UA80579U - Annular cooler - Google Patents

Abstract

An annular cooler for iron ore pellet comprises a rotary circular platform, formed with outer and inner concentric circular beams that rest on support rollers and movable in vertical plane bearing grate that form working surface of the circular cooler, placed between the circular beams. In each of grates through conical slots are provided. Width of a slot at the side of working surface of the circular cooler is equal to 0.95 of minimal dimension of ready pellet and is 0.41-0.45 of the total width d of the slot. Total area of the slots of grates Sis 0.23-0.25 of total area of the working surface of the bearing grate S. Bearing grate is fixed with provision of self-turn by means of axles in openings that are arranged in circular beams and form same gaps between those and the circular beams, those are equal to width of the slot. Total area SΣ, formed with gaps and conical slots is 0.23-0.25 of total area of the working surface of the circular cooler.SΣ= (0.230.25) * S Σ.

Description

The useful model belongs to the field of ferrous metallurgy and can be used at beneficiation factories in the production of iron ore raw materials, for example for pellets.

A well-known rectilinear agglomerate cooler is part of the technological chain for the production of agglomerate and is placed after the sintering or firing machine.

The rectilinear cooler is a plate conveyor with a grate cloth, which provides cooling of the sintered agglomerate with a temperature of 500"-600"С to a temperature below 100С (see, for example, the book "Machines and Aggregates of Metallurgical Plants". In 3 volumes. Vol. 1. "Machines and aggregates! of blast furnaces." Textbook for universities / Tselikov

A.I., Polukhin P.I., Grebenyk V.M. other. 2- there is a publishing house, processing. and additional - M.: Metallurgy, 1987.- 119-120 p., fig. IP 28 a).

The disadvantage of the known linear cooler is the low use of the area of the grate cloth for cooling the agglomerate (less than 50 95), which is due to the presence of an idle (unloaded) branch of the plate conveyor. In addition, the aforementioned rectilinear cooler has large dimensions in height to ensure the supply of cooling air and the removal of possible spillage of small fractions of agglomerate, which increases its weight and metal capacity.

These shortcomings are eliminated in the known annular cooler of agglomerate with a central drive, containing an annular platform on which a rotating annular hopper is mounted, which consists of separate, interconnected sections. The outer and inner walls of the hopper are composed of separate strips forming shutter-type walls with the slope of the cross-sections of these strips inside the ring hopper. The cooled agglomerate, after the sintering machine, is fed into a rotating ring hopper, where during its uniform rotation, hot agglomerate is poured around the perimeter of the ring hopper with subsequent blowing by air flow passing through the walls of the louver type (see, for example, AS Me110425, IPC E27B 21/00).

According to the set of essential features, the known ring cooler for agglomerate is the closest to the declared useful model and can be taken as the closest analogue.

The disadvantages of the closest analogue include the fact that the ring cooler works effectively only when the space in front of the louver type walls is completely filled with pieces

Of sufficiently large size, for example agglomerate, the size of pieces of which is 100-200 mm. When the above-mentioned space is filled with pellets, the size of which is much smaller than pieces of crushed agglomerate, the conditions for the passage of cooling air deteriorate, the speed and efficiency of cooling decreases. In addition, the well-known cooler has a rather complex design and manufacturing cost.

The basis of a useful model is the task of creating a ring cooler that provides effective cooling of iron ore pellets with a temperature of about 800 "C to a temperature below 120 C, by washing the heated pellets with streams of cooling air and due to the technical result, which consists in the intensification of the heat transfer process from the pellets to the cold air.

The set technical problem is solved due to the fact that in a ring cooler, for example, for iron ore pellets, consisting of a ring platform that rotates, formed by outer and inner concentric ring beams resting on support rollers, and movable in the vertical plane supporting gratings, which make up the working surface of the ring cooler, and are placed between the ring beams, each grating has transverse conical slits, the width of the slit from the side of the working surface of the ring cooler is equal to 0.95 of the minimum size of the commodity pellet and is 0.41...0.45 of the total width of the slit and, while the total area of the slits of the slits is equal to 0.23...0.25 of the total area of the working surface of the supporting grates Orob. grate. In addition, the supporting grates are fixed with the help of axes in the holes made in the ring beams with self-overturning, and form between themselves and the above-mentioned ring beams uniform gaps equal to the width of the gap c, and the total area formed by the gaps and conical gaps is 0 .23-0.25 of the total area of the working surface of the annular cooler.

The cause-and-effect relationship between the set of declared signs and the technical result is as follows.

Only due to the fact that in the ring cooler in each grating are made through conical slots, the width of the slot c from the side of the working surface of the ring cooler is equal to 0.95 of the minimum size of the commercial pellet and is 0.41-0.45 of the total width of the slot 4, at the same time, the total area of the gaps of the Gap is equal to 0.23-0.25 of the total area of the working surface of the load-bearing grates Orob. game. In addition, the supporting grids are fixed with the help of axes in the holes that 60 are made in the ring beams, with the provision of self-overturning, and form between themselves and the above-mentioned ring beams uniform gaps equal to the width of the gap c, and the total area formed by the gaps and conical slits, is 0.23-0.25 of the total area of the working surface of the ring cooler, washing and intensive heat exchange between pellets heated to high temperatures and cold air is ensured, the cooling efficiency of iron ore pellets with a temperature of about 800 "С to a temperature below 120 "С is increased.

An additional useful result, consisting in the elimination of temperature deformations and possible jamming of the load-bearing grates, outer and inner ring beams, is obtained by filling the gaps between the load-bearing grates, between the load-bearing grates and the outer ring beam, and the load-bearing grates and the inner ring beam.

The declared useful model is industrially applicable, since a working project was developed and a ring pellet cooler for the Poltava GZK was developed at PJSC NKMZ.

The claimed useful model is explained by the drawings, where: in fig. 1 shows the general view of the ring cooler; in fig. 2 section A - A; in fig. From section B - B; in fig. 4 type B; in fig. 5 section G-G.

The ring cooler (see Fig. 1 and 2) consists of a rotating ring platform, and contains an outer ring beam 1, an inner ring beam 2, which rest on support rollers 3, which are rigidly fixed to the bed (foundation). On the outside of the outer ring beam 1, the feed wheel 4 of the rotation mechanism of the ring cooler 5 is mounted.

The working surface 6 of the ring cooler is formed by the supporting gratings 7 located between the outer ring beam 1 and the inner ring beam 2 of the ring platform.

Distinctive features of the claimed useful model are: 1) in each supporting grid 7, through conical slits 8 are made (see fig. 4 and 5). The width c of each slot 8 on the side of the working surface 6 of the supporting grating 7 of the ring cooler is equal to c - 0.95 Odip, where O tip is the minimum diameter of the "commercial" pellet;

At the same time, the width c of each slot 8 is equal to c - (0.41...0.45)x a,

Where a is the total width of the slot 8 on the side of the non-working surface of the supporting bars 7. 2) the total area of the slots 8 on the side of the working surface of the supporting bars 7 is equal to the slots - (0.23...0.25) x Orob. full.; where Sparrow district - The area of the working surface of the load-bearing grids is 5;

C) supporting grids 7 (see Fig. 3) are fixed with the help of axes 9 and 10 in holes 11 and 12 made in ring beams 1 and 2 with the provision of self-overturning of the supporting grids 7; 4) the supporting grids 7 form uniform gaps 13 between themselves and the ring beams 1 and 2.

The width of each gap 13 is equal to the width of the gap c; 5) the total area of 5" slits of the ring cooler formed by the gaps 13 between the gratings and the conical slits of 8 gratings is equal to 55 slits - (0.230.25) "Bu rings; where 5 x rings - the total area of the working surface of 6 ring coolers.

The working surface 4 of the annular cooler is conditionally divided into three technological zones: the hot pellets loading zone, the hot pellets cooling zone and the cooled pellets unloading zone. The loading zone is equipped with a feeder that supplies hot pellets to the working surface of the annular cooler and a leveling device for leveling the pellets. The cooling zone, which occupies about 60 95 of the total area of the working surface of the annular cooler, is equipped with a cold cooling air supply system 14 and a hot air removal system 15 (see Fig. 2). The cooling air supply system 14 is placed under the ring beams 1 and 2 and the supporting gratings 7.

The hot air removal system 15 is installed above the ring beams 1 and 2 and the working surface b of the ring cooler with a layer of hot pellets. The unloading area is equipped with a device for overturning the carrier grids 7 and a device for returning them to their working position. A hopper with a feeder is placed under the unloading area, which ensures the supply of cooled pellets to the working branch of the belt conveyor, for further movement of the pellets along the technological chain. The device for overturning the carrier grids 7, hoppers, feeders and the leveling device in fig. 1, 2, 3, 4 and 5 are conditionally not shown.

The ring cooler works like this.

The ring cooler is rotated at a speed of 2.7 revolutions per minute using the rotation drive 5 of the ring cooler. Iron ore pellets after 60 firings, for example in a drum furnace, enter the loading zone of the ring cooler with the help of a feeder. Hot pellets are poured onto the working surface b of the supporting grids 7 and, with the help of a leveling device, are evenly distributed over the working surface, forming a layer about 100 mm thick and with a temperature of about 800 "C. Then the layer of pellets is moved to the cooling zone, where the flow of cold air, which supplied by the cold air supply system and which creates excessive pressure, is evenly distributed from the back side of the supporting grids 7, passes through the layer of hot pellets and cools them through the conical slits 8 and gaps 12. Due to the conical slits 8, the flow of cooling air is additionally accelerated, which also increased the effectiveness of air washing the pellets and their cooling.

Next, already hot air, using the hot air removal system, which creates a rarefaction above the layer of pellets, is sent for disposal, for example, to the recuperators of the incinerator, and is further cleaned and released into the atmosphere.

Burned pellets, after passing through the cooling zone, are cooled from a temperature of 800 °C to a temperature below 120 °C.

Next, in the unloading area, the carrier grids 7 are turned around the axes 9 and 10 by means of a tipping device, occupying a vertical position. The cooled pellets are poured into the hopper and fed by the feeder to the working branch of the belt conveyor, and move further along the technological chain. Moving further, the carrier grids 7 with the help of a tipping device are turned, while taking a horizontal position and enter the loading zone, where the next batch of hot pellets to be cooled is again fed to them by the feeder.

Thus, due to the implementation of gratings in accordance with the declared useful model, intensive heat exchange between hot pellets and cooling air is ensured, and as a result, cooling of burnt hot pellets, effective and productive operation of the ring cooler is ensured.

Claims (1)

UTILITY MODEL FORMULA An annular cooler, for example for iron ore pellets, consisting of an annular From a platform that rotates, formed by outer and inner concentric ring beams resting on support rollers, and movable in the vertical plane bearing grates, which make up the working surface of the ring cooler, and placed between the ring beams, which is distinguished by the fact that in each grate are made through conical slits, the width of the slit c from the side of the working surface of the ring cooler is equal to 0.95 of the minimum size of the commercial pellet and is 0.41-0.45 of the total width of the slit c, while the total area of the slits of the grating OZslits SKLadDas 0.23-0.25 from the total area of the working surface of the load-bearing grates Orob. grid. 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