US 11,855,487 B1
Stator liquid cooling structure and stator structure of stator yokeless disc motor
Wenming Tong, Shenyang (CN); Shengnan Wu, Shenyang (CN); Deyi Cai, Shenyang (CN); Jianguo Jia, Shenyang (CN); and Zhitao Wu, Anshan (CN)
Assigned to SHENYANG UNIVERSITY OF TECHNOLOGY, Shenyang (CN)
Filed by SHENYANG UNIVERSITY OF TECHNOLOGY, Shenyang (CN)
Filed on Jun. 8, 2023, as Appl. No. 18/331,319.
Claims priority of application No. 202210678869.6 (CN), filed on Jun. 16, 2022.
Int. Cl. H02K 1/20 (2006.01); H02K 9/19 (2006.01); H02K 5/20 (2006.01)
CPC H02K 1/20 (2013.01) [H02K 5/20 (2013.01); H02K 9/19 (2013.01)] 4 Claims
OG exemplary drawing
 
1. A stator structure of a stator yokeless disc motor, the stator structure being configured to use a stator liquid cooling structure of the stator yokeless disc motor, wherein the stator structure further comprises stator cores and an armature winding, the stator cores comprise a first stator core and a second stator core, the first stator core and the second stator core are same in structures and are oppositely arranged, the first stator core is in an annular structure comprising a plurality of first stator tooth shoes and a plurality of first stator tooth bodies, and the first stator tooth bodies are integrally arranged on one side of the first stator tooth shoes facing the second stator core, the second stator core is in an annular structure comprising a plurality of second stator tooth shoes and a plurality of second stator tooth bodies, and the second stator tooth bodies are integrally arranged on one side of the second stator tooth shoes facing the first stator core, both the first stator tooth bodies and the second stator tooth bodies are wound with the armature winding, and the first stator tooth bodies and the second stator tooth bodies wound with the armature winding are correspondingly inserted into gaps between adjacent blade-shaped cavities in the stator liquid cooling structure of the stator yokeless disc motor;
the stator liquid cooling structure of the stator yokeless disc motor comprises a stator bracket and a water jacket; the stator bracket is annular, and the stator bracket comprises an annular groove arranged on an outer periphery, radial cooling channel sheets, two baffle plates, a second circumferential cooling channel disc and a third circumferential cooling channel disc, an outer periphery of the annular groove is fixedly connected with the water jacket and an annular space is formed between the annular groove and the water jacket, the annular space is a first circumferential cooling channel, opposite upper and lower ends of the water jacket are provided with a liquid inlet and a liquid outlet, the first circumferential cooling channel is provided with the two baffle plates opposite to each other, a connecting line between the liquid inlet and the liquid outlet and a connecting line between the two baffle plates are mutually equally divided and perpendicular, the first circumferential cooling channel is divided into two cavities by the two baffle plates, one cavity is communicated with the liquid inlet and an other cavity is communicated with the liquid outlet, a plurality of the radial cooling channel sheets are arranged at a bottom of a groove body of the annular groove in a circumferential array towards a center of the stator bracket, one end of each of the radial cooling channel sheets is communicated with the annular groove, and an other end of the each of the radial cooling channel sheets is closed; the second circumferential cooling channel disc and the third circumferential cooling channel disc are same in structures, are both annular disc structures, and are symmetrically arranged on both sides of the annular groove, the second circumferential cooling channel disc and the third circumferential cooling channel disc both comprise a plurality of the blade-shaped cavities in a circumferential array along annular discs, and ends of the plurality of the blade-shaped cavities facing centers of the annular discs are communicated, other ends of the plurality of the blade-shaped cavities are fixed on the both sides of the annular groove, and the gaps exist between the adjacent blade-shaped cavities, the blade-shaped cavities corresponding to the second circumferential cooling channel disc and the third circumferential cooling channel disc are communicated through the radial cooling channel sheets.