SU1542720A1 - Method of flame multisectional scraping of defective areas of blank surface - Google Patents

Abstract

The invention relates to welding and can be used for continuous and selective cleaning of blooms and slabs of metallurgical plants. The purpose of the invention is to improve the quality and performance. Starting and cutting oxygen jets located in a row with fan-shaped opening are fed to the surface of the workpiece. The jet is directed opposite and obliquely to the direction of movement of the workpiece. The angle of inclination of the launch jet with the direction of movement is 15-25 °. The top of the corner is located on the side of the melt spot. The jet opening is 2.2-2.3 jet width at its base. Due to this, the mechanization and automation of the stripping process is carried out. 2 Il.

Description

The invention relates to welding, in particular to methods of multiple-section cleaning of defective areas of the surface of the workpiece, and can be used for continuous and selective cleaning of blooms, slabs and in rolling mills of steel mills.

The purpose of the invention is to improve the quality and performance.

FIG. 1 shows a device for carrying out the method, general view; in fig. 2 - the location of the nozzles feeding the jet.

A device for carrying out the proposed method consists of a head 1, a nozzle 2 for supplying cutting oxygen, a nozzle 3 for supplying starting oxygen, a device 4 for feeding an electrode wire. The device 4 is used only in one middle section, and is absent in the other sections.

A device for carrying out the proposed method is located above the surface of the moving workpiece 5.

The method is carried out as follows.

To ignite the metal at the beginning of the stripping, the electrode wire is advanced to the central part of the middle section of the device and at the moment the wire ends approaching the surface of the workpiece 5 an electric arc occurs, and a metal melt is formed on the surface of the workpiece 5. On this spot of the molten metal from the section, the start oxygen is directed through the nozzle 3. After the molten metal zone spreads over the surface of the workpiece 5 with a value of 2.20 of the jet width at its base, the start oxygen is turned on to the subsequent sections of the section blank. . The start-up jets of oxygen are fed at an angle of 15-25 ° to the direction of movement of the workpiece, with the top of the angle located on the side of the melt spot. Due to the action of the jet, the area of the molten metal expands to cover all defective parts of the workpiece.

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All operations, both for continuous and selective stripping, should be carried out automatically.

The implementation of the proposed method makes it possible to increase the speed and stability of the distribution of the spot of the molten metal by about 10 times and thereby eliminate the uncleaned areas located between the sections in the initial areas; Significantly reduce the consumption of combustible gas Vf. heating oxygen by 5-8%; Eliminate from operation a large number of complex mechanisms that, in conditions of high temperatures and aggressive, cannot be operated for a long time.

Claims (1)

The proposed stripping method makes it possible to mechanize and automate the process of management and improve the quality of stripping. Invention Formula The method of fire multisection sweep-Ki defective areas of the surface blanks0 0 ki, in which the surface of the preform is supplied arranged in a row perpendicular to the direction of movement of the preform, starting and cutting jets of oxygen to create melt spots, while the starting jets direct oppositely and obliquely to the direction of movement of the preform with fan-like opening, characterized in that In order to improve the quality and productivity, the angle of inclination of the launch jet with the direction of movement of the workpiece is 15-25 °, the top of which angle is located on the side of the melt spot, the supply of launch stations The ruy is carried out successively starting from the center of the row to its periphery, and at the time of supplying the next jet, the previous jet is stopped, the opening of each jet is 2.2-2.3 the width of the jet at its base, and the cutting jets of oxygen are supplied to the defective areas . ///////// 7 //// 7 //// 7 srigL 2 of FIG. g //////////// 5 v