CN202957734U - V-shaped radial magnetic field type stator skewed slot hybrid excitation generator - Google Patents

Abstract

The utility model relates to a V-shaped radial magnetic field type stator skewed slot hybrid excitation generator comprising an engine base. The two ends of the engine base are equipped with a front cover and a back cover respectively, and a stator composed of a stator iron core and a DC excitation winding and a rotor composed of permanent magnets, iron core magnetic poles, a rotating shaft and a rotor punching sheet are arranged in the engine base; the stator iron core is fixed in the engine base, slot parts and tooth parts are arranged in the stator iron core, and the DC excitation winding is wound at the tooth parts; the rotating shaft of the rotor is in rotation connection with the engine base via a bearing, and the rotor punching sheet is sleeved on the rotating shaft; four punching sheet grooves are evenly arranged on each one-fourth outer arc surface of the rotor punching sheet, and two permanent magnets having opposite polarities and the iron core magnetic poles are intersected and distributed on the four punching sheet grooves to form a magnetic pole surface; four magnetic pole surfaces are distributed symmetrically by taking the rotating shaft as a symmetrical center, and the two adjacent magnetic pole surfaces are V-shaped. By employing the above structures, the voltage adjustment rate of the generator is reduced, the performance index of the generator is improved, and an output power is adjusted dynamically and real-timely, so that the adaption load range of the generator is wide, and the reliability of a power supply is improved.

Description

A kind of V-type radial magnetic field formula skewed stator slot hybrid excitation generator

Technical field

The utility model relates to a kind of magneto, specifically refers to a kind of V-type radial magnetic field formula skewed stator slot hybrid excitation generator.

Background technology

International and domestic to add in the permanent magnet generator electric excitation winding regulate magnetic field this class novel electricity generator research seldom, the mixed excitation electric machine structure mainly contains following several:

As shown in Figure 1, a kind of have a brush hybrid excitation generator, its electric excitation winding be placed in rotor permanent magnet below, do not need to take additional space, therefore simple in structure, small volume.The introducing employing of the rotor excitation current of Fig. 1 electric machine structure has brush, and reliability reduces.The magnetic circuit of this dispatch from foreign news agency excitation is through permanent magnet, and the magnetic permeability of permanent magnet is near the magnetic permeability of air, so the magnetic resistance of magnetic circuit is large, in order to regulate air-gap flux, must pass into very large exciting current, and copper loss increases.Simultaneously, excitation winding 42 electric excitation magnetic kinetic potentials directly act on permanent magnet 51, and irreversible demagnetization occurs easily;

As shown in Figure 2, a kind of mixing excitation permanent magnetic synchro generator is divided into permanent magnetism part 7 and excitation part 8; Its main feature is that magnetic circuit and electric magnetic excitation circuit are separately independently basically, and electric excitation magnetic kinetic potential is not applied on the permanent magnet, generally can not produce irreversible demagnetization.Because exciting current is introduced by collector ring, the reliability of motor is reduced, be not suitable under more abominable operating mode, moving, maintenance cost increases.Simultaneously, if when wound rotor length and permanent magnet rotor equal in length, in order to produce the magnetic flux with the permanent magnet equal sizes, the exciting current that passes into wound rotor must be larger, certainly will increase rotor copper loss, it is large that the temperature rise of motor becomes, and causes thus decrease in efficiency, operating point of the permanent magnet to change even cause the problem such as demagnetization.

Shown in Figure 3, a kind of hybrid excitation generator, its electric excitation auxiliary power generation part and stator core of permanent magnet generator partial common and stator winding, magnetic flux is synthetic in air gap.The electricity excitation utilizes rotating shaft as the part of magnetic circuit, and the structure of permanent magnetism master power generation part is identical with common permanent magnet generator.This motor can be adjusted the output voltage of generator preferably, and operational reliability is higher, and the failure rate ratio has brush configuration and rotating rectifier low.But the both sides of the horizontal magnetic pole that the dynamo-electric excitation division that generates electricity divides all be length than small air gap, processing and assembly precision requirement are very high, when this has obviously increased the assembler and manufacturing cost.Horizontal magnetic pole 9 and vertical pole 10 need to have larger magnetic conductive area for electro-magnetic flux provides path simultaneously, have reduced the power density of motor.Owing to there are two additional air gaps, motor electricity magnetic excitation circuit magnetic resistance is enlarged markedly, cause exciting current larger, the efficient of motor is not high.

The utility model content

The purpose of this utility model is to improve the performance index of generator, realizes full-automatic pressure regulation, dynamically real-time regulation output power, and it is wide to make generator adapt to loading range, and overload capacity is strong, and energy-saving effect is obvious, improves the reliability of electric power system.

The purpose of this utility model can realize that it comprises support by following structure, and the support two ends are respectively equipped with front/rear cover; Be provided with the stator that is consisted of by stator core, DC excitation winding in the described support, the rotor that is formed by permanent magnet, magnetic pole unshakable in one's determination, rotating shaft, rotor punching; Described stator core is fixed in the support, comprises slot part and tooth section in the stator core, and the winding of described DC excitation winding is in tooth section; The rotating shaft of described rotor is rotationally connected by bearing and support, and described rotor punching is set in the rotating shaft; It is characterized in that: evenly be provided with four punching grooves on the exterior arc surface of the per quart of described rotor punching, the permanent magnet that described bipolarity is opposite and two magnetic poles unshakable in one's determination respectively diagonal angle are distributed on four punching grooves, and form a magnetic pole strength; Described two adjacent magnetic pole strengths are " V " type, and magnetic pole strength is centrosymmetric in twos.

The tooth section of described stator core and slot part consist of flume structure, and the oblique distance of described tooth section and slot part is 1.5 times of tooth pitch width.

The slot part of described stator core is provided with fastening piece.

Described fastening piece and stator core tooth section are on the same inner headed face.

Adopt above structure, because rotor adopts " V-type " radial magnetic field formula structure, two permanent magnets of a pair of utmost point are connected, therefore be that a permanent magnet cross section provides magnetic flux to every utmost point air gap, the direction of magnetization length of two permanent magnets provides magnetic potential to magnetic circuit, so motor gas-gap magnetic flux density is approximately equal to the magnetic flux density of Operating Point of Permanent Magnet.The d-axis of motor and quadrature axis armature reaction reactance are little, thereby have greatly weakened the demagnetizing effect of armature reaction.Because d-axis and quadrature-axis reluctance are large, so the aberration rate of induced potential waveform diminishes.Simultaneously, because stator adopts the skewed slot design, the position of each segment in magnetic field of same conductor of stator winding is different, be that the locational electrical degree of Existential Space is poor, therefore there is phase difference in time in each section of conductor induced potential, the induction combined potential of conductor be each section conductor induced potential vector and, played the distribution effect, can effectively weaken the tooth-harmonic emf that stator winding is responded to, when the oblique distance of stator teeth and slot part is chosen as 1.5 times of tooth pitch width, effect with better weakening slot ripples, can reduce armature reaction to the impact of winding in the groove, so that the irregularity of wave form of generator is less, the more approaching sine wave of air-gap field, thus reduce impact on load.So reduced the generator voltage regulation, make it to have the external characteristic near level, improve the performance index of generator, realize full-automatic pressure regulation, dynamically real-time regulation output power, it is wide to make generator adapt to loading range, overload capacity is strong, and energy-saving effect is obvious, improves the reliability of electric power system.

Description of drawings

Below in conjunction with the drawings and specific embodiments the utility model is described in further details;

Fig. 1 is a kind of structural representation that brush hybrid excitation generator is arranged of prior art;

Fig. 2 is the structural representation of a kind of mixing excitation permanent magnetic synchro generator of prior art;

Fig. 3 is the structural representation of a kind of hybrid excitation generator of prior art;

Fig. 4 is the structural representation of a kind of V-type radial magnetic field of the utility model formula skewed stator slot hybrid excitation generator;

Fig. 5 is rotor schematic top plan view of the present utility model;

Fig. 6 is rotor elevational schematic view of the present utility model;

Fig. 7 is stator structure schematic diagram of the present utility model;

Fig. 8 is skewed stator slot schematic diagram of the present utility model.

Embodiment

Extremely shown in Figure 8 such as Fig. 4, a kind of V-type radial magnetic field formula skewed stator slot hybrid excitation generator, it comprises support 1, the support two ends are respectively equipped with protecgulum 2 and bonnet 3; Be provided with the stator 4 that is consisted of by stator core 41, DC excitation winding 42 in the described support 1, the rotor 5 that is formed by permanent magnet 51, magnetic pole unshakable in one's determination 52, rotating shaft 53, rotor punching 54; Described stator core is fixed in the support 1, comprises slot part 43 and tooth section 44 in the stator core, and described DC excitation winding 42 windings are in tooth section 44, and stator core is divided into the stator core N utmost point and stator core S utmost point two parts by DC excitation winding 42; Support 1 mechanically with on the magnetic field couples together the stator core N utmost point and the stator core S utmost point.The rotating shaft 53 of described rotor 5 is rotationally connected by bearing and support 1, and described rotor punching 54 is set in the rotating shaft 53, by rotor back of the body yoke two utmost points mechanically is connected with each other with magnetic field between the magnetic pole of rotor 5 and rotating shaft 53;

Evenly be provided with four punching grooves on the exterior arc surface of the per quart of described rotor punching 54, the permanent magnet that described bipolarity is opposite (both N utmost point permanent magnet and S utmost point permanent magnet) and two magnetic poles unshakable in one's determination are distributed on four punching grooves at the diagonal angle respectively, both N utmost point permanent magnet 511 distributed with S utmost point permanent magnet 512 diagonal angles, N utmost point permanent magnet 511 and one magnetic pole 52 unshakable in one's determination is interspersed, and S utmost point permanent magnet 512 is interspersed with another magnetic pole 52 unshakable in one's determination; And form a magnetic pole strength; Described two adjacent magnetic pole strengths are " V " type, and magnetic pole strength is centrosymmetric in twos.

The tooth section 43 of described stator core 41 and slot part 44 consist of flume structure, and the oblique distance L1 of described tooth section 43 and slot part 44 is 1.5 times of tooth pitch width L2.The slot part 44 of described stator core 41 is provided with fastening piece 45.Described fastening piece 45 is on the same inner headed face with tooth section 43.

Owing in the generator exciting current and two magnetic sources of permanent magnet are arranged, thereby just produce two magnetic fields, and two magnetic fields have different magnetic circuits.As shown in Figure 4, the path in the magnetic field of exciting current generation is: sequentially carry on the back yoke, opposite side rotor core magnetic pole 52, air gap, the stator core N utmost point through support 1, the stator core S utmost point, air gap, rotor core magnetic pole 52, rotor by the stator core N utmost point.The magnetic circuit in the magnetic field that permanent magnet produces is: sequentially carry on the back yoke, the permanent magnet N utmost point 511 through air gap, the stator core N utmost point, support 1, the stator core S utmost point, air gap, the permanent magnet S utmost point 512, rotor by the permanent magnet N utmost point 511.Therefore, air-gap field is the resultant magnetic field that two magnetic sources produce.

The magnetic pole of rotor 5 is pressed planar development, and then the DC excitation electric current is=0.When=0, only there is the magnetic field of permanent magnet 51, direction is from the N utmost point to the S utmost point; When 0 the time, the magnetic pole unshakable in one's determination of same end is identical with the magnetic direction of permanent magnet, then axial magnetic field strengthens, and carries out in the air gap of power conversion effectively that Circumferential field weakens, and plays weak magnetic action; When＜0, the magnetic pole unshakable in one's determination 52 of same end is opposite with the magnetic direction of permanent magnet 51, and axial magnetic field weakens, and carries out in the air gap of power conversion effectively that Circumferential field strengthens, and rises to increase magnetic action.Hence one can see that, and the air-gap field in the hybrid excitation permanent magnet motor can be controlled by exciting current.

Claims (4)

1. V-type radial magnetic field formula skewed stator slot hybrid excitation generator, it comprises support, the support two ends are respectively equipped with front/rear cover; Be provided with the stator that is consisted of by stator core, DC excitation winding in the described support, the rotor that is formed by permanent magnet, magnetic pole unshakable in one's determination, rotating shaft, rotor punching; Described stator core is fixed in the support, comprises slot part and tooth section in the stator core, and the winding of described DC excitation winding is in tooth section; The rotating shaft of described rotor is rotationally connected by bearing and support, and described rotor punching is set in the rotating shaft; It is characterized in that: evenly be provided with four punching grooves on the exterior arc surface of the per quart of described rotor punching, the permanent magnet that described bipolarity is opposite and two magnetic poles unshakable in one's determination respectively diagonal angle are distributed on four punching grooves, and form a magnetic pole strength; Described two adjacent magnetic pole strengths are " V " type, and magnetic pole strength is centrosymmetric in twos.

2. a kind of V-type radial magnetic field formula skewed stator slot hybrid excitation generator according to claim 1 is characterized in that: the tooth section of described stator core and slot part consist of flume structure, and the oblique distance of described tooth section and slot part is 1.5 times of tooth pitch width.

3. a kind of V-type radial magnetic field formula skewed stator slot hybrid excitation generator according to claim 1, it is characterized in that: the slot part of described stator core is provided with fastening piece.

4. a kind of V-type radial magnetic field formula skewed stator slot hybrid excitation generator according to claim 3, it is characterized in that: described fastening piece and tooth section are on the same inner headed face.

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