CN108258866A - Transverse magnetic flux reluctance type low speed high torque directly drives synchronous motor - Google Patents

Abstract

Transverse magnetic flux reluctance type low speed high torque directly drives 35 times that the force density of synchronous motor is existing radial flux motors.The motor is made of stator and rotor core, stator and rotor matrix, phase winding etc..It using punching silicon-steel stator and rotor iron-core lamination, is laminated through cambered surface and argon arc welding, stator and rotor core is made；Stator base and rotor matrix are divided into m phase sections in an axial direction, are p per phase section number of pole-pairs；The direct coiling m phase Circular Windings on stator base is per phase section conduit, per in phase section fenestra, install 2p stator core, around electrical axis circumferentially array distribution；Rotor matrix per phase section fenestra in 2p rotor core is installed, around electrical axis circumferentially array distribution；Each phase rotor core radially aligned, each phase stator core radially mutually stagger 1/m pole spans angle.Under same nominal power, the present invention folds thickness by reducing stator and rotor iron core, increases stator and rotor iron core quantity to realize the more number of pole-pairs designs of motor.

Description

Transverse magnetic flux reluctance type low speed high torque directly drives synchronous motor

Technical field

The invention belongs to field of motor manufacturing, and in particular to a kind of transverse magnetic flux reluctance type low speed high torque directly drives together Walk motor.

Background technology

The direct driving motor of low speed high torque has eliminated bulky deceleration mechanism, avoids complicated, and rotary inertia is big, Efficiency is low, oil leak, abrasion, safeguards the various adverse effects such as frequent.The direct driving motor of low speed high torque is drawn in metal The mechanical, electrical terraced drag device of silk, hoisting machinery, tower-type pumping unit, mineral explosion-proof motor, Air-Cooling Island wind turbine, belt-conveying, wind-force hair The fields such as motor have extensive use.

It realizes low velocity of the motor less than 100r/min, high torque density, directly drive, it is necessary to realize number of pole-pairs >=30 Design and manufacture.Based on motor essence electromagnetic structure difference, existing radial flux motors are being realized with transverse flux motor There are two kinds of completely different technical solutions in the design of multipole logarithm and manufacture of motor.

In the existing direct driving motor of radial flux low speed high torque, to realize that multipole logarithm designs, it is necessary to increase Per the number of windings under extremely every phase.The number of windings is usually corresponding with the slot number of stator core, this, which means that, will accordingly increase stator The slot number of iron core.In order to reduce the total slot number of stator core, MgO-ZrO_2 brick q=Q/2mp is typically designed to point less than 1 Number.Wherein, q is MgO-ZrO_2 brick, and Q is electric machine stator iron slot number, and m is the number of phases, and p is number of pole-pairs.Q is less than 1, though it is so that every Slot number is reduced under extremely per phase, but essence is that the sulculus of greater number is replaced with fewer number of large trough.

In existing radial flux motors structure, the slot where teeth portion and armature winding that magnetic flux passes through occupies same circular ring shape Section, plane where the magnetic line of force are parallel to the direction of rotation of motor, and the sectional area of slot and the sectional area of teeth portion condition each other.If It needs to flow through larger electric current, it is necessary to which larger winding cross section product, the sectional area of teeth portion is just affected, and (saturation can make Magnetic flux reduces)；Vice versa.If the sectional area of teeth portion and the sectional area of slot increase simultaneously, the half of motor will necessarily be increased Diameter, makes the torque density of motor reduce.Therefore, output torque is difficult to be improved at all.It is above-mentioned by MgO-ZrO_2 brick q=Q/ 2mp is designed as the score less than 1, and the sulculus of greater number is only replaced with fewer number of large trough, can not reduce the number of windings Total sectional area of slot shared by amount and winding.In the electromagnetic structure of existing radial flux motors, multipole logarithm is realized Design of electrical motor inevitably increases the radius of motor, makes the torque density of motor reduce.

In transverse flux motor because magnetic circuit is detached with circuit, and is mutually perpendicular in space, magnetic circuit iron core and circuit around The size of group can be adjusted independently, and design freedom is big, can effectively improve power of motor and torque density, multiphase easy to implement, The structure design of multipole logarithm keeps high efficiency and big torque in low speed.The force density that transverse flux motor obtains is existing 3-5 times of radial flux motors.

The design method of transverse flux motor multipole logarithm, can be expressed as：Under identical rated power, it can not increase Big motor diameter size does not change the size and parameter of phase winding, mainly folds thickness by reducing stator and rotor iron core, increases and determines, turns Sub- iron core quantity is realized.

The essence defect of existing radial flux motors electromagnetic structure is confirmed with an example, illustrates transverse flux motor The significant advantage of electromagnetic structure.Water tank drawbench is widely used in steel wire rope manufacturing, there is a common water tank drawbench, High-speed wire-drawing cone pulley rotating speed is about 90r/min, in order to eliminate bulky deceleration mechanism, improves motor power saving rate, it is desirable that is selected straight Connect the torque motor of driving.Under power frequency 50Hz, the number of poles for directly driving torque motor is set as 60, rotating speed 100r/min.It is right The motor is driven using frequency converter frequency reducing so that motor speed reaches 90r/min.It is designed using existing radial flux configurations, i.e., Make under the conditions of water cooling, motor appearance and size is still huge, and seat No. is bigger by 5 than 10 pole motors of same nominal power, 6 etc. Grade.Actual conditions are that most of steel wire rope factories do not have the condition for providing water cooling.Under the conditions of air-cooled, the radial direction magnetic of 60 poles Logical permanent magnet torque motor internal temperature rise is up to 100 DEG C or more, this is for the class of insulation and Nd-Fe-B permanent magnet of enameled conducting wire Operating temperature grade proposes very high requirement, and motor cost is caused to improve.In the design of multipole logarithm motor, conventional diameter Be to the essence defect of the electromagnetic structure of flux electric machine, radial flux motors can only by increase stator core slot number and The number of windings in slot realizes that the multipole logarithm of motor designs, and necessarily motor diameter is caused to increase, connects per phase winding Conductor total length increases, and conductor overheating loss increases.

Switched reluctance machines have position detector, the mission nonlinear that torque ripple is big, needs rotor magnetic pole, and magnetic field is jumps The shortcomings of jump property rotation, control system is complicated.In contrast, market is with greater need for the reluctance-synchronous machine convenient for controlling and driving, Alternating current or inverter supply can be used directly.

Invention content

The object of the present invention is to provide a kind of high power density and high torque densities, are adapted for carrying out the design of multipole logarithm Transverse magnetic flux reluctance type low speed high torque directly drive synchronous motor.

In order to achieve the above objectives, the present invention provides following technical solutions：

Transverse magnetic flux reluctance type low speed high torque directly drives synchronous motor, mainly by stator and rotor core, stator base The compositions such as body, rotor matrix, phase winding.Using punching silicon-steel stator iron-core lamination 010 and rotor-core lamination 020, then pass through Cambered surface laminates and argon arc welding, and stator core 10 and rotor core 20 is made；Stator base 30 and rotor matrix 40 are drawn in an axial direction It is divided into m phase sections, is p per phase section number of pole-pairs；The direct coiling m phases Circular Winding 50 on the conduit 31 of stator base 30, across phase Winding 50 per in phase section fenestra 32, installs 2p stator core 10, around electrical axis circumferentially array distribution；Rotor matrix 40 2p rotor core 20 is installed in per phase section fenestra 41, around electrical axis circumferentially array distribution；Each phase rotor core 20 is radially Alignment, each 10 radial direction of phase stator core mutually stagger 1/m pole spans angle.

Stator base 30 and rotor matrix 40 and rotor left end cap pipe 60, right end cap pipe 61 are manufactured by non-magnet material； 30 each phase section of stator base is equipped with the conduit 31 of coiling phase winding 50, is additionally provided with the 2p fenestra 32 of installation stator core 10, around Circumferentially array distribution, each 2p 32 radial direction of stator core fenestra of phase mutually stagger 1/m pole spans angle to electrical axis；Rotor matrix 40 Each phase section is equipped with the 2p fenestra 41 of installation rotor core 20, around electrical axis circumferentially array distribution, each 2p rotor iron of phase 41 radially aligned of heart fenestra；Outer circle is additionally provided with the conduit 42 of wound rotor iron core dead ring 21 in the middle part of 40 each phase section of rotor matrix.

010 fundamental figure of stator iron-core lamination is "U" shaped, and 010 both sides of stator iron-core lamination have rectangle to protrude 011, Outer, which is equipped with, is conducive to the concaveconvex shape of argon arc welding and solder joint 012, and outside is equipped with square in the middle part of 010 "U" shaped of stator iron-core lamination V notch v 013；Stator iron-core lamination 010 is laminated by the radian of motor gas-gap stator inner headed face, and pressure is kept to carry out argon arc welding, The fusing of solder joint 012 is linked to be camber line, forms stator core 10.

Rotor-core lamination (020) fundamental figure is linear type, and 020 both sides of rotor-core lamination have rectangle to protrude 021, Its outer, which is equipped with, is conducive to the concaveconvex shape of argon arc welding and solder joint 022；Among rotor-core lamination 020 square is equipped with by air gap side V notch v 023；Rotor-core lamination (020) is laminated by the radian in motor gas-gap rotor outer circle face, and pressure is kept to carry out argon arc welding It connects, the fusing of solder joint 022 is linked to be camber line, forms rotor core 20.

100 installation step of stator：First, winding inner ring insulating trip 51, slot are pasted in each 31 bottom of phase section conduit of stator base Paste winding side insulation piece 52 in road both sides；2nd, the direct coiling phase winding 50 on each phase conduit 31 of stator base；3rd, it crosses over Phase winding 50 installs 2p stator core 10, the arc bossy body 011 at stator core both ends in each section of fenestra 32 of stator base It is supported in two banks of fenestra 32；4th, in the arc groove 013 of each phase stator core circumference array, around multilayer silicon strip, interlayer Brushing binding agent, end argon arc welding form stator dead ring 11.

200 installation step of rotor：The first, 2p stator core 20, rotor iron are installed in 40 each sections of fenestras of rotor matrix 41 The arc bossy body 021 at heart both ends is supported in two banks of fenestra 41；2nd, in the arc groove of each phase rotor core circumference array 023 and rotor matrix conduit 42 in, around multilayer silicon strip, interlayer brushing binding agent, end argon arc welding forms rotor fastening Ring 21；3rd, in 40 both ends of rotor matrix installation left end cap pipe 60, right end cap pipe 61.

Stator phase winding 50 is circular ring shape concentratred winding, using multiply enamelled stranded-wire.

Stator 100 is installed by the outer circle of the circumference array of multi phase stator iron core 10 with casing interference fit；Rotor 200 is logical It crosses and is installed mounted on the left end cap pipe 60 at 40 both ends of rotor matrix and the inner circle of right end cap pipe 61 with arbor interference fit.

Under same nominal power, motor diameter size can not be increased, do not change phase winding size and parameter, but by subtracting Small stator and rotor iron core folds thickness, increases stator and rotor iron core quantity, realizes the more number of pole-pairs designs of motor.

Advantages of the present invention：

(1) it is detached according to transverse flux motor magnetic circuit with circuit, and in the orthogonal principle in space, same nominal power Under, motor diameter size can not be increased, do not change phase winding size and parameter, mainly fold thickness by reducing stator and rotor iron core, increased It reorders, rotor core quantity, realizes the design and manufacture of the more numbers of pole-pairs of motor.

(2) stator iron-core lamination is laminated by the radian of cambered surface on the inside of motor gas-gap stator, and pressure is kept to carry out argon arc welding； Rotor-core lamination is laminated by the radian of cambered surface on the outside of air gap rotor, and pressure is kept to carry out argon arc welding.Stator or rotor core Cambered surface laminate with after argon arc welding, obtain positioned at air gap both sides stator and rotor cores important arc shape, can avoid again Any mechanical processing is carried out to stator and rotor cores, so that it may be installed in stator or rotor matrix, simplify technological process.

(3) the annular concentratred winding of direct coiling m phases, good manufacturability, high mechanical strength on the conduit of stator base.With showing There are radial flux motors generally using distributed winding, to need what experienced operator's embedding in tens to hundreds of core slots was installed Complicated technology is compared, and has significant advantage.

(4) in every phase section fenestra of stator base, 2p stator core is installed, around electrical axis circumferentially array distribution； Rotor matrix per phase section fenestra in 2p rotor core is installed, around electrical axis circumferentially array distribution；Each phase rotor core diameter To alignment, each phase stator core radially mutually staggers 1/m pole spans angle.Each mutually discrete stator and rotor iron core is in stator or rotor base It is firmly installed in the fenestra of body, space orientation and phase setting are accurate.

(5) per phase stator or in the curved channel of rotor core array outer ring, around multilayer silicon strip, interlayer brushing bonds Agent, end argon arc welding form dead ring.This dead ring, other than fastening effect and a stator core in parallel respectively Or the magnetic circuit of rotor core, be conducive to increase the magnetic flux of every phase magnetic circuit, reduce leakage field.Stator or rotor structure after assembling is steady Gu globality is strong.

(6) it is not coupled between each phase of stator, and each phase magnetic circuit is mutually perpendicular to circuit in space, can be adjusted as needed Magnetic circuit size selects the specification and the number of turn of phase winding coil.The force density that transverse flux motor obtains is existing radial flux electricity 3-5 times of machine.The torque density and power density of driving motor more direct than existing radial flux low speed high torque are big, small, It is light-weight, it is efficient.

Description of the drawings

Fig. 1 stator iron-core laminations 010 and 020 punching schematic diagram of rotor core.

Fig. 2 stator cores 10 and 20 schematic diagram of rotor core.

Mono- phase stator cores 10 of Fig. 3 and 20 circumference array of rotor core and 50 space structure schematic diagram of a phase winding.

30 schematic diagram of Fig. 4 embodiments one (3 phase, 60 pole motor) stator base.

Fig. 5 embodiments one (3 phase, 60 pole motor), stator installation step 1：The inner ring of 3 phase windings is pasted on stator base Insulating trip and side insulation piece.

Fig. 6 embodiments one (3 phase, 60 pole motor), stator installation step 2：The direct 3 phase circular ring shape of coiling on stator base Concentratred winding.

Fig. 7 embodiments one (3 phase, 60 pole motor), stator installation step 3：：3 phase stator core circumference array, each phase are installed Stator core radially mutually staggers 1/m pole spans angle.

Fig. 8 embodiments one (3 phase, 60 pole motor), stator installation step 4：：In the arc of each phase stator core circumference array Coiling multilayer silicon strip in slot, around interlayer brushing insulating adhesive, end argon arc welding forms stator core dead ring.Assembling The stator 100 of completion.

Fig. 9 embodiments one (3 phase, 60 pole motor), 40 schematic diagram of rotor matrix.

Figure 10 embodiments one (3 phase, 60 pole motor), rotor installation steps 1：3 phase rotor iron are installed in rotor installing matrix The heart, each phase rotor core radially aligned.

Figure 11 embodiments one (3 phase, 60 pole motor), rotor installation steps 2：In the arc of each phase rotor core circumference array Coiling multilayer silicon strip in slot, around interlayer brushing insulating adhesive, end argon arc welding forms rotor core dead ring.

Figure 12 embodiments one (3 phase, 60 pole motor), rotor installation steps 3：The left and right end cap pipe of rotor is installed.

Figure 13 embodiments one (3 phase, 60 pole motor), the rotor 200 that installation is complete.

Figure 14 embodiments one (3 phase, 60 pole motor)：Stator 100 and rotor 200.

10 pole motors of Figure 15 equal-wattages and the stator and rotor cores of 60 pole motors can be used identical iron-core lamination, two kinds The stator and rotor cores laminated thickness of motor compares.

10 poles of Figure 16 are with a phase stator and rotor iron core circumference array of 60 pole motors compared with a phase winding.

Have in more than figure：

Stator iron-core lamination 010, stator punching rectangular preiection 011, stator punching solder joint 012, stator punching rectangular notch 013；

Rotor-core lamination 020, rotor punching rectangular preiection 021, rotor punching solder joint 022, rotor punching rectangular notch 023；

Stator core 10, stator core dead ring 11；Rotor core 20, rotor core dead ring 21；

Stator phase winding 50, winding interior insulation ring 51, winding side insulation piece 52；

Stator base 30, phase winding coiling conduit 31, stator core installation fenestra 32；Rotor matrix 40, rotor core peace Fill fenestra 41, rotor core dead ring coiling conduit 42；

Rotor left end pipe 60, rotor right end pipe 61；

Stator 100, rotor 200.

Specific embodiment

Transverse magnetic flux reluctance type low speed high torque of the present invention is directly driven in synchronous motor, and machine-building is main with construction Purpose is, by each phase winding coiling to stator base, discrete each phase stator and rotor core is installed to stator and turned On subbase body.In the following, with reference to attached drawing, the specific embodiment that the present invention will be described in detail.

The top priority for implementing the present invention is that manufacture stator core and rotor core, manufacturing step are as follows：

(1) stator and rotor-core lamination are made using silicon steel sheet punching.Stator iron-core lamination 010 and rotor-core lamination 020 pattern is shown in Fig. 1, and 010 fundamental figure of stator iron-core lamination is "U" shaped, and there is rectangle protrusion on 010 both sides of stator iron-core lamination 011, outer, which is equipped with, is conducive to the concaveconvex shape of argon arc welding and solder joint 012, outside in the middle part of 010 "U" shaped of stator iron-core lamination Equipped with rectangular notch 013；20 fundamental figure of rotor-core lamination is linear type, and 020 both sides of rotor-core lamination have the rectangle convex Go out 021, outer, which is equipped with, is conducive to the concaveconvex shape of argon arc welding and solder joint 022；Air gap side is leaned among rotor-core lamination 020 Equipped with rectangular notch 023.

(2) cambered surface of iron-core lamination is laminated carries out with argon arc welding in forcing press and the reliable mold of cambered surface.Stator Iron-core lamination 010 is laminated by the radian of motor gas-gap stator inner headed face, and pressure is kept to carry out argon arc welding, solder joint 012 is melted It is linked to be camber line, forms stator core 10；Rotor-core lamination 020 is laminated by the radian of air gap rotor outer circle cambered surface, keeps pressure Argon arc welding is carried out, the fusing of solder joint 022 is linked to be camber line, forms stator core 20.See Fig. 2.

Aluminium alloy is non-magnetic, the good material of heat conductivility, and die-casting process manufacture stator and rotor matrix can be used and turn The left and right end cap pipe of son.

Stator base 30 is equipped with the conduit 31 of coiling phase winding, equipped with the fenestra 32 for installing each phase stator core.Each phase 32 radial direction of stator fenestra mutually staggers 1/m pole spans angle.The schematic diagram of stator base 30, is shown in Fig. 4.

Rotor matrix 40 is equipped with the fenestra 41 for installing each phase rotor core, and each 41 radial direction of phase rotor fenestra is mutually aligned. Rotor matrix is equipped with the conduit 42 of wound rotor dead ring.Rotor matrix both ends are additionally provided with installation rotor left end cap pipe 60, the right side The recessed round structure and screw hole of end cap pipe 61.See Fig. 9, embodiment one (60 pole motor of three-phase)：40 schematic diagram of rotor matrix.

Stator installation step：

(1) paste winding inner ring insulating trip 51 in each 31 bottom of phase conduit of stator installing matrix, conduit both sides paste around Group side insulation piece 52.See Fig. 5.

(2) the direct coiling m phase windings 50 in the conduit 31 for having taken up insulation measures of stator base 30.See Fig. 6.

(3) in every phase section fenestra 32 of stator installing matrix, 2p stator core 10 is installed, around electrical axis circumferentially Array distribution.The positioning setting of each phase section stator core fenestra 32, ensure that each 10 radial direction of phase stator core mutually staggers 1/m poles Elongation.See Fig. 7.

(4) the coiling multilayer silicon strip in the arc groove 013 of each phase stator core circumference array, around interlayer brushing insulating sticky Agent is tied, end argon arc welding forms dead ring 11.The stator 100 completed is assembled, sees Fig. 8.

Rotor installation step：

(1) in every phase section fenestra 41 of rotor matrix, 2p rotor core 20 is installed, around electrical axis circumferentially array Distribution.The positioning setting of each phase section rotor core fenestra 41, ensure that each 20 radial direction of phase rotor core is mutually aligned.See Figure 10.

(2) around multilayer silicon strip in the arc groove 023 of rotor core circumference array and rotor matrix conduit 42, around interlayer Brushing insulating adhesive, end argon arc welding form rotor dead ring 21.See Figure 11.

(3) rotor left end pipe 60, right end pipe 61 are respectively installed to two ends of rotor.See Figure 12, Figure 13.

It assembles the stator 100 completed and rotor 200 is shown in Figure 14.

Stator 100 is installed by the outer circle of multiphase iron core circumference array with casing interference fit；Rotor 200 is by being mounted on The left end cap pipe 60 at rotor matrix both ends, the Inner circles of right end cap pipe 61 are installed with arbor interference fit.

The design method of multipole logarithm of the present invention, can be expressed as：Under identical rated power, motor can not be increased Diameter dimension does not change the size and parameter of phase winding, mainly folds thickness by reducing stator and rotor iron core, increases stator and rotor iron core Quantity is realized.

Figure 15 is 10 pole motors of same nominal power and the 60 stator and rotor iron core shapes of pole motor and contrasting for size. Figure 16 is 10 poles of same nominal power and a phase stator and rotor iron core circumference array of 60 pole motors and contrasting for phase winding.By Figure is as it can be seen that identical stator and rotor iron-core lamination, the ruler of phase winding can be used in the 60 pole motors and 10 pole motors of same nominal power Very little and parameter can be constant, and the diameter of motor need not also increase；Under same nominal power, each stator and rotor iron core of 60 pole motors Folded thickness is reduced to the 1/6 of 10 pole electric machine iron cores, and stator and rotor cores quantity increases by 6 times.

Claims (9)

1. transverse magnetic flux reluctance type low speed high torque directly drives synchronous motor, mainly by stator and rotor core, stator base, The compositions such as rotor matrix, phase winding, which is characterized in that

Using punching silicon-steel stator iron-core lamination (010) and rotor-core lamination (020), then laminate through cambered surface and argon arc welding It connects, stator core (10) and rotor core (20) is made；Stator base (30) and rotor matrix (40) are divided into m phases in an axial direction Section is p per phase section number of pole-pairs；The direct coiling m phases Circular Winding (50) on the conduit (31) of stator base (30), across phase around Group (50) per in phase section fenestra (32), installs 2p stator core (10), around electrical axis circumferentially array distribution；Rotor base Body (40) is per 2p rotor core (20) of installation in phase section fenestra (41), around electrical axis circumferentially array distribution；Each phase rotor Iron core (20) radially aligned, each phase stator core (10) radially mutually stagger 1/m pole spans angle.

2. transverse magnetic flux reluctance type low speed high torque according to claim 1 directly drives synchronous motor, which is characterized in that

Stator base (30) and rotor matrix (40) and rotor left end cap pipe (60), right end cap pipe (61) are by non-magnet material system It makes；Stator base (30) each phase section is equipped with the conduit (31) of coiling phase winding (50), is additionally provided with the 2p of installation stator core (10) A fenestra (32), around electrical axis, circumferentially array distribution, each 2p stator core fenestra (32) of phase radially mutually stagger 1/m poles Elongation；Rotor matrix (40) each phase section is equipped with the 2p fenestra (41) of installation rotor core (20), around electrical axis circumferentially battle array Column distribution, each 2p rotor core fenestra (41) radially aligned of phase；Outer circle is additionally provided with coiling in the middle part of each phase section of rotor matrix (40) The conduit (42) of rotor core dead ring (21).

3. transverse magnetic flux reluctance type low speed high torque according to claim 1 directly drives synchronous motor, which is characterized in that

Stator iron-core lamination (010) fundamental figure is "U" shaped, and stator iron-core lamination (010) both sides have rectangle to protrude (011), Its outer, which is equipped with, is conducive to the concaveconvex shape of argon arc welding and solder joint (012), outside in the middle part of stator iron-core lamination (010) "U" shaped Equipped with rectangular notch (013)；

Stator iron-core lamination (010) is laminated by the radian of motor gas-gap stator inner headed face, and pressure is kept to carry out argon arc welding, will be welded Point (012) fusing is linked to be camber line, forms stator core (10).

4. transverse magnetic flux reluctance type low speed high torque according to claim 1 directly drives synchronous motor, which is characterized in that

Rotor-core lamination (020) fundamental figure is linear type, and rotor-core lamination (020) both sides have rectangle to protrude (021), Its outer, which is equipped with, is conducive to the concaveconvex shape of argon arc welding and solder joint (022)；It is set among rotor-core lamination (020) by air gap side There is rectangular notch (023)；

Rotor-core lamination (020) is laminated by the radian in motor gas-gap rotor outer circle face, and pressure is kept to carry out argon arc welding, will be welded Point (022) fusing is linked to be camber line, forms rotor core (20).

5. transverse magnetic flux reluctance type low speed high torque according to claim 1 directly drives synchronous motor, it is characterised in that

Stator (100) installation step：First, winding inner ring insulating trip (51) is pasted in each phase section conduit (31) bottom of stator base, Paste winding side insulation piece (52) in conduit both sides；2nd, the direct coiling phase winding (50) on each phase conduit (31) of stator base； 3rd, across phase winding (50), the 2p stator core (10) of installation in each section of fenestra (32) of stator base, stator core both ends Arc bossy body (011) is supported in two banks of fenestra (32)；4th, in the arc groove (013) of each phase stator core circumference array Interior, around multilayer silicon strip, interlayer brushing binding agent, end argon arc welding forms stator dead ring (11).

6. transverse magnetic flux reluctance type low speed high torque according to claim 1 directly drives synchronous motor, it is characterised in that

Rotor (200) installation step：First, the 2p stator core (20) of installation in each section of fenestra (41) of rotor matrix (40), turns The arc bossy body (021) at sub- iron core both ends is supported in two banks of fenestra (41)；2nd, in each phase rotor core circumference array In the conduit (42) of arc groove (023) and rotor matrix, around multilayer silicon strip, interlayer brushing binding agent, end argon arc welding, shape Into rotor dead ring (21)；3rd, in rotor matrix (40) both ends installation left end cap pipe (60), right end cap pipe (61).

7. transverse magnetic flux reluctance type low speed high torque according to claim 1 directly drives synchronous motor, it is characterised in that

Stator phase winding (50) is circular ring shape concentratred winding, using multiply enamelled stranded-wire.

8. transverse magnetic flux reluctance type low speed high torque according to claim 1 directly drives synchronous motor, which is characterized in that

Stator (100) is installed by the outer circle of the circumference array of multi phase stator iron core (10) with casing interference fit；Rotor (200) Pacified by being mounted on the left end cap pipe (60) at rotor matrix (40) both ends and the inner circle of right end cap pipe (61) with arbor interference fit Dress.

9. transverse magnetic flux reluctance type low speed high torque according to claim 1 directly drives synchronous motor, which is characterized in that

Under same nominal power, motor diameter size can not be increased, do not change phase winding size and parameter, but pass through reduction Stator and rotor iron core folds thickness, increases stator and rotor iron core quantity, to realize the more number of pole-pairs designs of motor.