of a permanent magnetic salient pole magnetic pole and a winding salient pole magnetic pole, and therefore the energy saving performance is high. A power off self-induced electromotive force generated by a main driving winding salient pole during the power off can be transmitted to a permanent magnetic pole demagnetization salient pole winding by a fly-wheel diode and a capacitor via follow current, and therefore constant magnetic pull of the permanent magnetic salient pole magnetic pole constant magnetic field on the rotor can be reduced, when the working of the magnetic field is not required by the each phase stator permanent magnetic salient pole. The excitation source provided by the power supply is not required by the permanent magnetic salient pole magnetic pole, and the excitation source of the demagnetization winding salient pole provided by the other power supply is also not required, and therefore most electric energy consumed by the permanent magnetic salient pole magnetic pole excitation can be reduced, the working of the constant magnetic field of the permanent magnet can be effectively used to output the power, the electric energy similar to the original power generated during the power off of the main driving winding can be fully used again, and the energy saving object can be achieved.

Description

A kind of permanent-magnet magnetic resistance energy-saving motor

Technical field

The utility model belongs to energy saving motor technical field, relates to a kind of switched reluctance motor, is specifically related to a kind of permanent-magnet magnetic resistance energy-saving motor.

Background technology

Common switched reluctance machines is a kind of novel buncher at present, governing system has direct current concurrently and exchanges two class speed governing yarn system advantages, its speed-regulating range width simple in structure, but itself intrinsic shortcoming is as larger than other motor volume of same power in motor volume, noise in operating and relative other class motor that is greater than of pulsation, the large system recoveries electric energy of starting current rate is low have been caused electric energy that every phase winding produces in the time of power-off not make full use of to impel most of electric energy to waste, the every mutually main driving winding of stator is all made up of winding salient pole, large by the high heat producing of main power source excitation power consumption when each winding salient pole excitation in every phase winding salient pole, cause the copper loss of winding to increase, impel switched reluctance machines power consumption high, efficiency is low.Therefore, need a kind of novel motor badly to overcome the current problem facing.

Summary of the invention

For the shortcoming of prior art, the utility model proposes a kind of permanent-magnet magnetic resistance energy-saving motor, to reach the constant magnetic energy work done that significantly utilizes permanent magnetic iron, energy-conservation, reduce motor and pulse in the course of the work and the object of noise.

A kind of permanent-magnet magnetic resistance energy-saving motor, comprise stator casing, rear end cap, front end housing, double-salient-pole rotor, permanent-magnet magnetic resistance salient pole stator, rotor position detector, rotor-position detection dish, described rear end cap is arranged at one end of stator casing, front end housing is arranged at the other end of stator casing, permanent-magnet magnetic resistance salient pole stator is fixedly connected with stator casing, armature spindle one end of described double-salient-pole rotor is through rear end cap, and the other end is through front end housing; Described rotor position detector is fixed on rear end cap by through hole, and staggered relatively with rotor-position detection dish, and rotor-position detection dish is fixedly installed near on the double-salient-pole rotor end-face of rear end cap through armature spindle;

Described permanent-magnet magnetic resistance salient pole stator adopts single magnet type or double-magnetic, wherein,

Single magnet type: at permanent-magnet magnetic resistance salient pole stator inner wall, with one-part form, main driving winding salient pole and permanent magnetism magnet limbs are set, the number of main driving winding salient pole is identical with the number of permanent magnetism magnet limbs, and positioned opposite radially;

Double-magnetic: connected to form by two single magnet type permanent-magnet magnetic resistance salient pole stators, or formed by a permanent-magnet magnetic resistance salient pole stator, in the time being a permanent-magnet magnetic resistance salient pole stator, at permanent-magnet magnetic resistance salient pole stator inner wall, with two-part, main driving winding salient pole and permanent magnetism magnet limbs are set, the number of main driving winding salient pole is identical with the number of permanent magnetism magnet limbs, and positioned opposite radially;

Described main driving winding salient pole forms integrative-structure by silicon steel plate stacking and permanent-magnet magnetic resistance salient pole stator;

Described permanent magnetism magnet limbs comprises permanent magnetism magnetic pole and permanent magnetism magnetic pole demagnetization winding salient pole, permanent magnetism magnetic pole and permanent magnetism magnetic pole demagnetization winding salient pole are fixed on permanent-magnet magnetic resistance salient pole stator inner wall by magnetic pole set bolt, and described permanent magnetism magnetic pole is arranged between permanent magnetism magnetic pole demagnetization winding salient pole and permanent-magnet magnetic resistance salient pole stator; Permanent magnetism magnetic pole demagnetization winding salient pole is formed by silicon steel plate stacking.

Described stator casing adopts silicon steel sheet to make, or adopts cast iron to make, or adopts aluminium alloy to make; Described front end housing and rear end cap adopt cast iron to make, or adopt aluminium alloy to make.

Described main driving winding salient pole and the arrangement angle of permanent magnetism magnet limbs are: 360/ main driving winding salient pole and permanent magnetism magnet limbs sum.

The salient pole arrangement angle of described double-salient-pole rotor is: 360/ double-salient-pole rotor with salient pole number; The difference of described double-salient-pole rotor with salient pole number and main driving winding salient pole and permanent magnetism magnet limbs sum is the even number utmost point.

The number of described rotor position detector is the number of phases of permanent-magnet magnetic resistance salient pole stator, and rotor position detector and main driving winding salient pole are radially oppositely arranged, and its transmitting terminal is relative with the infrared ray reflector of rotor-position detection dish.

Described rotor-position detection dish comprises infrared ray reflector and infrared ray extinction plate, and wherein, infrared ray reflector is arranged at double-salient-pole rotor with salient pole end face center.

The utility model advantage:

A kind of permanent-magnet magnetic resistance energy-saving motor of the utility model, there is essential difference with switched reluctance motor, to rotor with salient pole generation magnetic attachment, rotor is rotated owing to having adopted permanent magnetism magnet limbs and winding magnet limbs to combine, therefore the utlity model has very high fractional energy savings; Switched reluctance motor drives self-inductance power electromotive force afterflow that winding magnet limbs produces in the time closing to main power source by every mutually, and the self-inductance power electromotive force that in the utility model, main driving winding salient pole produces when closing through fly-wheel diode and the direct afterflow of capacitor to permanent magnetism magnetic pole demagnetization salient pole winding, do not need magnetic field to do man-hour to reach every phase stator permanent magnet salient pole, reducing the constant magnetic pull of permanent magnetism magnet limbs stationary magnetic field to rotor; Because not needing power supply, permanent magnetism magnet limbs provides field power supply, do not need other power supply that the field power supply of demagnetization winding salient pole is provided yet, therefore can reduce most of power consumption in permanent magnetism magnet limbs excitation, effectively utilize the stationary magnetic field work done outputting power of permanent magnet, what when main driving winding power-off, produce is fully utilized again with the similar electric energy of former power, reaches the object of saves energy.

Brief description of the drawings

Fig. 1 is the permanent-magnet magnetic resistance energy-saving motor overall structure schematic diagram of a kind of embodiment of the utility model;

Fig. 2 is the permanent-magnet magnetic resistance salient pole stator single magnet type structural representation of a kind of embodiment of the utility model;

Fig. 3 is the permanent-magnet magnetic resistance salient pole stator double-magnetic structural representation of a kind of embodiment of the utility model;

Fig. 4 is the four phase 8/6 pole motor structural representations of a kind of embodiment of the utility model;

Fig. 5 is the four phase 12/8 pole motor structural representations of a kind of embodiment of the utility model;

Fig. 6 is the rotor-position detection dish structural representation of a kind of embodiment of the utility model;

Fig. 7 is the rear end cover structure schematic diagram of a kind of embodiment of the utility model;

Fig. 8 is the front end housing structural representation of a kind of embodiment of the utility model.

Embodiment

Below in conjunction with accompanying drawing, a kind of embodiment of the utility model is described further.

As shown in Figure 1, permanent-magnet magnetic resistance energy-saving motor in the utility model embodiment, comprise stator casing 1, rear end cap 2, front end housing 3, double-salient-pole rotor 4, permanent-magnet magnetic resistance salient pole stator 5, rotor position detector 6, rotor-position detection dish 7, described rear end cap 2 is arranged at one end of stator casing 1, front end housing 3 is arranged at the other end of stator casing 1, permanent-magnet magnetic resistance salient pole stator 5 is fixedly connected with stator casing 1, armature spindle one end of described double-salient-pole rotor 4 is through rear end cap 2, and the other end is through front end housing 3; Described rotor position detector 6 is fixed on rear end cap 2 by through hole, and coils 7 staggered relativelyly with rotor-position detection, and rotor-position detection dish 7 is fixedly installed near on double-salient-pole rotor 4 end faces of rear end cap 2 through armature spindle; Stator casing 1 adopts silicon steel sheet to make, or adopts cast iron to make, or adopts aluminium alloy to make; Described front end housing 3 and rear end cap 2 adopt cast iron to make, or adopt aluminium alloy to make.Described main driving winding salient pole and the arrangement angle of permanent magnetism magnet limbs are: 360/ main driving winding salient pole and permanent magnetism magnet limbs sum.The salient pole arrangement angle of described double-salient-pole rotor 4 is: 360/ double-salient-pole rotor with salient pole number; Described double-salient-pole rotor 4 salient pole numbers and the difference of main driving winding salient pole and permanent magnetism magnet limbs sum are the even number utmost point.

In the utility model embodiment, taking four phase 8/6 utmost point single magnet type permanent-magnet magnetic resistance energy-saving motors as example, stator salient poles (main driving winding salient pole and permanent magnetism magnet limbs) be 8 utmost points radially relative be a phase, be divided into four phases, A-A phase, B-B phase, C-C phase, D-D phase salient pole arrangement angle is 45 degree, and rotor is that double-salient-pole structure 6 utmost point salient pole arrangement angle are 60 degree.

In the utility model embodiment, permanent-magnet magnetic resistance salient pole stator 5 adopts single magnet type or double-magnetic, wherein, as shown in Figure 2, single magnet type: at permanent-magnet magnetic resistance salient pole stator 5 inwalls, with one-part form, main driving winding salient pole 5-1 and permanent magnetism magnet limbs 5-2 are set, the number of main driving winding salient pole 5-1 is identical with the number of permanent magnetism magnet limbs 5-2, and radially relative position is arranged; As shown in Figure 3, double-magnetic: connected to form by two single magnet type permanent-magnet magnetic resistance salient pole stators 5, or formed by a permanent-magnet magnetic resistance salient pole stator 5, in the time being a permanent-magnet magnetic resistance salient pole stator 5, at permanent-magnet magnetic resistance salient pole stator 5 inwalls.With two-part, main driving winding salient pole (5-3,5-4) and permanent magnetism magnet limbs (5-5,5-6) are set, the number of main driving winding salient pole (5-3,5-4) is identical with the number of permanent magnetism magnet limbs (5-5,5-6), and radially relative position is arranged.

In the utility model embodiment, permanent-magnet magnetic resistance energy-saving motor can be with three-phase 6/4 electrode structure, four phase 8/6 electrode structures (as shown in Figure 4) and three-phase 12/8 electrode structure (as shown in Figure 5) form, it can be single magnet type structure, form with double-magnetic structure, in single magnet type structure stator, every mutually main driving winding salient pole and permanent magnetism magnet limbs are one-part form structure, be radially one group of magnetic pole relatively, when permanent magnetism magnet limbs is the N utmost point, main driving winding salient pole excitation is the S utmost point, double-magnetic structure, in stator, every phase stator main driving winding salient pole and permanent magnetism magnet limbs are all that two-part is arranged, be radially one group of salient pole or a phase salient pole relatively, the magnetic pole that when permanent magnetism magnet limbs is arranged for the SN utmost point in double-magnetic stator, radially relative main driving winding salient pole excitation produces is the NS utmost point, arrange just in time contrary with permanent magnetism magnet limbs, also can be permanent magnetism magnet limbs while being the SN utmost point the main driving winding salient pole excitation radially relative with it be also the SN utmost point, double-magnetic structure stator salient poles, it can be the radially relative permanent magnetism magnet limbs of permanent magnetism magnet limbs, also can the radially relatively main driving winding salient pole of main driving winding salient pole, double-magnetic stator can be made of one formula structure, also can make segmentation structure and be combined into one formula structure.

As shown in Figure 4, in the utility model embodiment, taking single magnet type as example, main driving winding salient pole 5-1 forms integrative-structure by silicon steel plate stacking and permanent-magnet magnetic resistance salient pole stator 5; Described permanent magnetism magnet limbs 5-2 comprises permanent magnetism magnetic pole 5-2-1 and permanent magnetism magnetic pole demagnetization winding salient pole 5-2-2, permanent magnetism magnetic pole 5-2-1 and permanent magnetism magnetic pole demagnetization winding salient pole 5-2-2 are fixed on permanent-magnet magnetic resistance salient pole stator 5 inwalls by magnetic pole set bolt 5-2-3, and described permanent magnetism magnetic pole 5-2-1 is arranged between permanent magnetism magnetic pole demagnetization winding salient pole 5-2-2 and permanent-magnet magnetic resistance salient pole stator 5; Permanent magnetism magnetic pole demagnetization winding salient pole 5-2-2 is formed by silicon steel plate stacking.

As shown in Figure 6, the number of rotor position detector 6 is the number of phases of permanent-magnet magnetic resistance salient pole stator 5, in the utility model embodiment, be 4, rotor position detector 6 and radially relative position setting of main driving winding salient pole 5-1, and its transmitting terminal is relative with the infrared ray reflector of rotor-position detection dish 7, rotor position detector 6 is that infrared emission tube and infrared receiver tube form.

As shown in Figure 7, the utility model embodiment rotor position probing dish 7 comprises infrared ray reflector 7-1 (white) and infrared ray extinction plate 7-2 (black), wherein, infrared ray reflector 7-1 is arranged at double-salient-pole rotor 4 salient pole end face centers, and the utility model embodiment rotor position probing dish 7 is formed and laminated one with field spider and form by a round silicon steel sheet.

As shown in Figure 8, for front end housing 3 structures, be connected with armature spindle by axis hole.

In the utility model embodiment, the output of rotor position detector 6 connects the input of single-chip microcomputer, the output of single-chip microcomputer connects an optoelectronic switch, the control end of the output connecting valve pipe of optoelectronic switch, one end of switching tube connects power supply, the other end connects main driving winding, and main driving winding (coil) is arranged at main driving winding salient pole outside; Permanent magnetism magnetic pole demagnetization winding salient pole arranged outside has permanent magnetism magnetic pole demagnetization winding (coil), main driving winding salient pole input anode series diode negative pole, diode cathode output is connected with capacitor anode input, capacitor anode input is connected with main driving winding salient pole negative input, permanent magnetism demagnetization winding salient pole electrode input end is connected with capacitor anode input, permanent magnetism demagnetization winding salient pole negative input is connected with electric capacity negative pole, and two fly-wheel diodes of the each series connection of permanent magnetism demagnetization winding salient pole input are connected with resistance.

In the utility model embodiment, taking four phase 8/6 utmost point single magnet type permanent-magnet magnetic resistance energy-saving motors as example, its operation principle is followed magnetic resistance minimum principle, stator salient poles (main driving winding salient pole and permanent magnetism magnet limbs) be 8 utmost points radially relative be a phase, be divided into four phases, A-A phase, B-B phase, C-C phase, D-D phase salient pole arrangement angle is 45 degree, rotor is double-salient-pole structure 6 utmost point salient poles, its arrangement angle is 60 degree, 1-1, 2-2, 3-3 is rotor double-salient-pole central axis, rotor with salient pole often turn 15 degree with stator wherein a phase salient pole center line overlap, rotor-position detection is coiled 7 reflected infrared raies once, the rotor position detector 6 being arranged by rear end cap 2 receives, infrared ray is determined rotor accurate location.7 end faces are coiled in rotor-position detection, and to be provided with infrared ray reflector (in vain) identical with rotor with salient pole number, remainder is infrared ray extinction plate (black), due to A phase, B phase, C phase, the every energising of D phase stator salient poles once, rotor with salient pole only has a pair of salient pole central axis and a phase stator salient poles central axis to coincide, other stator salient poles differs 15 degree not in the position that overlaps with rotor with salient pole central axis, therefore, when the salient pole central axis position that salient pole stator and field spider coincide coincides, infrared ray reflector reflects once, the accurate location of rotor-position detected.A, B, the mutually each rotor position detector 6 of establishing separately of C, D just can be known rotor-position accurate information.

In the time that rotor rotates in a clockwise direction, with the commutation of A-D-C-B phase, specific works principle is as follows:

In the time that A phase salient pole central axis and rotor double-salient-pole 1-1 center line coincide, because infrared ray reflector (in vain) is just in time in rotor double-salient-pole central axis 1-1 position, the infrared reflection that infrared emission tube is sent is to infrared receiver tube, infrared receiver tube is formed and can be produced an analog voltage signal input singlechip controller by light sensor, singlechip controller obtains signal, the mutually main driving magnetic pole of A control switch pipe is closed, the mutually main driving magnetic pole of D control switch is in control controller instruction and is switched on, now the 1-1 salient pole of double-salient-pole rotor 4 is just in time to reach the salient pole center line position that coincides with the mutually main driving magnetic pole of A, the mutually main driving winding of A salient pole loses main power source power supply, because the stored magnetic field of the mutually main driving salient pole of electromagnetic induction phenomenon A suddenly disappears, the mutually main driving salient pole of A winding can produce the self-inductance power electromotive force of a polarity in contrast to former power supply, now by simultaneously conducting of fly-wheel diode to energy storage capacitor and permanent magnetism magnetic pole demagnetization winding salient pole, the power-off of the mutually main driving winding of A salient pole, self induction electromotive force is absorbed by energy storage capacitor simultaneously, also make permanent magnetism magnetic pole demagnetization winding salient pole produce magnetic field simultaneously, when A phase self-inductance power electromotive force major part absorption due to storage capacitor, also power to permanent magnetism magnetic pole demagnetization winding, energy storage capacitor plays the effect of energy storage and the buffering mutually main driving winding of A and permanent magnetism magnetic pole demagnetization winding current, due to the unilateral conduction of fly-wheel diode, electric energy in storage capacitor can not be back to the mutually main driving winding of A salient pole, so the mutually main driving winding of A salient pole because energy storage capacitor has absorbed most of self induction electromotive force electric energy reflux the magnetic field identical with former power supply producing can be very little, on rotor, commutation can not produce large impact, permanent magnetism magnetic pole demagnetization winding salient pole also has a self-inductance power electromotive force in the time of power-off, and this electromotive force is fallen through resistance consumption by fly-wheel diode.Because permanent magnetism magnetic pole salient pole is made up of permanent magnetism magnet limbs and permanent magnetism magnetic pole demagnetization winding salient pole, permanent magnetism magnetic pole demagnetization winding salient pole is formed by silicon steel plate stacking, play by permanent magnetism magnetic pole and be magnetized into the magnetic pole identical with permanent magnetism magnetic pole, play the effect of conduction permanent magnetism magnet limbs polarity, also play and produce one and the rightabout magnetic field of permanent magnetism magnet limbs, offset and weaken the constant magnetic pull effect of permanent magnetism magnet limbs to rotor.Now A phase self-inductance power electromotive force by simultaneously afterflow of fly-wheel diode to energy storage capacitor and permanent magnetism magnetic pole demagnetization winding salient pole, demagnetization winding can produce a magnetic field contrary with permanent magnetism salient pole, at this moment permanent magnetism magnet limbs and demagnetization winding salient pole are because magnetic pole opposite magnetic fields can be reduced to minimum, produce magnetic field suction rotor with the mutually main driving magnetic pole of time D, A mutually in permanent magnetism magnet limbs self-inductance power electromotive force that the stationary magnetic field magnetic pull of rotor is produced during by the power-off of A phase offset hour through permanent magnetism magnetic pole demagnetization winding salient pole, rotor 1-1 salient pole central axis and stator A-A salient pole central axis coincide and become rotor 3-3 double-salient-pole central axis and the stator salient poles central axis D-D rotor that coincides and turn over 15 degree angles, now stator D-D phase salient pole central axis and rotor 3-3 central axis coincide, D phase infrared ray rotor position detector 6 infrared receiving tubes receive by the infrared ray of the 3-3 central axis reflector reflection of rotor-position detection dish 7 and output signal to singlechip controller, the mutually main driving winding of single-chip microcomputer output signal D salient pole control switch cuts out, the afterflow of the mutually main driving winding of D salient pole self-inductance power electromotive force is to the demagnetization of D phase permanent magnetism magnetic pole demagnetization winding time, the mutually main driving winding of the mutually main driving winding of C salient pole control switch pipe conducting C salient pole generation magnetic field suction rotor with salient pole 2-2 turns over 15 degree angle rotor salient pole 2-2 central axis and stator C-C central axis coincides, C phase infrared ray rotor position detector 6 infrared receiving tubes receive the infrared ray that coils 7 reflectors reflections by the detection of 2-2 central axis rotor-position and output signal to singlechip controller, the mutually main driving winding of single-chip microcomputer output signal C salient pole control switch cuts out, the mutually main driving winding of the mutually main driving winding of B salient pole control switch conducting B salient pole produces magnetic field suction salient pole 1-1 and turns over 15 degree, rotor with salient pole 1-1 central axis and the B-B salient pole central axis B phase rotor position detector 6 that coincides detects by the infrared ray of the 1-1 central axis reflector reflection of rotor-position detection dish 7 and outputs signal to singlechip controller, the mutually main driving winding of single-chip microcomputer output B salient pole control switch cuts out, the afterflow of the mutually main driving winding of B salient pole self-inductance power electromotive force is to the demagnetization of B phase permanent magnetism magnetic pole demagnetization winding time, the mutually main driving winding of the mutually main driving winding of A salient pole control switch pipe conducting A salient pole produces magnetic field suction rotor with salient pole 3-3 and turns over again 15 degree, the mutually main driving winding of above machine operation process A-D-C-B commutation rotor is to clockwise rotate, the mutually main driving winding of A-B-C-D commutation rotor is for rotating counterclockwise.

Claims (6)

1. a permanent-magnet magnetic resistance energy-saving motor, it is characterized in that, comprise stator casing, rear end cap, front end housing, double-salient-pole rotor, permanent-magnet magnetic resistance salient pole stator, rotor position detector, rotor-position detection dish, described rear end cap is arranged at one end of stator casing, front end housing is arranged at the other end of stator casing, permanent-magnet magnetic resistance salient pole stator is fixedly connected with stator casing, and armature spindle one end of described double-salient-pole rotor is through rear end cap, and the other end is through front end housing; Described rotor position detector is fixed on rear end cap by through hole, and staggered relatively with rotor-position detection dish, and rotor-position detection dish is fixedly installed near on the double-salient-pole rotor end-face of rear end cap through armature spindle;

Described permanent-magnet magnetic resistance salient pole stator adopts single magnet type or double-magnetic, wherein,

Single magnet type: at permanent-magnet magnetic resistance salient pole stator inner wall, with one-part form, main driving winding salient pole and permanent magnetism magnet limbs are set, the number of main driving winding salient pole is identical with the number of permanent magnetism magnet limbs, and positioned opposite radially;

Double-magnetic: connected to form by two single magnet type permanent-magnet magnetic resistance salient pole stators, or formed by a permanent-magnet magnetic resistance salient pole stator, in the time being a permanent-magnet magnetic resistance salient pole stator, at permanent-magnet magnetic resistance salient pole stator inner wall, with two-part, main driving winding salient pole and permanent magnetism magnet limbs are set, the number of main driving winding salient pole is identical with the number of permanent magnetism magnet limbs, and positioned opposite radially;

Described main driving winding salient pole forms integrative-structure by silicon steel plate stacking and permanent-magnet magnetic resistance salient pole stator;

Described permanent magnetism magnet limbs comprises permanent magnetism magnetic pole and permanent magnetism magnetic pole demagnetization winding salient pole, permanent magnetism magnetic pole and permanent magnetism magnetic pole demagnetization winding salient pole are fixed on permanent-magnet magnetic resistance salient pole stator inner wall by magnetic pole set bolt, and described permanent magnetism magnetic pole is arranged between permanent magnetism magnetic pole demagnetization winding salient pole and permanent-magnet magnetic resistance salient pole stator; Permanent magnetism magnetic pole demagnetization winding salient pole is formed by silicon steel plate stacking.

2. permanent-magnet magnetic resistance energy-saving motor according to claim 1, is characterized in that, described stator casing adopts silicon steel sheet to make, or adopts cast iron to make, or adopts aluminium alloy to make; Described front end housing and rear end cap adopt cast iron to make, or adopt aluminium alloy to make.

3. permanent-magnet magnetic resistance energy-saving motor according to claim 1, is characterized in that, described main driving winding salient pole and the arrangement angle of permanent magnetism magnet limbs are: 360/ main driving winding salient pole and permanent magnetism magnet limbs sum.

4. permanent-magnet magnetic resistance energy-saving motor according to claim 1, is characterized in that, the salient pole arrangement angle of described double-salient-pole rotor is: 360/ double-salient-pole rotor with salient pole number; The difference of described double-salient-pole rotor with salient pole number and main driving winding salient pole and permanent magnetism magnet limbs sum is the even number utmost point.

5. permanent-magnet magnetic resistance energy-saving motor according to claim 1, it is characterized in that, the number of described rotor position detector is the number of phases of permanent-magnet magnetic resistance salient pole stator, rotor position detector and main driving winding salient pole are radially oppositely arranged, and its transmitting terminal is relative with the infrared ray reflector of rotor-position detection dish.

6. permanent-magnet magnetic resistance energy-saving motor according to claim 1, is characterized in that, described rotor-position detection dish comprises infrared ray reflector and infrared ray extinction plate, and wherein, infrared ray reflector is arranged at double-salient-pole rotor with salient pole end face center.