RU2044086C1 - Apparatus to trap and withdraw gasses of converter - Google Patents

Abstract

FIELD: non-ferrous metallurgy. SUBSTANCE: apparatus has mounted with clearances cooled inner shell and outer shell, box with slit and ejectors, mounted on both sides of converter neck, side local banks are mounted on protruding beyond plane of converter's cross-section side walls. EFFECT: increased efficiency of apparatus. 10 cl, 4 dwg

Description

The invention relates to non-ferrous metallurgy, in particular to devices for collecting and removing converter gases
The closest technical solution to the invention according to the achieved effect is a device for localizing and removing gases from the converter, containing an internal cooled dust cover, an outer casing, a box with a slot and nozzles in the form of ejectors, mounted on the side of the drain toe, around the neck, excluding the side of the drain toe, vertical plates are installed, the front wall of the outer casing is adjacent to the front wall of the cooled casing, made sectional, vertical plates and the space around the necks We are thermally insulated and the side walls of the outer casing protrude beyond the cross-sectional plane of the converter.

 However, the characteristic feature of this device is: incomplete capture of the evolved gases when the metal is drained from the converter into the casting ladle; the possibility of formation of accretions on the slits of variable cross-section in the upper part of the box, placed under the drain toe.

 The invention allows to achieve a technical result, expressed in increasing work efficiency, eliminating the formation of accretions, increasing reliability and working efficiency.

 This is achieved by the fact that the device for localizing and venting gases from the converter, containing a dust cover, is made up of vertical plates around the neck, boxes with ejectors installed under the clearance of the internal cooled and external casings, and boxes with ejectors under the drain toe, on the side walls of the outer casing protruding beyond the section plane Converter, additionally installed local side suction, the working section of which is the protruding side walls of the outer casing, the box with ejectors of two separate elements is located on on both sides of the neck, the height of the outer casing is limited by the height of the axis of its front wall, the suction from the outer casing and the side suction can be autonomous, the upper part of the duct with ejectors, the inner part of the front wall rotation and the working part of the outer casing stand protruding beyond the plane of the converter, heat insulation must be removable, and use kaolin wool (fiber) as thermal insulation.

 In FIG. 1 shows a device, a General view; in FIG. 2 is a view along arrow A in FIG. 1; in FIG. 3 section BB in FIG. 2; in FIG. 4 is a view along arrow B in FIG. 2.

 A device for collecting and removing gases from the converter contains a cooled dust cover (casing) 1, outer casing 2, vertical plates 3, axis 4, duct 5, ejectors 6, front wall 7, side suction 8, side walls 9 protruding beyond the cross-sectional plane of the converter 10, casting bucket 11, precipitation chamber 12.

 The device operates as follows.

 In the melting mode, the exhaust gases from the neck of the converter 10 are directed through the vertical plates 3 into the cooled casing (dust cover) 1, part of the gas escaped through leaks between the lower edges of the casing and the upper edges of the plates 3 enters the chamber formed by the outer walls of the cooled casing and the inner walls of the outer casing 2, then into the ventilation system. The front wall 7 prevents the entry of gases into the room.

 In the loading mode of the metal converter, the converter 10 rotates, its neck leaves the zone of operation of the cooled casing, the front plate 7 rises, forming an inlet section into the chamber, the duct 5 with ejectors 6 also exits the chamber, therefore, by supplying compressed air to the ejectors 6, they work as traction drives, taking polluted air from the area below the neck of the converter and supplying it to the chamber, and then the ventilation system.

 The side walls 9, protruding beyond the plane of the converter, limit the spreading of upward convective flows, therefore, contaminated gases under the influence of upward convective flows, the action of the ejector element and the energy of the traction inducer enter the ventilation system, excluding their entry into the production room. The sectional design of the front wall 7 makes it possible to lift the section in front of the cooled casing and the section in front of the chambers during loading of the converter to different heights, ensuring efficient operation of the device. The placement of the box 5 with ejectors 6 at the neck level eliminates the formation of accretions in both the input and output section of the box.

 In the mode of discharge of metal from the neck converter, a considerable distance is removed from the zone of action of the cooled and external 2 casings. In this case, the front wall 7 of the outer casing rotates as much as possible on axis 4, while its sectioning allows to maximize the working section into the inlet chambers, the side walls 9 limit the spreading of upward convective flows, and the operation of the side suction 8 is turned on in order to increase the effect of their action by increasing the speed in the working section, shutters are installed, as well as compressed air is supplied to the ejectors and they work as traction stimulators, taking the most polluted air below the neck, i.e. from there are jets of metal discharge from the pouring bucket 11.

 Thus, during the discharge of metal, along with the action of the exhaust ventilation system through the cavity of the cooled 1 and outer 2 casings, ejectors 6 installed in the ducts and forcing polluted air into the cavity of the outer casing 2, an autonomous ventilation system through the side suction devices 8 installed on protruding walls 9 of the outer casing. At the same time, upward convective flows and the sticking effect contribute to the efficiency of the device.

 In addition, the presence of thermal insulation on the upper part of the box, around the neck, on the inner surface of the movable front and side walls of the outer casing increase the reliability of the device.

Claims (10)

 1. DEVICE FOR COOLING AND DISCHARGE OF GASES FROM THE CONVERTER, containing an internal cooled and external fixed casing, a box with a slot and nozzles in the form of an ejector, vertical plates, side walls of the external casing protruding beyond the cross-sectional plane of the converter, the front wall on the rotation axis, thermal insulation around neck, characterized in that the box with ejectors is made of two components located at the level of the neck of the converter, and the side walls of the outer casing protruding beyond the plane of the cross section of the converter, local suction with an autonomous ventilation system.  2. The device according to p. 1, characterized in that the axis of the ducts of the local side suction is located at the level of the axis of the converter.  3. The device according to claim 1, characterized in that the height of the outer casing does not exceed the height of the axis of rotation of the front wall.  4. The device according to claim 1, characterized in that the cavity of the inner cooled casing and the outer casing are connected to autonomous air removal systems.  5. The device according to claim 1, characterized in that at the input section of the lateral local suction installed blinds.  6. The device according to claim 1, characterized in that the space around the neck, the upper part of the duct, the inner part of the front rotary wall, the side walls of the outer casing protruding beyond the cross-sectional plane of the converter are thermally insulated.  7. The device according to claim 1, characterized in that the outer casing and its elements are made sectional and collapsible.  8. The device according to claims 1 and 7, characterized in that the thermal insulation is removable.  9. The device according to PP.1,7 and 8, characterized in that the thermal insulation is made of kaolin fiber.  10. The device according to claim 1, characterized in that the vertical plates are the side walls of the box.

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