AU2009336998B2 - AC permanent magnet synchronous electrical machine - Google Patents

Abstract

An AC permanent magnet synchronous electrical machine includes a stator (1) and a rotor (2). An air gap (7) is provided between the outer circumference of the rotor (2) and the inner wall of the stator (1). The minimum air gap length of the air gap (7) is g

Description

Description AC PERMANENT MAGNET SYNCHRONOUS ELECTRICAL MACHINE TECHNICAL FIELD The invention relates to an AC permanent magnet synchronous electrical machine, belonging to the technical field of motor manufacturing. BACKGROUND ART With the development of control technology, the application of AC permanent magnet synchronous electrical machines, especially servo motors, is becoming more extensive in recent years. It is hoped that induced potential generated by permanent magnet excitation is sinusoidal potential to obtain better operation performance, so in a common uniform-air-gap motor, special winding connection or skewed slot is usually adopted to weaken harmonic wave, but it is hard to get perfect. SUMMARY OF THE INVENTION In view of the defects of the prior art, the object of the invention is to provide an AC permanent magnet synchronous electrical machine which can obtain sine potential in mechanics without considering winding connection to weaken harmonic wave and has better operation performance. The above technical object of the invention is mainly achieved through the following technical solution: The AC permanent magnet synchronous electrical machine comprises a stator and a rotor disposed in the stator; an air gap is formed between the circumference of the rotor and the inner wall of the stator, the length of the minimum air gap at the central line of a magnetic pole is defined as gmin; if the mechanical pole arc angle leaving the point is 0 , and the number of pole-pairs of the electrical machine is p, then the electric degree of the polar are angle is the product p 0 of the polar are angle 0 and the number of pole-pairs p, the length of the air gap corresponding to the electric angle p 0 is defined as g(p 0 ), and g(p 0) is determined according to the following expressions: when Osp0 73', g(po)= m" (1) cos(pO) when 7 s p9 107o g(pO) = g,"" cos 73' (2) when 107 pO lSO g(pO) =sp" (3) when P >180", the length g(p 0 ) of the air gap varies periodically, that is g(PO +k x 180')= g(pO) (4) wherein k is any integer. In the expressions, the value of the number of pole-pairs of the electrical machine is one-half of the number of rotor poles. The radial length of the air gap between the stator and the rotor of the invention is inversely proportional to a cosine function of the electrical degree of the polar arc angle within a certain polar arc degree range, and when an iron core is unsaturated, the magnetic flux density of the air gap changes similarly to cosine, so that the variation of no-loading electric potential is similar to sine without specially considering winding connection to weaken harmonic wave, and thus the electrical machine obtains better operation performance. Preferably, said rotor comprises a rotor iron core and permanent magnets evenly embedded in the rotor iron core, and the cross section of said permanent magnets is rectangular. Therefore, the invention can obtain sinusoidal potential in mechanics without considering winding connection to weaken harmonic wave and has better operation performance. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic diagram of a finally assembled structure of the invention; Figure 2 is a structural diagram of a stator punching of the invention; Figure 3 is a structural diagram of a rotor punching of the invention; and Figure 4 is a structural diagram of the size of an air gap of the invention. DETAILED DESCRIPTION OF THE EMBODIMENT The technical solution of the invention is further described by combing the following embodiment and the drawings. Embodiment 1: referring to figure 1, a stator 1 comprising a stator iron core and a coil winding is internally provided with a homocentric rotor 2, an air gap 7 is formed between the circumference of the rotor 2 and the inner wall of the stator 1, a stator punching 3 of the stator iron core is shown as figure 2, the stator punching 3 is similar to a stator iron core punching of a common AC motor and is made by punching a silicon steel sheet, a concentric round ring is formed by two concentric circles, and grooves 4 which are distributed evenly are used for embedding coils; figure 3 shows a rotor punching, the rotor punching 5 is provided with four embedding grooves 6 which are evenly distributed for embedding permanent magnets, the cross section of the permanent magnets is rectangular, the circumference of the rotor punching 5 is formed by different curve segments, figure 3 shows the situation of four-poles rotor, then the number of pole-pairs of the electrical machine is two, the circumference of the rotor is divided into 8 parts, four parts and stator arc form air gaps, and the lengths of the air gaps at different points are determined according to figure 4. The length of the minimum air gap at the central line of a magnetic pole is defined as gmi, the mechanical pole arc angle leaving the point is 0 , and the number of pole-pairs of the electrical machine is 2, then the electric degree of the polar are angle is the product 2 0 of the polar arc angle 0 and the number of pole-pairs p, the length of the air gap corresponding to the electric degree p 0 is defined as g(p 0), and g(p 0 ) is determined according to the following expressions: when O: pO s 73 0 , namely 0 0 6 s 36.5 g(pO) = """. (1) cos(pO)(1 when 73':p 0 pO 07, namely 36.50 s0 53.5 g(pO) = 9mn cos73' (2) when 107' pO 180" namely 53.5* 0 90* g(p6)= gr"" cos(po) (3) when p0 >1800, namely 0 90', the length g(p 0) of the air gap varies periodically, that is g(pO+kx180 )=g(pO) (4) wherein k is any integer.

Claims (2)

1. An AC permanent magnet synchronous electrical machine, comprising a stator and a rotor disposed in the stator, an air gap being formed between the circumference of the rotor and the inner wall of the stator, said AC permanent magnet synchronous electrical machine being characterized in that the length of the minimum air gap at the central line of a magnetic pole is defined as gm 11 jn; if the mechanical pole arc angle leaving the point is 9 , and the number of pole-pairs of the electrical machine is p, then the electric degree of the polar arc angle is the product p 0 of the polar arc angle o and the number of pole-pairs p, the length of the air gap corresponding to the electric degree p 9 is defined as g(p 0), and g(p 0) is determined according to the following expressions: when pO 73', g(pO) - (1) cos(pO) when 7 p 0 g(p)= Y"" cos73' (2) when 10 7 <p 0 siso 0 g(pO) =- an cos(po) (3) when PO 1I0, the length g(p 0) of the air gap varies periodically, that is g(pO+k x 180') = g(pO) (4) wherein k is any integer.

2. The AC permanent magnet synchronous electrical machine according to claim 1, characterized in that said rotor comprises a rotor iron core and permanent magnets evenly embedded in the rotor iron core, and the cross section of said permanent magnets is rectangular.