DD209851A5 - METHOD AND DEVICE FOR EMPTYING HATCHERS - Google Patents

Abstract

While the object of the invention is to provide a method and a device whereby a more economical emptying of hutch containers is possible, the object is to prevent the entrainment of slag during emptying in large proportions. As a solution, it is now provided that it is ensured in accordance with the apparatus that the following steps can be carried out, which ensure that, at the latest after the metallurgical process has ended and before the container is tilted, a tight closure of the casting hole is ensured by means of a plug which can be dissolved by the melt, that the container is tilted, that a blower gas is introduced into the entrance of the casting hole via permeable elements in the container that the casting hole is closed by means of a new plug as soon as the first slag elements are to be located, and that Container is tilted back to its original position.

Description

AP C21C / 252 013/7 _ λ 62 498 27 '- "" ^ 21.11.83

Method and device for emptying metallurgical vessels Field of application of the invention

The present invention relates to a method and. a device for emptying tiltable metallurgical vessels, in particular converters in steel mills, which have a casting hole mounted in the side wall and contain melting metal on which slag floats.

Characteristic de r b e k annten Technisc hen solutions

In the casting of the metal, and especially the cast steel in the ladle or any other transport or processing vessel, a certain amount of slag generally passes through the casting hole _8. In fact, at the beginning of the discharge, when the converter is tilted in the casting position, the hole will fill first Slag before the steel bath completely covers it. During the casting of the metal, a vortex, called a vortex ring, forms over the casting hole, pulling the slag into the pan. At the end of the pouring process, before the converter is returned to its initial position, an additional amount of slag is poured into the pan. "The slags can cause the steel to be back-bent. On the other hand, the high oxygen activity in the slag makes the metallurgical treatment of soaked and semi-killed steel more difficult. In addition, the desulphurisation of the steel becomes critical,

In order to avoid the entrainment of slag at the beginning or at the end of the discharge process of the tiltable metallurgical vessels, various devices have already been proposed. The best known are the cap, the sliding

22MQV.1933 * l: Ulf) J

-.2 - 62 498

21/11/83

Overbound and above all the massive float whose cross-section is larger than that of the casting opening and which floats above the mouth of the casting hole. These floats have a density which is between the density of the slag and that of the metal. Your job is to close _r the casting hole when all metal has been poured out practically · As the contours of Gußloches by wear constantly changing, involving the use of floats no proven results · According to DE-OS 2,639,712 is a closure device of the casting hole containing an insulant body which can be inserted into the casting hole leaving an annular gap free with respect to the wall of the casting hole and containing a compressed gas line. The slag is pushed back into the container by the gas flow. which is subject to severe wear in large converters has been improved in the sense (see EP 10 082) that the lateral outer surface of the closure device is formed from a surface in the form of a spherical cap, which turns into a frusto-conical surface on the side of the mouth , In a preferred embodiment, the closure device consists of gray cast iron. The two devices have the disadvantage that they require large amounts of gas in order to seal the casting hole. In addition, there are problems in closing the gas line mouth of the closure device ·

In order to reduce the amount of slag entrained by the vortex or vortex ring which forms with the start of pouring in the pan above the casting, it is already known to inject a blown gas via pipes into the interior of the metal bath in the immediate vicinity of the casting hole ( LU-PS 61 204), Unfortunately, the drilling requires

- 3 - 62 498 27

21/11/83

clogging, significant quantities of gas, not only during emptying but also throughout the process. This results in a significant cooling of the molten metal, on the other hand, have the drill, which come into contact with the slag and the liquid metal, a significantly shorter life than the crucible coverings. The disappointing results are probably explained by the fact that the blower gas coming from the bores does not distribute sufficiently in the vortex and thus fails to counteract the vortex effect sufficiently and to retain the slag.

Object of the invention

The aim of the invention is to provide a method and a device, whereby a more economical emptying of metallurgical vessels is possible.

Explanation of the essence of the invention

The present invention has the object to eliminate the disadvantages described and to prevent the entrainment of slag when emptying the metallurgical vessels in large proportions «

This object is achieved by the method according to the invention, which is characterized in that at the latest at the end of the metallurgical process, the tight closure of the casting is ensured by means of a plug which can be dissolved by the melt, that in the entrance of the casting through a permeable elements Blowing gas is introduced into the container, that the casting hole by means of a

- 4 - · 62 498 27

21/11/83

new plug is closed as soon as the first slag parts are discovered and that the container is returned to the starting position.

In a further embodiment of the invention it is provided that the plug by means of a Sohwenkarmes, which is preferably moved by a working cylinder, is introduced into the casting, that the whereabouts of the plug is ensured in the casting during the metallurgical process by means of said arm and that the arm is withdrawn just before the emptying process ·

For the purposes of the invention is further that constantly a certain amount of gas »preferably 1-3 Ncr / hour, is blown through each permeable element and that this throughput during the pouring of the metal from the container is increased to preferably 5-10 NmνStunde»

The device for carrying out the method is characterized in that the gas-permeable elements comprise at least one elongated segment, which preferably has a rectangular cross-section, and are equipped on the cold side with a gas distribution chamber, which is connected via a line to a fan source, and said stopper is temporarily mounted on a moving by a working cylinder pivot arm. It is useful in this context, even if the temporary attachment is formed by a pin which holds the stopper, provided with a suitable recess, by Eeibung «

62 498 27 21.11.83 '

Preferably, the pin is pivotally mounted on the pivot arm.

In the fahm the invention is further provided that the plug has the shape of a truncated cone whose small base is slightly chamfered and whose large base said recess comprises · As it has also been found favorable if the plug made of wood, preferably from fir wood, and partially surrounded by a layer of refractory material.

It is also advantageous if two gas-permeable elements are provided, which are located on both sides of the Gußloches, preferably at a distance of about 0.5 m from the axis of the Gußloches.

Preferably, the source of the fan means is an argon, nitrogen or carbon dioxide source.

The advantages achieved by this invention are that a good separation of the metal and the slag is achieved both at the beginning and towards the end of the emptying of the crucible. On the crucible side in a two-phase run with intermediate cleaning and recovery of the slag of the second blower phase can be saved after a reduction of slag loss lime · On the tank side, a significant reduction of Eückphosphorung of the metal is observed; the performance of iron alloys introduced after emptying increases significantly. In addition, an increase in the durability of the refractory of the container of about 10 % can be observed.

- 6 - 62 498 27

21/11/83

The invention will be explained in more detail below using an exemplary embodiment. In the accompanying drawing show:

I ig. Fig. 1: a section through a device for emptying metallurgical vessels, shown schematically}

Fig. 2s is a section through an embodiment of the plug _{s used} to close the casting hole and its mint $

i ^T 3s strength from the inside of the converter of view, details of the Gußlocheingangs.

In £ "ig" 1 part of a fresh crucible 1 is a! Illustrated whose Gußlooh is closed by a plug 3. 2, the plug 3 is mounted pit an arm 4, which pivots about an axis which is mounted on the wall of the Gußloches 2 The arm 4 is provided with a stopper 6. (The counter-stop mounted on the converter wall is not shown.) A working cylinder 7 to be moved in both directions acts on the arm 4 via a pin 8 and a fork 9. The working cylinder 7 can move The plug 3 has the shape of a truncated cone and is slightly chamfered The large base of the truncated cone has a cylindrical recess in which a pin mounted on the arm 4 is mounted (see also Fig. 2) The stopper 3 _{S held} by friction on the pin 14 is preferably formed of a cheap material which is easy to work and relatively soft, such as wood, preferably wood In order to improve durability at high temperatures, the surface of the plug 3 is preferably provided with a layer of refractory material

- 7 - 62 498 27

21.11,83

overdrawn. Two fan-transparent elements 10 are located on both sides of the casting hole 2 (see FIG. 3). The best location for mounting these elements 10 is preferably determined experimentally for each converter. By positioning at a distance of about 0.5 πι from the axis of the casting hole 2 best results were achieved for a converter of 150 tons. Permeable members 10 suitable for the practice of the invention have been described in LU 82,552, LU 82,553 and LU 82,554 patents. They are formed of several adjacent elongated segments of rectangular cross-section, which are surrounded by a metal box. On the cold side of the permeable element 10, a distribution chamber 11 is welded to the walls of the box. Lines 12 connect this chamber 11 to a source I3 of the blower means. The passage of the fan means occurs at the interface of the various segments. It follows that the permeable elements 10 cause a well-distributed flow of media.

Instead of a rigid mounting of the pin 14 on the arm 4, advantageously also a controllable assembly can be used (see Fig. 2). In this embodiment of the invention, a tube 20, on which a lug 16 is welded, is mounted on the arm 4. A bolt 18, which is screwed into a pin carrier 15 which is provided with a pin 14, ensured by a spring 17 and a disc I9 the support of the pin carrier 15 on the neck 16. This adjustable mounting of the plug 3 on the arm 4 guaranteed an automatic centering of the plug 3 on the mouth of the casting hole 2, whose contours change due to wear.

- 8th - ; 62 498 2?

21/11/83

The device operates as follows: During the blowing of the working cylinder can be held in position 7, ve ie it is shown in Figure 3 ig _e 1, to ensure the retention of the plug 3 in the mouth of the Gußloches 2 · Incidentally, it should be noted that? the casting hole 2 is preferably always closed when no casting process is performed. "This limits the heat losses and prevents the escape of the flames and slag when the blower is operating." Before the converter is tilted, the power cylinder 7 pulls the arm 4 until it stops 6 zurücko The plug 3 sticks in the casting hole 2. The liquid mass comes into contact with the plug 3 during tilting and destroys it in a few seconds. At this moment the converter is in a position which causes only metal to be in the immediate vicinity of the casting hole 2. Due to the intense and constant blowing ₉ caused by the rising of the blower gas flow from the permeable elements, an annular area is created over the casting hole 2. This area has no slag and virtually no vortex ring, so that the steel can be poured out without taking any significant amounts of slag. A new plug 3 is mounted on the cam 14 of the arm 4. Towards the end of casting, as soon as the first slag parts have been detected or observed with the aid of optical or magnetic sensors or the like, the working cylinder 7 is tensioned and the plug 3 is inserted into the casting hole 2. The plug 3 has a small mass, and consequently the closing occurs rapidly. Since the plug 3 is relatively soft, it can conform to the contours of the casting hole. In order to guarantee a hermetic seal, the position of the locking device can preferably be regulated on the axis of the casting hole 2. It should also be noted that

62-498 27 21.11.83

I i

! I

if the plug 3 in each case between Zw0i emptying remains in the Gußlooh 2, the use of a second plug 3 is superfluous ",! ί | ·

M i i

As a blowing agent, a neutral gas such as argon, nitrogen or possibly carbon dioxide is recommended. During the process, a gas flow rate of 2-3 hours / hour ensures the permeability of the refractory elements. At the moment of handling, the gas flow rate is increased to 5-10 Nmr / hour. It should be noted that higher flow rates cause splashes which mix with the slag and are then drawn with it to the casting hole. By adjusting the flow rate of the blower gas, an improvement in the ferromanganese performance of 3 to 7 % was observed for semi-killed steels, which equates to an average saving of 0.35 kg / t steel. Also, the number of high-repose stacks, about 0.025% P, was reduced by more than half, while the low-repose stubs, about 0.002 % P, could be easily doubled.

Although the invention has been described in connection with a tilting bar and shows the most conclusive results, it can also be used in static huts containers which have a casting hole introduced into the ground. Also, the number of permeable elements need not necessarily be two and the blower gases suitable for the practice of the invention are not limited to argon, nitrogen or carbon dioxide.

Claims (8)

- 10 - 62 493 27 21/11/83 invention claim 1. A method for emptying tiltable metallurgical vessels, in particular steelworks converters having a casting hole recessed on the side wall and containing melting metal on which a Schlaokenschioht floats, characterized in that at the latest after completion of the metallurgical process and before tilting of the container a tight closure of the pouring hole (2) is ensured by means of a plug (3) which can be dissolved by the melt, tilting the container so that a blower gas enters the entrance of the pouring hole (2) through permeable elements (10) the container is inserted, that the casting hole (2) is closed by means of a new plug (3) as soon as the first block elements are to be located, and that the container is tilted back into its starting position. Method according to item 1, characterized in that the stopper (3) is introduced into the casting hole (2) by means of a pivoting arm (4), which is preferably moved by a working cylinder (7), so that the whereabouts of the stopper (3 ) is ensured in the casting hole (2) during the metallurgical process by means of said arm (4) and that the arm (4) is retracted just prior to the evacuation process, 3 «method according to item 1, characterized in that constantly a certain amount of gas, preferably 1-3 itfm-y hour, is blown through each permeable element (10) and that this throughput when pouring the metal from the container to preferably 5 - ' 10 Nmr / hour is increased. - 11 - 62 498.27 21/11/83 4. A device for carrying out the method according to one of the items 1 to 3, characterized in that the gas-permeable elements (10) comprise at least one stretched segment, which preferably has a rectangular cross-section, and are equipped on the cold side with a gas distribution chamber (11), which is connected via a line (12) to a source of blower means (13), and in that said plug (3) is temporarily fixed on a swivel arm (4) moved by a working cylinder (7), 3 * device after point; 4, characterized in that the temporary attachment by a pin (14) is formed, which holds the plug (3), provided with a suitable recess, by friction. 6. Device according to point 5 »characterized in that the pin (14) is pivotally mounted on the pivot arm (4). · Device according to one of the items 4 or 5 »characterized in that the plug (3) has the shape of a truncated cone whose small base is slightly chamfered and whose large base comprises said recess. 8β Apparatus according to item 7 »characterized in that the plug (3) is made of wood, preferably of fir wood, and partly surrounded by a layer of refractory material» ~ 12 - 62 498 27 21/11/83 9. Device naoh point 4, characterized in that two gas-permeable elements (10) are provided, which are located on both sides of the Gußloches (2), preferably at a distance of about 0.5 m from the axis of the Gußloches (2) , 10. The device according to item 4, characterized in that the source of the blowing means is an argon, nitrogen or carbon dioxide source. For this 1 page drawings