Amorphous alloy mutual inductor magnetic core strip processing system

Amorphous alloy mutual inductor magnetic core strip processing system

  • CN 106,799,477 B
  • Filed: 02/13/2017
  • Issued: 12/08/2020
  • Est. Priority Date: 02/13/2017
  • Status: Active Grant
First Claim
Patent Images

1. The utility model provides an metallic glass mutual-inductor magnetic core strip system of processing which characterized in that:

  • the amorphous alloy casting furnace comprises an amorphous alloy melting furnace (1), a melting furnace movable support (2) arranged at the bottom of the amorphous alloy melting furnace (1), a melting furnace sliding guide rail (3) arranged at the bottom of the melting furnace movable support (2), an amorphous alloy casting container (4) arranged at one end of the melting furnace sliding guide rail (3), and an amorphous alloy strip cooling roller (5) arranged at the bottom of the amorphous alloy casting container (4), wherein the amorphous alloy melting furnace (1) is fixedly arranged on the melting furnace movable support (2), a plurality of support movable rollers (6) are arranged at the bottom of the melting furnace movable support (2), and the support movable rollers (6) are all arranged on the melting furnace sliding guide rail (3);

    also comprises an amorphous alloy strip collecting pipe (9) arranged on the horizontal side of the amorphous alloy strip cooling roller (5), and the amorphous alloy strip collecting pipe (9) is vertical to the axial direction of the amorphous alloy strip cooling roller (5), one end of the amorphous alloy strip collecting pipe (9) is a strip collecting inlet end (91), the other end of the amorphous alloy strip collecting pipe (9) is a strip collecting outlet end (92), the strip collecting inlet end (91) is arranged towards the roller surface of the amorphous alloy strip cooling roller (5), the strip collecting inlet end (91) is of a horn-shaped opening structure, a plurality of cooling gas high-speed nozzles (93) are arranged on the inner side wall of the amorphous alloy strip collecting pipe (9), and each cooling gas high-speed nozzle (93) obliquely faces the axis of the amorphous alloy strip collecting pipe (9) and faces the strip collecting outlet end (92);

    the melting furnace movable support (2) comprises a sliding support bottom wall (21) and an overturning dumping side wall (22), the overturning dumping side wall (22) is vertically arranged on one side, facing the amorphous alloy pouring container (4), of the sliding support bottom wall (21), an overturning dumping support arm (11) is arranged on the upper portion of the amorphous alloy melting furnace (1), one end of the overturning dumping support arm (11) is fixedly connected with one side, facing the amorphous alloy pouring container (4), of the amorphous alloy melting furnace (1), and the other end of the overturning dumping support arm (11) is hinged to the upper end of the overturning dumping side wall (22);

    the lower part of the amorphous alloy melting furnace (1) is provided with a turnover dumping hydraulic cylinder (7), one end of the turnover dumping hydraulic cylinder (7) is hinged with one side of the amorphous alloy melting furnace (1) back to the amorphous alloy pouring container (4), and the other end of the turnover dumping hydraulic cylinder (7) is hinged with the lower end of the turnover dumping side wall (22);

    an amorphous alloy diversion groove (8) is further formed between the melting furnace sliding guide rail (3) and the amorphous alloy pouring container (4), the amorphous alloy diversion groove (8) is obliquely arranged, the higher end of the amorphous alloy diversion groove (8) is positioned above the end, facing the amorphous alloy pouring container (4), of the melting furnace sliding guide rail (3), and the lower end of the amorphous alloy diversion groove (8) is positioned above the end part of the amorphous alloy pouring container (4);

    the amorphous alloy pouring container (4) comprises a temperature-resistant ceramic support (41) and a temperature-resistant alloy pouring sheet (42) arranged on the inner side wall of the temperature-resistant ceramic support (41), the temperature-resistant alloy pouring sheet (42) comprises a fixed installation side wall and a pouring forming bottom wall, a pouring forming hollowed-out groove (43) is formed in the bottom wall of the temperature-resistant ceramic support (41), the lower end of the temperature-resistant alloy pouring sheet (42) penetrates through the pouring forming hollowed-out groove (43), and a pouring forming gap (44) is formed in the pouring forming bottom wall;

    a strip anti-sticking scraper (51) is further arranged between the amorphous alloy strip cooling roller (5) and the amorphous alloy strip collecting pipe (9), and the edge of the strip anti-sticking scraper (51) is tightly attached to the roller surface of the amorphous alloy strip cooling roller (5);

    the amorphous alloy strip collecting pipe is characterized in that an annular compressed gas air distribution pipe (94) and a linear compressed gas air distribution pipe (95) are arranged on the outer side of the amorphous alloy strip collecting pipe (9), the annular compressed gas air distribution pipe (94) and the amorphous alloy strip collecting pipe (9) are coaxially arranged, the linear compressed gas air distribution pipe (95) is parallel to the amorphous alloy strip collecting pipe (9), the linear compressed gas air distribution pipe (95) is connected with the annular compressed gas air distribution pipe (94), a plurality of cooling gas high-speed nozzles (93) are connected with the linear compressed gas air distribution pipe (95), and the annular compressed gas air distribution pipe (94) is connected with an air compressor (96).

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