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Magnetic assembly

A technology of magnetic components and windings, applied in the direction of electrical components, magnetic cores/yokes, inductors with magnetic cores, etc., can solve the problem of high working voltage of magnetic components, difficulty in balancing reliability and power density, harsh working environment, etc. problem, to achieve the uniformity of electric field intensity, reduce the risk of partial discharge phenomenon, and achieve the effect of high reliability

Active Publication Date: 2018-12-11
DELTA ELECTRONICS INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, the working voltage of the above-mentioned magnetic components is high, and the working environment is harsh, and partial discharges are easily generated between the windings and the winding posts.
In the traditional technology, the partial discharge is mainly reduced by increasing the distance between the winding and the winding post. However, the above method will greatly increase the volume of the magnetic component, and it is difficult to meet the requirements of reliability and power density.

Method used

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Embodiment approach 1

[0040] see figure 1 , figure 1 It is a three-dimensional structure schematic diagram of the first embodiment of the magnetic assembly of the present invention. Such as figure 1 As shown, the differential mode reactor of the present invention includes a magnetic core 1 and a winding 2. The magnetic core 1 includes an upper cover plate 11, a lower cover plate 12, and three windings arranged between the upper cover plate 11 and the lower cover plate 12. A wire post 13 , and the winding 2 is arranged around the winding post 13 . Of course, the number of winding posts 13 is not limited to three, and can be appropriately increased or decreased as required.

[0041] The winding post 13 is in the shape of a quadrangular prism, and has four longitudinal ribs parallel to each other along the longitudinal direction (direction of the centerline of the prism). The upper cover plate 11 , the lower cover plate 12 and the winding post 13 can be made of silicon steel sheets stacked, or mad...

Embodiment approach 2

[0049] see figure 2 , figure 2 It is a three-dimensional structure schematic diagram of the second embodiment of the magnetic assembly of the present invention. The second embodiment of the magnetic assembly differs from the first embodiment only in that:

[0050] At least one first air gap is opened on the winding post 13, and a transverse edge is formed on the winding post 13 to define the first air gap position, and the side of each winding post 13 is covered with a first air gap corresponding to the position of the winding 2. Two semiconducting strips 4, and the second semiconducting strip 4 covers the first air gap. That is to say, the second semiconducting strip 4 is attached to the side of the winding post 13 and covers one surface of the two transverse edges defining the first air gap, thereby covering the first air gap; figure 1 In that way, one second semiconducting strip 4 is pasted on each horizontal edge separately, so the manufacturing process of the magneti...

Embodiment approach 3

[0053] see image 3 , image 3 It is a three-dimensional structure diagram of the third embodiment of the magnetic assembly of the present invention. The third embodiment of the magnetic assembly is different from the second embodiment only in that:

[0054] The reactor of the third embodiment also includes an insulating cylinder 5 sleeved outside the winding post 13 , the cross-sectional shape of the insulating cylinder 5 may be the same as that of the winding post 13 , and the winding 2 is located outside the insulating cylinder 5 , in this case, the first semiconducting component and the second semiconducting component can be correspondingly arranged on the insulating cylinder 5 (see image 3 ), compared with directly disposing the semi-conductive component on the winding post, the heat dissipation performance of the winding post can be improved.

[0055] Of course, the present invention is not limited thereto. In the case where the insulating cylinder 5 is arranged outs...

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Abstract

The invention provides a magnetic assembly with high reliability which is used for medium and high voltage electronic systems. The magnetic assembly includes a magnetic core and windings. The magneticcore includes an upper cover plate, a lower cover plate and at least one winding column arranged between the upper cover plate and the lower cover plate. Each winding column is prismatic and is provided with at least three side surfaces. Any two of the at least three side surfaces are intersected to form at least two longitudinal edges. The longitudinal edges are arranged along the longitudinal direction of the winding column. A first semi-conductive component is arranged at a position corresponding to the longitudinal edges between each winding column and the windings.

Description

technical field [0001] The invention relates to a magnetic assembly. Background technique [0002] In medium and high voltage electronic systems, magnetic components such as medium and high voltage reactors and medium and high voltage transformers occupy a large volume and high weight. As medium and high voltage electronic systems continue to mature, higher requirements are placed on the power density and reliability of magnetic components. [0003] However, the working voltage of the above-mentioned magnetic components is high and the working environment is harsh, and partial discharges are easily generated between the windings and the winding posts. In the traditional technology, the partial discharge is mainly reduced by increasing the distance between the winding and the winding post. However, the above method will greatly increase the volume of the magnetic component, and it is difficult to meet the requirements of reliability and power density. [0004] Therefore, th...

Claims

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Application Information

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IPC IPC(8): H01F17/04H01F3/14H01F27/24H01F27/26
CPCH01F3/14H01F17/045H01F27/24H01F27/266H01F27/245H01F27/306H01F27/324H01F2027/329H02K3/40H01F27/2852H01F27/323H01F27/30
Inventor 董建星曾永刘腾应建平
Owner DELTA ELECTRONICS INC
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