Low-speed high-thrust-density double-layer fractional slot winding cylindrical linear motor
A double-layer fractional-slot, linear motor technology, applied in the shape/style/structure of winding conductors, electrical components, electromechanical devices, etc., can solve the problems of low thrust density, small speed regulation range, low efficiency, etc., to reduce positioning force, increase operating frequency, and reduce the effect of cogging force
Inactive Publication Date: 2018-10-19
HARBIN UNIV OF SCI & TECH +2
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[0005] The purpose of the present invention is to overcome the shortcomings of the above-mentioned prior art, and provide a low-speed, high-thrust density, double-layer fractional slot winding cylindrical linear motor, whic
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[0025] Below in conjunction with accompanying drawing, the present invention is described in further detail:
[0026] Cylindrical linear motors with low-speed and high-thrust density double-layer windings such as figure 1 As shown, including motor primary (1), motor secondary (2).
[0027] The motor primary (1) includes primary wire slots (101), primary half wire slots (102), primary teeth (103), primary end teeth (104), primary yokes (105) and pie windings (106). The slots at both ends of the motor primary (1) are primary half wire slots (102), and the remaining slots are primary wire slots (101); a set of cake windings (106) are respectively placed inside the primary half wire slots (102) at both ends; the primary wire Two sets of independent pie windings (106) are placed side by side inside the slot (101); two adjacent primary wire slots (101) are separated by primary teeth (102), and the primary half wires at the two ends of the motor primary (1) The outer side of the sl...
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The invention provides a low-speed high-thrust-density double-layer fractional slot winding cylindrical linear motor which belongs to the technical field of a linear motor. The low-speed high-thrust-density double-layer fractional slot winding cylindrical linear motor comprises a motor primary stage, a motor secondary stage, a primary iron core, an air gap, a primary wire duct, a primary half wireduct, primary teeth, primary edge teeth, a primary yoke, a cake-shaped winding, a permanent magnet, a magnet guiding ring, etc. A double-layer factional slot winding structure is utilized. A motor polar distance is reduced, and working frequency is effectively increased, thereby improving motor efficiency, and realizing a certain speed adjusting range of the motor. The width of an edge trough isset to one half of that of a normal primary trough, and the thickness of the primary edge trough is smaller than that of the primary tooth. Furthermore the effective length of the motor primary pole is equal with (n+1/2)*tau, and a remarkable inhibition effect is performed on motor thrust force fluctuation. A motor fixing force is reduced so that higher stability and higher reliability are realized in motor operation. The low-speed high-thrust-density double-layer fractional slot winding cylindrical linear motor has advantages of simple structure, relatively low cost, high efficiency, relatively large speed adjusting range, high thrust force density, high operation stability, high operation reliability, etc. The low-speed high-thrust-density double-layer fractional slot winding cylindricallinear motor is suitable for a low-speed large-thrust-force occasion.
Description
technical field [0001] The invention relates to a cylindrical linear motor, in particular to a low-speed, high-thrust density double-layer fractional slot winding cylindrical linear motor. It belongs to the technical field of linear motors. Background technique [0002] Linear motor is a kind of motor that directly converts electrical energy into linear motion mechanical energy without passing through any intermediate conversion device. Compared with the rotary motor transmission mode, it can save the intermediate conversion mechanism, reduce the space occupied by equipment, and improve system efficiency. As a structural form of linear motors, cylindrical linear motors have more advantages: high operating efficiency, high power and force density, good servo performance, and closed structure. However, for low-speed and high-thrust density applications, cylindrical linear motors require lower synchronous speeds, and single-winding permanent magnet motors generally have larger...
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Login to view more IPC IPC(8): H02K41/02H02K3/12
CPCH02K3/12H02K41/02
Inventor 周封杨岳郝婷李伟力王福佳刘小可王支业王业彬王瀑权
Owner HARBIN UNIV OF SCI & TECH
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