SU659625A1 - Blast furnace platform - Google Patents

Description

ascending upward, through the suction inlets are removed along the exhaust duct system 1.

However, the known device, in general, is equally crucial to the problem of removing harmful gases in the area of the tap holes and the main chutes of the blast furnace, has a number of disadvantages that reduce its practical utility. The plot of the flat, over the bays and adjacent main grooves is made removable, such as this space should be sufficient for various technological operations (iodacha refractory materials for the repair of grooves, maintenance of ribbon blades and drilling machines, etc.). However, it is rather laborious and, therefore, requires additional time, and the high performance of the blast furnace is one of the main drawbacks, and then connected to the main exhaust and supply air lines with the necessary sealing of the joints. In the known area of the device, the platform should be sufficiently removed from the tap-hole and the gutters, as well as to its lower surface, in which the suction and feed openings are located, are affected by the radiant heating of molten iron and slag. Protecting this surface with a layer of teloizolyatsii zatrudiene, as this layer will cover the above-mentioned holes. If we take into account that the distance between the tuyere stock devices and the blast-furnace openings is very limited, then, in fact, it is not always possible to maintain the necessary distance from the site, and, secondly, any distance from the source of harmful gases leads to proportional increase in the power of suction and air intake units, which causes a corresponding increase in capital and operating costs. A rather large distance from the source of gas release requires the use of air curtains that restrict the distribution of gases. But created air curtains require additional expenses in the form of costs for the feed installation and additional space on the site of the supply air ducts, which is difficult to find in the extremely constrained conditions of the near-year zone. Tests show that when the suction inlets are located close enough to the openings and gutters, there is practically no need for air curtains. The gas is removed through these openings, as it does not spread due to the presence of natural obstacles. These natural obstacles are: from below — the level of the floor of the working platform; from above - ring area, if it is low enough above the tap-holes; The sides of the construction are the drilling machine and the gun, which are located on different sides relative to the notch and the main runner. To create a continuous air curtain that cuts the length of the chute across is impractical, since it helps to remove gases from the part of the main chute located outside the site.

The goal of the acquisition is to simplify the co-operation of the service area around the equipment, as well as reducing metal consumption and limiting the dimensions of the site and its height.

This is achieved by the fact that the removable parts

The blast furnace platforms are made in the form of lids, and the air conductors with suction holes are placed in stationary parts at the points of their connection to the removable parts of the core. Besides,

air ducts are formed by bearing elements of the site. In order to bring the platform closer to the go-off distance from the pepp, the beam is installed above the removable parts of the site, and each removable part is made in the form

two sheet covers. The supporting elements of the pad, located above the gates, are provided with a protective thermal insulation layer. In addition, stationary areas are equipped with removable elements.

in the form of sheet covers and beams.

On fpg. 1 schematically shows the blast furnace site, general view; in fig. 2 - plot area b in the area of the entrance; in fig. 3 is a view A-A in FIG. 2; in fig. four -

BDB in FIG. 2; on fng. 5 is a view B-B in FIG. 2

The blast furnace site / located above the tap-holes 2 and intended, in particular, for the maintenance of fur

devices (not shown in the drawing) and to remove harmful gases, contains two annular beams 3, supported by columns 4, stationary sections 5 and removable parts 6, which are attached to beams 3. Directly under the gaps 2 structural elements: Tenlonzole protected layer 7. The outer annular beam 3 is free-flowing relative to the inner annular beam 3 (see FIG. 3), and removable

Part 6 areas are made of sheet covers of different thickness, which makes it possible to maximally lower the entire area to the size of the gun 8 in the working floor snnp. The stationary sections 5 (area K1 consist of the upper Hecyniero sheet 9 (see Fig. 4), reinforced by ribs 10 in connection with a large width of the platform, which is necessary for convenient servicing of tuyere assemblies, and the lower carrier section 11. In the stationary sections 5 platforms are provided with separate removable elements 12 and 13 in the form of sheets and beams, which is necessary for access to the gun 8 and the drilling machine 14 during their repair.

The upper carrier sheet 9, the ribs 10 and the lower carrier sheet // are connected to the main ducts 15 and .16 exhaust ventilation. The main air ducts 15 are extended to the working platform 17 and serve as complementary supports for the annular beam 3. The suction holes 18 of the exhaust air ducts 15 are located in the stationary sections 5 vertically on both sides with respect to the removable parts 6, the tavern 2 II of the troughs 19.

The device works in the following way.

Intensive emission of harmful gases occurs during the discharge of pig iron and slag through a tap hole 2 in chute 19. The space at chute 19 on the one hand is limited to the actual blast furnace 1, on two other sides - a button 8 and a drilling mask 14. From above, the space is limited to the removable part 6 of the site below the working platform 17. Hot gases and vapors are lifted and sucked through suction inlets 18, as shown by the arrows in FIG. 5, in the air duct 15 and further are removed but the main air ducts 15, 16 of the exhaust ventilation (the route of this ventilation and the suction device are not reflected in the drawing). Thanks to the removable part 6, full of two leaf caps, the plastic layer of the ionic layer

7, the suction inlets IS are as close as possible to the openings 2 and the grooves 19, therefore the hot harmful vapors and gases of practically 1 are completely removed through these openings 18, so that they do not have time to spread due to the presence of the listed obstacles.

F f) p m u l a and 3 about b ete e t-i i; l

The equipment of the blast furnace site, consisting of beams with load-bearing elements with openings, connected to the suction lines, and not

the elements are strengthened permanently, except for the notch areas, where the bearing elements are made removable, with the fact that, for the purpose of reinforcing the construct;:; sites in the area of the tap hole, the device in

the area of the sockets is provided with removable flat covers installed on the beams, the suction pipelines are located in the places of fixed stationary vessels; - :: elements and outlets, joined together with the stationary bearing elements.

Source of information, accept; knowledge in the examination:

21 V

1. French patent L 2133285, 7/00, 1972.