RU2010865C1 - Production line for preparation and delivery of slag-forming mixtures into melting unit and steel-pouring ladle - Google Patents

Abstract

FIELD: steel-smelting production. SUBSTANCE: line is equipped with units for continual weighing 5 and with flows of material stream 24. Units for continual weighing 5 are fixed under tilting flow paths 4 of receiving hoppers. They are carried out in pairs built-in into combined tank 7 connected with aspiration system. Installation of flow paths of material stream enables to change directions of material delivery from loading system of converter into input system in ladle. EFFECT: rise of process efficiency and work reliability.

Description

 The invention relates to steelmaking and can be used for the preparation and supply of solid slag-forming mixtures in predetermined proportions to the melting unit and steelmaking ladle.

 A known line for the preparation and supply of bulk materials to the Converter and the steel ladle containing bunkers, feeders, bunker scales, estrus.

 Also known is a production line for the preparation and supply of bulk materials in steelmaking, containing bunkers installed during the process, feeders, weight locks, prefabricated bins, interconnected by conveyors with unloading mechanisms and estrus.

 A disadvantage of the known device is its low efficiency during operation, which does not meet flexible technology and reliability in operation. This is due to the fact that for the supply of slag-forming mixtures to the melting unit and the casting ladle, the optimum ratio of lime and fluorspar, namely 4: 1, as well as their thorough mixing, is required.

 In addition, it is necessary to have a reserve in case of a failure in the feed line of slag-forming mixtures and compensate for this by direct supply of lime and fluorspar from the conveyor loading system to the ladle feed system, which significantly increases reliability. The aim of the invention is to increase the efficiency of the process and reliability.

 This goal is achieved by the fact that in the production line containing receiving hoppers with gates installed during the technological process, weighing batchers, prefabricated hoppers connected by conveyors with unloading mechanisms and estruses, receiving hoppers are made with inclined chutes fixed under the gates, and the production one the line is equipped with devices for continuous weighing, flow of materials flow, combined capacity connected to an aspiration system, and devices for continuous weighing fastened under the inclined chutes of the receiving hoppers and made pairwise integrated into the combined tank, and the chutes of the material flow are installed with the possibility of changing the direction of material supply from the loading path of the melting unit into the ladle input system.

 In FIG. 1 shows a general view of a portion of a production line located at a material warehouse; in FIG. 2 is a section AA in FIG. 1, with the installation of continuous weighing devices over the main conveyor going to the workshop; in FIG. 3 - node I in FIG. 2 with the arrangement of continuous weighing devices integrated in a combined vessel connected to an aspiration system; in FIG. 4 - production line, a section of which is located in the shop with a system for introducing material into the converter and into the steel pouring ladle.

 The production line for the preparation and supply of slag-forming mixtures consists of railway cars 1, along which there are bunkers 2 with gates installed under them 3. Inclined chutes 4 are fixed under the latter, and under them are devices for continuous weighing 5 located on the frame 6. The device is made in the form of belt conveyor mechanisms with weight-metering elements (not shown in Fig.), and their ends are paired (for each hopper) integrated in a combined tank 7 located above the main conveyor 8. Between them protections of the conveyor 9 and the funnel 10 are installed. A lid 11 and a pipe 12 connected to an aspiration system are connected to the container. The main conveyor is equipped with self-propelled dumping carts 13. The bunkers 14 with feeders 15 and weight batchers 16 are installed in the workshop, similar to both the bulk material supply system (lime, etc.) and the deoxidant supply system. In the supply system of deoxidizers along their path installed furnace 17 for calcination. Under the estruses of the weighing batchers, prefabricated bins 18 with gates and estruses 19 are installed for introducing bulk solids into the converter 20. For introducing deoxidizing agents into the steel pouring ladle 21, estruses 22 are installed above the zone of its location, the upper base of which is aligned with the funnel 23. The estrus 24 has a built-in estrus , which is connected by its upper base to the heat supply 19 of the input of bulk solids into the converter 20.

 In turn, a group of funnels and pipelines 25 deoxidant path combined a common system for transporting them into a steel pouring ladle.

 The production line works as follows. Slag-forming materials (lime and fluorspar) received in railway wagons 1 are unloaded into a certain row (right or left) of hoppers 2. When the shutters of 3 hoppers are open, the slag-forming materials flow through inclined chutes 4 onto the belt of the continuous weighing device 5. When the belt is stationary, the device serves shutter hoppers, as the material itself locks the exit from the inclined estrus, forming a layer at an angle of repose. Continuous weighing devices are adjusted so that the weight of the lime supplied from one of the devices is 4: 1 to another device that feeds fluorspar, or are close to this optimum ratio. After switching on both devices, lime and fluorspar, pouring towards each other (Fig. 3), are mixed in a ratio of 1: 4 and fed to the main conveyor 8, through which they are fed to the workshop (Fig. 4). Using a dumping cart 13, the slag-forming mixture is loaded into the hoppers 14 intended for it from a number of deoxidizing feed systems. Then, with the help of feeders 15, slag-forming materials along the deoxidizing agent path, including, if necessary, drying them in the furnaces 17, are introduced into the metal located in the ladle 21 through a pipe 25, a funnel 8, and estrus 22. At the same time, the elements of the deoxidizer feed path as furnaces 17 for calcination and weighing systems of materials, and weight batchers 16, which operate in normal modes. In case of failure in the operation of this system can be used as a reserve path for the supply of bulk materials to the converter. At the same time, the bins of the bins 18 are turned, directing lime and fluorspar into the estrus 24 of the material flow and through it through the funnels 23 and estrus 22 to the bucket 21. Moreover, of course, the dosing accuracy (4: 1 ratio) and the necessary mixing of slag-forming components are violated, however, the operational mode of production is not interrupted. (56) Arist L.M. et al. Mechanization of work in the steel industry. Kiev, Vyscha school, 1989, p. 59.

 USSR author's certificate N 931756, cl. C 21 C 7/00, 1982.

Claims (1)

 A FLOW LINE FOR PREPARATION AND FEEDING OF SLAG-FORMING MIXTURES TO THE Smelter and the steel-filling ladle, containing receiving hoppers with gates installed during the process, weighing batchers, prefabricated hoppers, connected with the conveyors, which are connected to process efficiency and reliability in operation, receiving hoppers are made with inclined chutes fixed under the gates, and the production line is equipped with devices for continuous weighing by flow chutes of material flow combined with a suction system, moreover, devices for continuous weighing are mounted under inclined chutes of receiving hoppers and are made pairwise integrated in a combined tank, and chutes of material flow are installed with the possibility of changing the direction of material supply from the loading path of the melting unit to bucket entry system.

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