SU610868A1 - Blast furnace tuyere - Google Patents

Claims (2)

The invention relates to the field of metallurgy, namely to equipment for supplying blast to a furnace for blast furnaces. In the practice of blast-furnace production, tuyeres of different diameters and blowing their working parts into the furnace are used to control the distribution of the gas flow over the furnace cross section and control the blast smelting progress. Known lance with separation of the flow blow a partition into two streams: one along the gate to the axis, the second at an angle (for example, 15 °) to the horizontal axis of the tuyere assembly, including down. However, in such a tuyere it is impossible to control the amount of blowing, off downward, and also supply a certain part of the air blowing up the tuyere to enhance the peripheral flow of gases. The closest to the proposed invention to the technical essence of the achieved result is a furnace of the Domestic Furnace, which contains a cooled housing with a water jacket, the inner surface of which has a cylindrical section and a venturi 2j. The disadvantage of this tuyere is the inability to control the distribution of the gas flow — to feed a portion to the periphery of the furnace and deflect a portion of the flow to blow down. The aim of the invention is to control the distribution of the gas flow and to improve the operation of the hearth of the blast furnace. This is achieved by the fact that in the proposed lance, the body at the junction of the cylindrical section with the Venturi tube is made composite, the pipe has a horizontal connector below the axis of the tuyere, and the adjustable parts are fixed on the driven water cooled bars passed through the head of the head .. As the narrowing of the Venturi pipe If the flow resistance is blowing, then when the Venturi pipe is cooled inside the furnace, the adjustable part blows to the periphery of the furnace, and when only the lower part moves doohlazhdaemoy Venturi tube in a furnace part of the flow is deflected downward .dut hearth. The amount of blowing deflected to the periphery of the furnace and down the hearth is controlled by autonomous movement of water-cooled rods in the longitudinal direction. A small amount of air flows all the time to prevent metal from entering the tapered connector. To prevent metal from entering the horizontal connector of the Venturi pipe, this connector is mounted on the tuyere axis, so that the upper movable part of the water cooled Venturi pipe covers the lower movable part. Figure 1 shows the proposed lance, General view; figure 2 - work furky. The lance contains a stationary water-cooled housing 1 with a cylindrical section connected to the flange 2. Hollow metal pipes 3 pass through the jacket of the stationary water-cooled housing 3. The water-cooled Venturi pipe 4 is separated from the cylindrical section of the water-cooled case 1 by a conical connector 5 and is separated by a horizontal connector 6 into two parts. The upper 7 and lower 8 water-cooled movable parts of the Venturi tube 4 are attached to the driving gear consisting of tr for supplying 9 and discharging 10 cooling water. The necessary density to prevent the passage of gases from the furnace is achieved by means of the gland 11 and the gland cover. The movement of the longitudinally movable parts 7 and 8 of the water-cooled venturi 4 (figure 2) is carried out with the help of autonomous drives installed outside the embrasure of the furry instrument. The blast is supplied through the flange 2 and the internal cavity of the cylindrical section, the internal cavities are water-cooled and movable in the longitudinal direction of the portions 7 and 8 of the Venturi pipe 4, and enter the tuyere zone of the blast furnace. If it is necessary to strengthen the peripheral gas flow, the upper 7 and lower 8 water-cooled moving parts of the Venturi tube are simultaneously longitudinally displaced with the help of rods 9 and 10 into the furnace, and part of the flow enters through the cone of the blast furnace. To eliminate the blockage of the hearth and reduce the burning of the tuyeres, the lower cooling cooled movable part 8 of the Venturi tube 4 is longitudinally perematse inside, the furnace, establishes a larger gap in the tapered connector, and blows into the resulting gap (Fig. 2). Depending on the size of the gap formed during the movement of the moving water-cooled parts of the Venturi tube, the amount of blowing coming to the periphery of the furnace and down the hearth varies, and thus the distribution of the gas flow is controlled, eliminating blockage of the hearth and burning of the tuyeres, i.e. improving the work of the forge. The application of the proposed tuyere allows the regulation of the length of the combustion zone, the distribution of the gas flow and the correction of discharges of the charge. Improving the uniformity of gas flow distribution by adjusting increases the utilization of the reducing energy of the gas flow and contributes to saving coke. The arrival of a part of the blow down the hearth reduces the burning of the tuyeres, stabilizes the course and reduces the downtime of the furnace. The invention of a blast furnace tuyere containing a water-cooled body, the inner surface of which has a cylindrical section and a Venturi tube, which, in order to regulate the distribution of the gas flow, the body At the junction of the cylindrical section with the Venturi pipe and the Venturi pipe in the longitudinal direction the axis of the tuyere is made of composite, while its parts are fixed on the drive water-cooled rods, passed through the shirt. Sources of information taken into account in the examination: 1. US Patent 3350084, cl. 266-41, 1967. 2. Leonidov N.K. Construction and equipment of blast furnaces. M., Metallurgizdat, 1955, p.88