Armature iron core compensating method of large-sized brushless exciter
A compensation method and armature core technology, applied in the direction of manufacturing stator/rotor body, etc., can solve the problems of affecting excitation performance, large accumulated error, inconsistent height of armature core, etc.
Active Publication Date: 2013-09-04
SHANGHAI ELECTRIC POWER GENERATION EQUIPMENT CO LTD
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Problems solved by technology
Since the iron core punching sheet is made of silicon steel plate, there is a difference in the thickness of the inner and outer circles (usually it is thinner near the outer circle), and the entire armature core is formed by overlapping thousands of punching sheets, although a single punching sheet The thickness error may be small, but the cumulative error is large, which will eventually cause the height of the entire inner and outer circles of the armature core to be inconsistent, thereby affecting the excitation performance
Method used
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Experimental program
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Embodiment Construction
[0011] In order to make the present invention more comprehensible, a preferred embodiment is described in detail as follows.
[0012] The armature core compensation method of a large-scale brushless exciter provided in this embodiment is applied to a 5800kW brushless exciter. The armature core of the 5800kW brushless exciter has 38 grades in total, and the total high score is stacked four times, respectively. After stacking to the 9th, 19th, 28th, and 38th grades, cold pressing is carried out. The steps are as follows:
[0013] Step 1. After cleaning, place the generator end pressure ring, generator end tooth pressure plate, armature punching plate, and ventilation groove plate in sequence, and then stack them to the sixth gear in order, and then use the positioning rod to shape. After lamination of 9 steps (the height of the first cold press), reshape, and a layer of insulation sheet with a thickness of 0.2mm can be added during the lamination process to meet the height of th...
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The invention relates to an armature iron core compensating method of a large-sized brushless exciter, which includes steps of disposing at least two lead bars on an uppermost stamping sheet of the armature iron core at equal intervals of the circumference after completing stacking each time, performing cold pressing later, measuring the difference between the thickness of the lead bars close to measuring points at an outer ring and an inner ring, and increasing or decreasing number of layers of insulation sheets according to the difference. The armature iron core compensating method of the large-sized brushless exciter is free of affection on original stacking process, lead extrusion process and measuring statistics of the thickness of the lead bars are added on the basis of the cold pressing, then the number of the required insulation sheets can be calculated, and accordingly, the heights of the inner ring and the outer ring of an armature iron core can be kept equal, and stacking quality of the armature iron core is improved.
Description
technical field [0001] The invention relates to a method for press-fitting quality control of a rotor armature iron core of a large-scale brushless exciter, which is used in the laminating process of the rotor armature iron core and belongs to the field of rotor armature iron core assembly of the brushless exciter. Background technique [0002] The brushless exciter is a rotating armature AC generator. The AC output of the rotating armature is connected to the silicon rectifier bridge in the rotating rectifier disc for rectification, and direct current is directly introduced into the rotor winding of the generator. The operation method of conventional brushless exciter rotor armature core stacking is to stack each gear core in stages according to the requirements of the figure, without any auxiliary materials for adjustment in the middle. Since the iron core punching sheet is made of silicon steel plate, there is a difference in the thickness of the inner and outer circles (...
Claims
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IPC IPC(8): H02K15/02
Inventor 卫洁忠王庭山史德利周振福丁辉朱光华
Owner SHANGHAI ELECTRIC POWER GENERATION EQUIPMENT CO LTD