RU2030129C1 - Electric insulation unit of attachment of electrode holder to metal structure of electric arc furnace - Google Patents

Abstract

FIELD: metallurgy. SUBSTANCE: outer stage of electric insulation is produced in the form of closed duct embracing inner stage which is attached to electrode holder and member of structure of furnace. Outer stage is fixed with the aid of soft spacers. EFFECT: simplified design, enhanced reliability of attachment. 4 cl, 4 dwg

Description

 The invention relates to electrothermics and can be used in the design of electrical insulating nodes for fastening electrode holders to racks in arc steel furnaces.

 The aim of the invention is to increase the reliability of the electrical insulating unit in operation.

 In FIG. 1 shows an electrical insulating assembly of an electrode holder to a metal structure of an electric arc furnace; in FIG. 2 - section aa in figure 1; in FIG. 3 - section BB in FIG. 1; in FIG. 4 - section bb in figure 2.

 The electrical insulating unit for attaching the electrode holder 1 to the metal structure of the electric arc furnace 2 contains an internal step of electrical insulation made in the form of two electrically insulating plates 3 oppositely inclined to the horizon and electrically insulated with electrical insulating bushings and washers 4.

 Electrical insulating plates 3 and electrically insulated fasteners 4 protect the metal structure of the furnace 2 from getting electric voltage from it from the electrode holder 1 and perceive and bear the main mechanical loads acting from the side of the electrode holder 1.

 The inner stage of electrical insulation, made of plates 3 and fasteners 4, is located under the electrode holder 1, which through this stage is electrically insulated to the metal structure of the arc furnace 2. The inner stage of electrical insulation is tightly covered by the outer stage of electrical insulation, made in the form of a vertically installed between the electrode holder 1 and the metal structure of the arc furnace 2 closed insulating ducts 5, covering with its walls from the sides the inner step of electrical insulation and tightly attached downward to the electrode holder 1 through intermediate fusible elements 6 made of a material with a low melting point, for example aluminum, and from below to the metal structure of the furnace 2 through intermediate conductive elements 7 and soft gaskets 8 made of soft material, for example, rubber or asbestos cord .

 The insulating box 5 and the intermediate fusible elements 6 are made collapsible and removable. Installation of electrical insulating duct 5 is possible inclined. The implementation of the outer stage of electrical insulation in the form of a vertically or obliquely installed under the electrode holder 1 electrical insulating closed box 5, covering the inner stage of electrical insulation, made of plates 3 and fasteners 4, and attached by the ends to the electrode holder 1 and metal 2, allows, without changing the distance between the electrode holders 1 different phases of the furnace, significantly increase the size (vertical part) of the external electrical insulation, and also allows you to move the outer stage from the inner.

 The use of intermediate fusible elements 6, made, for example, of aluminum, makes it possible to protect the electrode holder 1 from damage and to prevent the transfer of a surface discharge from the external stage of electrical insulation to the internal. The presence of soft gaskets 8 allows limited displacement of the outer stage of electrical insulation relative to the metal structure of the arc furnace 2 while maintaining reliable sealing of the fastening point and unloading the outer stage of electrical insulation from mechanical forces from the electrode holder 1. The dismountability and removability of the duct 5 and elements 6 allows quick repair of the outer stage of electrical insulation in parts (elementwise).

The technical and economic advantage of the proposed technical solution in comparison with the known ones consists in the following:
1. To increase the reliability of the electrical insulating assembly of the electrode holder to the metal structure of the electric arc furnace due to a significant increase in the size of the electrical insulation surface of the outer stage of electrical insulation while maintaining small distances between the electrode holders of different phases of the furnace, which is especially important for a furnace operating with high secondary voltage and in adverse conditions Environment: high dust conductive dust, high humidity, etc.

 A vertical or inclined arrangement of a substantially developed surface of the outer step of electrical insulation (up to 300 mm or more) reduces the possibility of its overlapping by surface electric discharge.

 2. To increase reliability by maintaining the operability of the electrical insulating unit even after surface overlapping by an electric discharge of the external stage of electrical insulation, without repairing it, which is ensured by preventing the possibility of transfer of the discharge arc to the internal stage of electrical insulation and protecting the supporting structures of the electrode holder and the metal structure of the furnace from damage by the arc, and localizing the arc fusible intermediate elements.

 3. In increasing reliability due to the dense shelter of the internal stage of the electrical insulation of the unit from the adverse effects of the external environment with the unloading of the external electrical insulation stage from significant mechanical loads.

 4. To increase reliability due to the possibility of quick element-by-stage repair of a damaged external stage of electrical insulation of a unit during its planned or technological breaks (without a forced long emergency stop of an arc furnace).

 5. In reducing the time for periodic cleaning of the main electrical insulation from conductive dust.

 The above advantages reduce the accidental downtime of an electric arc furnace caused by the overlap of the electrical insulation mount of the electrode holder by electric surface discharge, reduce operating costs for the maintenance of the electrical insulation assembly, increase the productivity of the furnace.

Claims (4)

 1. ELECTRIC INSULATION NODE FOR FASTENING THE ELECTRIC HOLDER TO THE METAL STRUCTURE OF THE ARC ELECTRIC FURNACE, containing an internal step of electrical insulation carrying mechanical loads, and an outer step of electrical insulation surrounding the inner step, characterized in that, in order to increase the electrical isolation level, the electrical work box is made reliable, installed under the electrode holder and attached to it and to the metal structure of the furnace.  2. The node according to claim 1, characterized in that the outer stage of electrical insulation in at least one place is fixed through soft pads.  3. The node according to claim 1, characterized in that the box is fixed through intermediate fusible elements.  4. The node according to claims 1 and 3, characterized in that the box and elements are made collapsible and removable.

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