SU950773A1 - Charge ditributor for charging apparatus of blast furnace - Google Patents

Description

The invention relates to ferrous metallurgy, and more specifically to the equipment of a shaft furnace. The most effective invention can be used in the equipment of the blast furnace.

A blast furnace charge distributor is known, consisting of a penetrating funnel and chutes of various lengths Cll.

The disadvantage of this device is that the bar of the trays are made uncooled.

The closest to the proposed technical essence and the achieved result is the charge distributor of the charging apparatus of the blast furnace, containing a water cooled hollow rod, inside which a pipe supplying water passes, and in the body of the distribution cone there is a channel for supplying a cooling cone of water passing into the pipe that feeds water directly into the annular cooling cavity. From the cavity, water is removed by the pipe and then by an annular cavity in the body of the cone, which, in turn, is drilled in it with the rod cavity formed by the inner surface of the rod and the outer surface supplying water to the tube. To prevent leakage of water through the articulation of the rod with the cone in the joint socket of the cone and between the shank and the walls of the socket installed plunger rings. The water supply to the boom and its discharge are made by flexible hoses attached to

10 rod above the installation of interstitial seal C2.

The disadvantage of this known distributor is that the supply and discharge of water through the rod with hoses

15 to the switchgear distribution device does not allow rotation of the distribution element of the charge 2Q distributor, which is necessary

the condition for the distribution of the charge along the radius of the furnace top in modern infinite distributors.

The aim of the invention is to cool the rod as it rotates.

25

This goal is achieved by the fact that in the known device, we contain a water-cooled hollow itrah of the distribution element with an internal annular partition,

Claims (2)

30 separating the cooled cavity into inlet and outlet parts, as well as elements for water inlet and outlet, the water inlet element is made c. view mounted on a rod on bearings to a housing fixed with a pivot in a horizontal plane with seals and an annular manifold connected through openings in the rod to the inlet part of the cavity being cooled, and the water diversion element is in the form of an annular duct rigidly connected to the housing and communicating through the holes in the rod with the outlet part of the cooled cavity. FIG. 1 shows the distribution of the charge of the charging apparatus of the blast furnace, general view; in fig. 2 - the upper part of the rods, type A in FIG. 1J in FIG. 3 is a section b-B in FIG. 2, water-cooled boom distribution element with devices for supplying and discharging water. The charge distributor consists of a rotating funnel 1 and a distribution element 2, suspended on coaxial vertical rods 3 and 4, connected to actuators that are mounted in a single housing 5. The latter is fixed to the cover 6 tightly to the chamber 7. The same seal is fitted with an omental seal 8. Inside the hollow rod 4 of the distributing element, there is a ring partition 9 which divides the cooled cavity of the rod into the inlet 10 and the outlet 11. Inside the annular partition 9 there is a closed cavity 12, formed by a pipe 13, which is designed to reduce the cross section of the discharge cavity in order to increase the flow rate of the water being withdrawn, and consequently, reduce the likelihood of sedimentation from the water. On rod 4, a housing 15 is mounted on bearings 14, which is fixed from rotation in a horizontal plane by a rod 16 connected with metal structures. Seals 17 are placed in the housing 15, between which there is an annular collector 18 communicating with the supply openings 19 in the fixed case 5 and with the openings 20 in the rotating rod 4. Above the housing 15 there is an annular duct 21 which is rigidly connected with housing 15 with the aforementioned tread 16. The cavity of the box 21 is communicated through the holes 22 with the outlet of the cavity of the rod 11. A drain 24 is attached to drain water from the box 21 and below the level of the holes 22, a flange 24 is attached to the rod 4. its groove 25 covers the inner walls 26 at box 21 than to prevent water from entering the post 4 and its seal 17. Spreader charge operates as follows. In operation, the distribution element 2 is activated by means of its rod. The upper part of the rod 4 rotates in the stationary case 15 and the annular duct 21. Water passes through the holes 19 in the stationary case 15 to the annular collector 18 and then through the holes 20 in the rotating rod 4 the water enters the rod’s cooled cavity 10. Passing to the lower end of the rod 4, water flows around the annular partition 9 and through the outlet part 11 of the cavity of the rod 4. enters the upper part of the rod 4 and through the holes 22 in the rotating rod 4 enters the cavity of the annular duct 21. From the duct 21 water freely drains through pipes 23. The proposed cooling device allows increasing the resistance of the rotating rod and thereby reducing the downtime of the blast furnace by 2-3%. The operational reliability of the charge distributor increases. The annual economic effect from the use of the invention is about 158.4 thousand rubles. Claims The blast furnace charge distributor of a blast furnace containing a water cooled hollow rod of a distribution element with an internal annular partition dividing the cooled cavity into inlet and outlet parts, as well as a water inlet and outlet device, characterized in that its rotation, the device for supplying water is made in the form of mounted on a rod on bearings and fixed against rotation in the horizontal plane of the housing with seals and an annular collection the torus is connected through the holes in the rod to the inlet part of the cooled cavity, and the water drainage device is made in the form of an annular duct rigidly connected to the housing and connected through the holes in the rod to the outlet part of the cooled cavity. Sources of information taken into account during the examination 1. USSR author's certificate No. 181143, cl. From 21 to 7/20, 1965. 2. Authors certificate of the USSR 298651, cl. From 21 to 7/20, 1971. / l -Fig .g