CN210922170U - Novel induction shell of cored line frequency furnace - Google Patents

Abstract

The utility model relates to a novel there is core line frequency furnace inductor shell comprises last stove outer covering, lower stove outer covering, mica plate, connecting bolt, yoke fixed plate, water-cooling pipeline. The upper furnace shell is made of Q235 materials and is connected with a flange on the lower surface of the semi-continuous casting furnace body in a connecting mode through connecting bolts; the lower furnace shell is made of Q235 materials and is connected with a flange of the upper furnace shell in a connecting mode through connecting bolts; the mica plate is placed between the upper furnace shell and the lower furnace shell, and the upper furnace shell, the lower furnace shell and the mica plate are perforated by a drill with the diameter of 20.5mm aiming at the center; the connecting bolt is M16 and is used for fixing the upper furnace shell, the lower furnace shell and the mica plate; the magnetic yoke fixing plate is arranged in the lower furnace shell through an M20 high-pressure bolt jackscrew; the water cooling pipeline is welded at three semicircular positions of the upper furnace shell and the lower furnace shell respectively by bending the rectangular pipe 40mm x 20mm, and the water cooling pipelines of the upper furnace shell and the lower furnace shell are not communicated. The utility model has the advantages of simple structure, long service life, easy maintenance and safe and energy-saving.

Description

Novel induction shell of cored line frequency furnace

Technical Field

The utility model relates to a novel have core line frequency furnace induction body stove outer covering is applied to copper and copper alloy semicontinuous casting field.

Background

In the field of copper and copper alloy casting, when a semi-continuous casting furnace body is used for casting, the melting and heat preservation functions are carried, the maximum working temperature is 1340 ℃, and the joint of the upper furnace body and an inductor is fastened through a 10mm epoxy resin plate and an epoxy resin insulating sheath of M16 through bolts. The normal working temperature of the epoxy resin plate is-60 ℃ to +230 ℃, and the epoxy resin plate can be carbonized under the high-temperature working environment for a long time, so that the insulation grade of the casting furnace is influenced, the magnetic leakage of a magnetic yoke is caused, and the power consumption of the casting furnace is increased; in addition, the carbonization phenomenon can also cause the loosening of fastening bolts between the furnace body and the inductor, so that the furnace shell of the inductor deforms to influence the integral structure of the furnace lining, the furnace lining cracks are generated, and the incidence rate of copper leakage accidents is increased. And go up the furnace body and dismantle inconveniently with the inductor separation, need destroy the overall structure of founding furnace body frame, water-cooling pipeline, fusion ditch, build the stove material clearance in the inductor and get up the difficulty, increase workman's the construction degree of difficulty. At present, no good solution exists.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that needs to solve is, overcomes not enough in the background art, provides a simple structure, long service life, easy to maintain and safe energy-conserving novel cored power frequency furnace induction body stove outer covering.

The utility model discloses a specific technical scheme is: the utility model provides a novel there is core line frequency stove induction body stove outer covering comprises upper furnace shell, lower furnace shell, mica plate, connecting bolt, yoke fixed plate, water-cooling pipeline. The upper furnace shell is made of Q235 materials and is connected with a flange on the lower surface of the semi-continuous casting furnace body in a connecting mode through connecting bolts; the lower furnace shell is made of Q235 materials and is connected with a flange of the upper furnace shell in a connecting mode through connecting bolts; the mica plate is placed between the upper furnace shell and the lower furnace shell, and the upper furnace shell, the lower furnace shell and the mica plate are aligned to the center and are perforated by a drill bit with the diameter of 20.5 mm; the connecting bolt is M16 in model number and is used for fixing the upper furnace shell, the lower furnace shell and the mica plate; the magnetic yoke fixing plate is arranged in the lower furnace shell through an M20 high-pressure bolt jackscrew; the water cooling pipeline is formed by respectively welding the rectangular pipes with the lengths of 40mm and 20mm at three semicircular positions of the upper furnace shell and the lower furnace shell, and the water cooling pipelines of the upper furnace shell and the lower furnace shell are not communicated.

The utility model has the advantages of simple structure, long service life, easy maintenance and safe and energy-saving.

Drawings

FIG. 1 is a schematic structural diagram of an induction shell of a novel cored line frequency furnace;

description of reference numerals: the furnace comprises an upper furnace shell 1, a lower furnace shell 2, a mica plate 3, a connecting bolt 4, a magnetic yoke fixing plate 5 and a water cooling pipeline 6.

Detailed Description

The following detailed description of the novel induction furnace casing of the core line frequency furnace according to the present invention is made with reference to the attached drawing 1.

A novel induction body furnace shell of a cored line frequency furnace structurally comprises an upper furnace shell 1, a lower furnace shell 2, a mica plate 3, connecting bolts 4, a magnetic yoke fixing plate 5 and a water cooling pipeline 6, wherein the upper furnace shell 1 is made of Q235 materials and is connected with a flange on the lower surface of a semi-continuous casting furnace body, and the connecting mode is fixed through the connecting bolts 4; the lower furnace shell 2 is made of Q235 materials and is connected with a flange of the upper furnace shell 1 in a connecting mode through a connecting bolt 4; the mica plate 3 is placed between the upper furnace shell 1 and the lower furnace shell 2, and the upper furnace shell 1, the lower furnace shell 2 and the mica plate 3 are aligned to the center and are perforated by a drill bit with the diameter of 20.5 mm; the model of the connecting bolt 4 is M16, which is used for fixing the upper furnace shell 2, the lower furnace shell 2 and the mica plate 3, and after the connection, the resistance value of the upper furnace shell 2 and the lower furnace shell 2 is measured by an insulation resistance meter, and the resistance value is +/-infinity k omega; the magnetic yoke fixing plate 5 is arranged in the lower furnace shell 2 through an M20 high-pressure bolt jackscrew; the water cooling pipeline 6 is formed by bending a rectangular pipe 40mm by 20mm and welding the rectangular pipe at three semicircular positions of the upper furnace shell 1 and the lower furnace shell 2 respectively, the water cooling pipelines of the upper furnace shell 1 and the lower furnace shell 2 are not communicated, after the water cooling pipeline 6 is installed, a handheld pressure test pump is required to be used as a medium for carrying out leakage pressure test, and the pressure is not low and is 0.4 MP.

When the inductor is replaced, copper liquid in the semi-continuous casting furnace body is poured completely, the flange on the lower surface of the semi-continuous casting furnace body and the connecting bolt 4 of the upper furnace shell 1 of the inductor are all removed, so that the semi-continuous casting furnace body and the inductor can be quickly separated, then the upper furnace shell 1 and the lower furnace shell 2 of the inductor are quickly separated, and insulation treatment is carried out.

In addition to the technical features described in the specification, the technology is known to those skilled in the art.

Claims (1)

1. The utility model provides a novel there is core power frequency furnace induction body stove outer covering, its structure includes stove outer covering, lower stove outer covering, mica plate, connecting bolt, yoke fixed plate, water-cooling pipeline, characterized by: the upper furnace shell is made of Q235 materials and is connected with a flange on the lower surface of the semi-continuous casting furnace body in a connecting mode through connecting bolts; the lower furnace shell is made of Q235 materials and is connected with a flange of the upper furnace shell in a connecting mode through connecting bolts; the mica plate is placed between the upper furnace shell and the lower furnace shell, and the upper furnace shell, the lower furnace shell and the mica plate are perforated by a drill with the diameter of 20.5mm aiming at the center; the connecting bolt is M16 and is used for fixing the upper furnace shell, the lower furnace shell and the mica plate; the magnetic yoke fixing plate is arranged in the lower furnace shell through an M20 high-pressure bolt jackscrew; the water cooling pipeline is welded at three semicircular positions of the upper furnace shell and the lower furnace shell respectively by bending the rectangular pipe 40mm x 20mm, and the water cooling pipelines of the upper furnace shell and the lower furnace shell are not communicated.

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