CN202339794U - Silicon steel thin belt iron core of DC electric transmission and transformation anode saturation resistor - Google Patents

Abstract

The utility model discloses a silicon steel thin belt iron core of a DC electric transmission and transformation anode saturation resistor. The iron core comprises non-paint iron cores, varnished iron cores and encoding panels, wherein the non-paint iron cores are installed on the four corners of the silicon steel thin belt iron core of the DC electric transmission and transformation anode saturation resistor, the varnished iron cores are installed on the four edges of the silicon steel thin belt iron core of the DC electric transmission and transformation anode saturation resistor, and the encoding panels are installed on the inner side faces of the varnished iron cores. The silicon steel thin belt iron core disclosed by the utility model has simple structure and excellent performance.

Description

Direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core

Technical field

The utility model relates to iron core, is specially direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core.

Background technology

The specification of traditional silicon steel sheet generally is 0.1mm, 0.2mm, 0.23mm, 0.27mm etc., and this silicon steel sheet mainly is applicable to common iron core.The traditional silicon steel sheet processing technology can not be used for strip processing unshakable in one's determination, if with traditional operating procedure processing strip iron core, its finished product not necessarily have magnetic strength height, power greatly, characteristics such as good environmental adaptability.

The utility model content

The technical problem that the utility model solved is to provide direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core, to solve the shortcoming in the above-mentioned background technology.

The technical problem that the utility model solved adopts following technical scheme to realize:

Direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core; Comprise and do not have lacquer iron core, japanning iron core and the panel of encoding; What install on four corners of said direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core is not have the lacquer iron core; What install on four limits of said direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core is the japanning iron core, and the medial surface of said japanning iron core is equipped with the coding panel.

Beneficial effect

The utility model is simple in structure, excellent performance.

Description of drawings

Fig. 1 is the structural representation of the utility model.

Fig. 2 is the side structure sketch map of the utility model.

Fig. 3 is the partial structurtes sketch map of the utility model.

Fig. 4 is another partial structurtes sketch map of the utility model.

Embodiment

For technological means, creation characteristic that the utility model is realized, reach purpose and be easy to understand understanding with effect, below in conjunction with concrete diagram, further set forth the utility model.

Referring to Fig. 1, Fig. 2, Fig. 3, Fig. 4; The structural representation of direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core; The side structure sketch map of direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core; The partial structurtes sketch map of direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core, another partial structurtes sketch map of direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core, direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core; Comprise and do not have lacquer iron core 1, japanning iron core 2 and the panel 3 of encoding; What install on four corners of said direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core is not have lacquer iron core 1, and what install on four limits of said direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core is japanning iron core 2, and the medial surface of said japanning iron core 2 is equipped with coding panel 3.

More than show and described basic principle of the utility model and the advantage of principal character and the utility model; The technical staff of the industry should understand; The utility model is not restricted to the described embodiments; The principle of describing in the foregoing description and the specification that the utility model just is described, under the prerequisite that does not break away from the utility model spirit and scope, the utility model also has various changes and modifications; These variations and improvement all fall in the utility model scope that requires protection, and the utility model requires protection range to be defined by appending claims and equivalent thereof.

Claims (1)

1. direct current electric transmission and transformation anode film reactor silicon steel thin belt iron core; Comprise and do not have lacquer iron core, japanning iron core and the panel of encoding; It is characterized in that; What install on four corners of said silicon steel ribbon iron core of direct current electric transmission and transformation radio-frequency reactor is not have the lacquer iron core, and what install on four limits of said silicon steel ribbon iron core of direct current electric transmission and transformation radio-frequency reactor is the japanning iron core, and the medial surface of said japanning iron core is equipped with the coding panel.

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