Patent ID: 9348951
Filing Date: 2016-05-24
CPC Classification: G06F,Y02T

Claim Text:
1. A method for designing a motor dedicated to textile manufacturing, comprising the following steps: (1) designing a motor comprising a stator and a rotor; said stator having a core defined by a diameter and a length, a slot defined by a width and a height, a tooth defined by a width, a yoke defined by a height, and a number of conductors; said rotor having a slot defined by a width and a height, a tooth defined by a width, a yoke defined by a height, and a number of conductors; (2) selecting controllable variables for optimization of said designed motor; said controllable variables comprising D (3) selecting output indexes, which comprise a rated operating efficiency, a rated power factor, a degree of smoothness of operating efficiency curve, and a production cost; (4) for each controllable variable selected in step (2), selecting a plurality of levels and for each level determining a corresponding value, and further building an orthogonal table based on the controllable variables and their level values, referred to as inner orthogonal table for controllable variables; (5) selecting a number of noise factors related to assembly technologies, working conditions and environment, internal structure degradation and operation wear; selecting a plurality of levels and for each level determining a corresponding value for each selected noise factor, and further building another orthogonal table based on the noise factors and their level values, referred to as outer orthogonal table for noise factors; the outer orthogonal table, together with the inner orthogonal table, defining a plurality of experimental schemes; (6) computing a value of each output index selected in step (3) and a corresponding signal-to-noise ratio for each experimental scheme defined by the inner orthogonal table and the outer orthogonal table; (7) carrying out variance analyses, based on a Taguchi method, for the results obtained from step (6) to obtain a significance level of each controllable variable of step (2) on each output index of step (3) and thereby determine an optimal combination of level values of the controllable variables; (8) based on the results of the variance analyses obtained in step (7), determining a value range for each optimal level value of each controllable variable of step (2) as part of a tolerance design; (9) producing technical drawings for each part of said motor according to the optimal combination of level values of the controllable variables obtained in step (7) as well as tolerance value ranges determined in step (8), referred to as a design scheme and building a physical motor by wire-cutting a mold, dieing, laminating, coiling, inserting windings, dipping paint and assembling parts so that the physical motor is constructed with the controllable variables D (10) testing and obtaining actual output indexes of the physical motor built in step (9) and comparing each actual output index with a corresponding predetermined rated value range for each output index; if an actual output index is outside the corresponding predetermined rated value range, the inner orthogonal table built in step (4) is modified with a different level value for one or more controllable variables and step (5) to step (10) are repeated, or otherwise, said design scheme is confirmed and batch manufacturing is carried out.