UA13076U - A loading device of the blast furnace - Google Patents

Abstract

A loading device of the blast furnace contains receiving funnel with removable bicurvilinear guiding plate , charge distributor, intermediate axisymmetric accumulating hopper made biconical and cylindrical, small and large cones with bars, casing of intercone space, freight bowl of large cone. The wear resistant contact ring is disposed in the axial technological opening of large cone, and the shut off cone of the axial technological opening of large cone is suspended on the bar, passed through the hollow bar of large cone, and equipped with the drive. The shut off cone bar contains supporting pivot and compensation springs unit. The guiding funnel is disposed on the internal surface of the large cone.

Description

Description of the invention

The utility model refers to the field of ferrous metallurgy, in particular to blast furnace production, namely to 2 blast furnace loading equipment.

A two-cone loading device of a blast furnace is known, which contains a receiving funnel, a rotating charge distributor (ORSH), a small cone, a large cone, a bowl of a large cone, rods of a large and small cone, drives for rotation of the ORSH and vertical movement of the cones |1, p. 365-3671.

Disadvantages of such a loading device of a blast furnace are high complexity, low reliability and 70 stability of structures of the loading device, due to which the blast furnace is stopped for overhaul of the third category. This is expressed in the fact that the charge from the skip, falling into the receiving hopper asymmetrically to the furnace axis, performs a spiral movement along its surface, which leads to the segregation of the charge and its asymmetric location in the hopper of the ORSH. Due to this, volumetric, granulometric and weight irregularities arise, which are then tried to be eliminated with the help of ORS. The small volume of the ORSH funnel, designed to receive the charge of one skip, when dialing 72 feeds to the large cone, which consists of four skips, leads to the need to open the small cone four times, which significantly increases the time the large cone remains under the pressure difference, and this leads to the formation of blowouts and a decrease in the service life of the backfilling device. In order to ensure uniform distribution of charge materials along the circumference of the blast furnace furnace, it is necessary to rotate a portion of the charge together with the ORS funnel and a small cone according to the technological program. Depending on the volume of the furnace, the weight of the ORSH funnel with the charge is approx. The imbalance of the system due to one-sided loading of the watering can (from the left or right skip) is 15-1895. When loading the skip with iron-containing materials weighing 25-30 tons, the moment of unbalance is 3-4 m with the diameter of the hopper, corresponding to 67.5-90 kN.m. The rotation of the funnel with such an imbalance creates unwanted large dynamic loads in the drive elements, support elements and metal structures of the furnace. Frequent failure of the elements of the rotation drive of the ORSH watering can (especially the reducer) occurs 29 as a result of these loads. The ORSH has a seal between the skirt and the ORSH body with a diameter of 3-3.5 m. Provision and maintenance of contact density with a length of 9-11 m at a pressure drop of 0.2 mPa is a rather difficult task for any type of sealing. The centering of the ORSH funnel relative to the furnace axis is provided by rollers, the uneven wear of which in diameter disrupts the centering of the funnel itself, which requires periodic correction. The same applies to support rollers, because along with the wear of the rollers, the ring rail also wears out. uh-oh

The loading device of a blast furnace is known, which contains a receiving funnel, a rotating charge distributor, a small cone, a large cone with an axial process opening, a bowl of a large cone, rods of a large and small cone, drives for rotation of the OD and vertical movement of the cones (2 p. 1 -13; From pp. 14-26). at

The disadvantage of a loading device of a blast furnace with an ORSH and an axial process hole is also "The high complexity, low reliability and stability of the structures of the loading device, which has already been explained for analogue 1, and additional disadvantages are that the loading device with an axial process hole in - a large cone must be three-cone, when the large cone does not perform the function of a gas valve, as is the case in the furnaces of MK "Zaporizhstal", or the receiving funnel must have two funnels covered by gas valves with the addition of a second cap seal, which complicates the design and reduces the reliability of its operation, or "requires large capital expenditures when replacing the two-cone apparatus with a complex and heavy three-cone one, which, besides everything, cannot be fitted into the furnaces of the existing furnaces without lifting inclined bridges. c The closest analogue to the claimed charging device is the blast furnace charging device, which contains a receiving funnel with a removable bicurvilinear guide plate installed on the side of the opposite inclined bridge, a charge distributor made in the form of trapezoidal petals with individual drives for their rotation relative to axis that coincides with the large base of the trapezoid, with 15 intermediate axisymmetric storage hopper, made biconical-cylindrical, so that its bottom is formed by a small cone, and the cover is formed by trapezoidal petals, small and large cones with rods, casing (4) of the inter-cone space, cargo bowl of a large cone |4).

The disadvantage of the prototype is that it does not allow coke to be loaded directly into the axial zone of the blast furnace furnace, -I 50 The useful model is based on the task of increasing the productivity of the blast furnace and reducing coke consumption by expanding the possibilities of controlling the distribution of materials along the radius of the furnace furnace with double-cone loading device, as well as increasing the stability and reliability of its operation.

The task is achieved by the fact that the loading device of the blast furnace, which contains a receiving funnel with a removable bicurvilinear guide plate installed on the opposite side of the inclined bridge, a charge distributor made in the form of trapezoidal petals with individual drives for their rotation with respect to the axis that coincides with the large the base of a trapezoid, an intermediate axisymmetric storage hopper, made biconical-cylindrical, so that its bottom is formed by a small cone, and the lid is formed by trapezoidal petals, small and large cones with rods, the casing of the inter-cone space, the cargo bowl of the large cone, has significant differences, which are , that a wear-resistant contact ring is installed in the axial processing hole of the large 60 cone, and the closing cone of the axial processing hole of the large cone is suspended on a rod passed through the empty rod of the large cone, and supplied by an actuator located on the traverse of the large cone rod, while the closing rod the cone has a supporting heel and is supplied with a block of compensating springs located between the supporting heel and the drive rod of the closing cone, and on the inner surface of the large cone a guide funnel is installed, the diameter of the opening of which is 1.1-1.25 times the diameter of the closing cone.

Fig. 1 shows a general view of the loading device of the blast furnace, Fig. 2 shows the space between the cones, Fig. 3 shows the drive diagram of the closing cone.

The loading device of the blast furnace contains a receiving hopper 2, into which the charge materials enter from the skip 1, a removable bicurvilinear guide plate 3, a guide hopper 4, petals 5, actuators 6 of the petals 5, a body 7 of the petal distributor of the charge, a storage hopper 8, a small cone 9, the contact ring 10 of the small cone 9, the wear-resistant contact ring 11 of the axial process hole of the large cone 12, the bowl 13 of the large cone 12, the guide funnel 14 installed on the inner surface of the large cone 12, the stop cone 15 of the axial process hole of the large cone 12, the rod 16 of the stop cone 15, empty rod 17 large 7/0 / Cone 12, protective rings 18 small cone rod 9, empty rod 19 small cone 9, lower traverse 20 rod 19 small cone 9, traverse 21 rod 17 large cone 12, drive 22 locking cone 15 . eductor 26, drive gear 27, working wheel 28 with a nut, screw 29 of the helical gear, support heel 30 of the rod 16 of the locking cone 15, block 31 of compensating springs.

The loading device of the blast furnace works in the following way. Batch materials (agglomerate, pellets, coke and impurities) are fed through skips 1 into receiving hopper 2. Removable (for ease of replacement) bicurvilinear guide plate Z is installed on the side opposite the inclined bridge, prevents the flow of batch materials from the right skip 1 to the left side of the receiving hopper watering can 2, and from the left skip 1 to the right side of the receiving watering can 2, which significantly reduces all types of unevenness. Next, the charge through the guide funnel 4 enters the petal 2o distributor of the charge 7. In the closed position, the petals 5 form a conical surface with an annular opening, the coaxial rod 19 of a small cone 9. With the help of petals 5 of a trapezoidal shape, the size of the annular opening is changed using individual drives b (drive can be mechanical or hydraulic).

The materials discharged from the receiving funnel 2 through the aforementioned annular gap between the petals 5 and the rod 19 of the small cone 9 are poured into the intermediate axisymmetric storage hopper 8, which is biconical-cylindrical, so that its bottom is formed by the small cone 9, and the lid is formed by trapezoidal petals 5 The volume of the intermediate axisymmetric storage hopper 8 ensures the placement of a full supply of four skips 1 in it, which allows the sluicing of charge materials into the intercone space on the large cone 12 for one opening of the small cone 9. Since when loading the storage hopper 8, the effect is used "hourglass", the charge in the storage hopper 8 will form a correct cone of distribution of the charge materials through the petal distributor of the charge 7. The execution of the intermediate storage hopper 8 axisymmetric and biconically cylindrical allows you to preserve the obtained uniformity of the distribution of the charge. If necessary, the flaps 5 are fully opened, passing the oversized charge into the storage hopper 8. When the small cone 9 is opened, the supply accumulated in the hopper 8 is evenly distributed in the inter-cone space of the filling apparatus on the large cone 12 and further is also evenly distributed along the circumference of the furnace when opening the large cone 12 in the blast furnace space of the blast furnace. "-

Controlling the course of the furnace "from above" using such a distributor 7 is carried out in the mode of controlling the opening of the petal 5, or group of petals 5, in the desired sector. In this case, the furnace is loaded into the desired sector, which allows to eliminate, for example, the channel course of the furnace. In the furnace loading cycle, it is assumed that a dose of coke is fed directly into the center of the furnace furnace through the axial technological opening of the large cone 12, for which the feed is collected on the large cone 12 with the last one or two coke skips. In order to increase the stability and reliability of the operation of the large cone 12 with the technological hole by ensuring contact density in the axial technological hole of the large cone 12, the wear-resistant contact ring 11, which, together with the closing cone 15 of the axial process opening of the large cone 12, will form a conical shutter, which ensures coke loading directly into the furnace axis on the two-cone filling apparatus. The operation of the conical shutter is provided by a helical gear driven by the drive 22, located on the traverse 21 of the rod 17 of the large cone 12 and containing two motor-reducers 26 (the power of each of which ensures the normal operation of the conical shutter) and single-stage (gear 27 and o working wheel 28) gear reducer, in the working wheel 28 of which the power nut of the helical gear is made o (working wheel 28 and screw 29 of the helical gear). Placement of the drive on the traverse 21 of the rod of the large cone 12 5r enables both joint and separate movement of the large cone 12 and the closing cone 15 of the shutter, which

Sh- provides great technological possibilities for managing the quality of loading of bulk materials by area

F of the furnace of the blast furnace. The rod 16 of the locking cone 15 has a support heel 30 in the upper part, the force on which is transmitted from the drive through a block of compensating springs 31, located between the support heel 30 of the rod 16 and the traverse thrust of the drive. This, on the one hand, makes it possible to adjust the pressure of the closing cone 2 19 of the shutter to the wear-resistant contact ring 11, on the other hand, with a sharp increase in pressure in the inter-cone space (gas explosion), it makes it possible to connect the inter-cone space with the furnace cavity, leaving a large cone 12 in the closed position. On the inner surface of the large cone 12, below the contact ring, a directional funnel 14 is installed, which changes the direction of the coke flow to the center of the furnace. The minimum diameter of the opening of the guide funnel is 14 Ddip-1.1Duon (the diameter of the stop cone 15) is chosen from the installation conditions (with a smaller diameter, it is impossible to start and hang the stop cone 15), and the maximum Drach-1.29 Duon is chosen on the basis of a laboratory experiment that showed , that at Д pakh-1.25Duon, the charge, depending on the level of the backfill surface in the furnace, is distributed strictly in the axial zone of the furnace. As the diameter of the guide funnel 14 increases to more than 1.25 Duon, the backfill area increases proportionally, which disrupts the gas dynamics of the furnace, reducing the intensity of the central gas flow. 65 The loading device of the blast furnace of the proposed design allows to increase the productivity of the blast furnace and reduce coke consumption due to the expansion of the possibilities of controlling the distribution of charge materials along the radius of the furnace furnace with a two-cone loading device, as well as to increase the stability and reliability of its operation.

References: 1. Efimenkyu H.G., Himmelfarb A.A., Levchenko V.E. Iron metallurgy. - K.: Higher School, 1981. - 496 p. 2. Loading device of a blast furnace with loading of part of the coke into the axial zone / V.P. Tarasov, A.F.

Aikashev, V.N. Bulava et al. // Review information. - M.: "Chermetinformatsiya" Institute, 1991. - 26 p.

Q. Features of work! conical loading device with an axial technological opening when using typical loading systems / V.P. Tarasov, A.A. Tomas, V.N. Bulava et al. // Review information. 7/0./7 M. Institute "Chermetinformatsiya", 1991. - 26 p. 4. Patent of Ukraine Mo53231, IPC" C218 7/20, 2003.

Claims (1)

The formula of the invention 15. . And and and. . и и и шк Loading device of a blast furnace, containing a receiving funnel with a removable bicurvilinear guide plate installed on the opposite side of the inclined bridge, a charge distributor made in the form of trapezoidal petals with individual drives for their rotation relative to the axis that coincides with the large base of the trapezoid, an intermediate axisymmetric storage hopper, made biconical-cylindrical, so that its bottom is formed by a small cone, and the lid is formed by trapezoidal petals, small and large cones with rods, a casing of the inter-cone space, a loading bowl of a large cone, which differs in that the axial technological opening of the large cone a wear-resistant contact ring is installed, and the stop cone of the axial process hole of the large cone is suspended on a rod passed through the hollow rod of the large cone, and equipped with an actuator located on the traverse of the rod of the large cone, while the stop cone rod has a support heel and is equipped with a compen block sliding springs, located between the support heel and the drive rod of the locking cone, and on the inner surface of the large cone C, a guide funnel is installed, the diameter of the opening of which is 1.1-1.25 of the diameter of the locking cone. (Se) in «c) (ze) yo - and? - (95) («c) -and 4) 60 b5