LU83090A1 - DEVICE FOR INJECTING PRODUCTS INTO THE STEEL MELT - Google Patents

Abstract

1. Apparatus for holding and guiding an immersion lance through which products are introduced into a steel melt by means of a carrier gas characterized by the fact that the apparatus has two arms (4, 5) flexibly interconnected by a shaft (15g) as well as two guide arms (6, 7) parallel to the arms (4, 5) a central bracket (3), an immersion lance mounting support (11) and a device (13) for raising and lowering the two arms (4, 5) with the immersion lance (2), acting on one of the guide arms (7), the two arms (4, 5) being connected, at their respective ends opposite to said shaft (15g) and via a shaft (15b) and a shaft (15j) respectively, to the bracket (3) and to the lance mounting support (11) respectively.

Description

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The present invention relates to a device for blowing products into the molten steel, in particular to holding and guiding an immersion lance via which the product is introduced into the molten steel with the aid of a carrier gas.

It has been known for decades to delineate iron melts by using suitable devices to add products which are capable of forming compounds with the sulfur contained in the melts at high temperatures and under reducing conditions deposit the melt layers above the melts. Such products are, for example, CaSi, CaC? or mixtures of CaO and CaF? . These products are introduced in granular form with the aid of a carrier gas, preferably argon, and a dipping lance introduced into the molten steel. Such a method and device for dosing are described for example in the two Luxembourg patents 80 692 and 82 977.

In all known systems, the immersion lance is immersed in the steel melt or pulled out via a device which comprises a vertically arranged mount as a guide for a immersion lance holder which is lowered or raised by an electrical chicken. The carriage itself is arranged so that the immersion lance can be inserted in the center of the molten steel.

All known devices have the disadvantage, among other things, that they must have an extremely complex construction in order to be able to guarantee a reasonably exact guidance. Furthermore, the linear movement of the diving lance holder on the carriage results in tolerances which do not guarantee robust, vibration-free guiding of the diving lance. Vibrations or impacts on the immersion lance are caused by the chemical reactions in the bath during the blowing process and are transferred to the entire support structure if improperly guided. / f as well as the foundation fastenings on the hall construction ..

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The aim of the present invention is to propose a device which, in addition to precisely guiding the immersion lance into the molten steel, is able to demonstrate an extremely extensive robustness which absorbs the vibrations caused by the chemical reactions.

According to the invention, the aim is achieved by a device for holding and guiding a submersible lance, which comprises two arms articulated via an axis, and two guide arms arranged parallel to the previous arms, a central | * Console, a diving lance holder and a device for lifting or lowering the two arms with the diving lance, which is attached to one of the two guide arms; attacks.

Furthermore, the device according to the invention can include guide rods arranged parallel to the two arms or guide arms and connected to one another via an articulated axis. ensures vertical lifting or lowering of the immersion lance.

Preferably, the raising or lowering of the diving; lance reached by a hydraulically operated cylinder vertically arranged on the console.

Furthermore, the entire device can be: axis arranged vertically within the console can be pivoted horizontally. A horizontally arranged hydraulic is also preferred for this swiveling operation actuated cylinder provided.

I To explain the device according to the invention and its mode of operation, reference is made to the drawings and their

Description referred. Show it :

Figure 1 is a schematic side view of a preferred embodiment of the device according to the invention in the raised position;

Figure Z is a schematic side view of the; Device in lowered position; : / 7 // //: / '- 3 - l; igur S, a schematic side view, chalices representing the relationship of the device between sinks and lifts;

Figure 4 is a schematic side view of the device which shows the influence of a horizontal adjustment of the lowering or. Represents stroke cylinder.

In Figure 1, a steel pan 1 and a diving lance 2 can be seen in the rest position, that is, in the raised position. The immersion lance 2 is connected to the device according to the invention via a fixed triangle 11.

On a vertical axis 12, a bracket 3 is rotatably arranged via, for example, ball bearings. A hydraulically actuated cylinder 13 is also attached to the console 5 and causes the diving lance 2 to be raised or lowered. When the immersion lance 2 is in the rest position, the cylinder piston rod 14 is in the extended position.

An arm 4 is provided on the console 3 itself via an axis 15b, which arm is connected at its upper end to a second arm 5 via a further axis 15g.

At the other end of the arm 5, the diving lance holder 11 is articulated via an axis 15j.

A guide arm 7 engages the piston rod 14 at one end thereof via an axis 15c and is connected to the arm 5 at its other end via a further axis 15h.

It should be noted here that the lei camouflage. 7 is absolutely parallel to arm 4. A second guide arm t connects the arm 4 to the guide arm via two axes 5d and 3 5e. The guide arm t is also arranged parallel to the arm 5. In order to avoid a possible deviation of the immersion lance 2 during the lowering or lifting from the vertical axis, it is necessary for the centers of the axes 15b, 15c and 15j to be on an imaginary line 5.

As such, the two axes 15c and 15e could be designed as a single one, whereby the condition that the guide arm 6 is parallel to the arm 5 must still be fulfilled. This will of course shift the attack point Z5d on arm 4. For design reasons, however, the alternative shown in the figures was retained.

So that the immersion lance 2 remains in its absolutely vertical arrangement when lifting or lowering, it is recommended to attach a guide which j; essentially of two guide rods 9 and 10 which j | are connected to one another via an axis 15f, ij Here, the guide rod 9 is on its axis 15f! opposite end connected to the console 5 via an axis 15a and the guide rod 10 to the diving lance holder 11 via an axis 15i.

ü jj To ensure absolute parallelism, I the axes 15f and 15g are connected to each other via a connecting link 17f. It should be emphasized that the t | imaginary lines between the axes 15f and 15g and between the axes 15i and 15j are parallel to the cylinder 15 and the 5 piston rod 14, respectively.

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j To compensate for any manufacturing tolerances,

Si j the cylinder 15 can be adjusted in its suspension 18 and j | then be blocked in the desired position.

? (For the same reason, an adaptation device 16 is preferably provided with an adjusting screw as an additional actuation.

i> i i-! The rotation of the console 5 with the entire device! about the axis 12 can by a known device j! | - be achieved, for. B. via hydraulic cylinder or I electric motor with gear.

| · Furthermore, the position of the immersion lance 2 can, for example, be continuously monitored via an angle encoder in the axis 15a or 15b.

f w w I Figure 2 shows the diving display 2 in the working position i.e. inserted into the steel pan 3. It should be noted here that the piston rod 14 has moved into the cylinder 15.

I However, the piston rod 14 could easily be brought into any position between rest and working position I ";

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FIG. 3 shows a schematic representation of the conditions according to the arrangement between the hydraulic cylinder 15 and the immersion lance holder 11. The vertical connecting line 23 between the two axes 15a and 15b is assumed as the reference line. The ratio of the distance 21 of the hydraulic cylinder 13 to the reference line 25 with the distance 22 of the lance holder 11 to the reference line 25 is equal to the ratio of the stroke 19 of the hydraulic cylinder 15 to the stroke 20 of the diving bracket 11. For this reason, for each particular system, the optimal conditions between the individual values specified and the force of the hydraulic cylinder are determined.

Figure 4 shows a schematic representation of the influence of a horizontal displacement of the hydraulic cylinder 15 on the immersion lance holder 11, which is shown only as a line in this figure.

Moving the cylinder 15 from position 13a to position 13b means increasing the distance to the reference line 23 from 21a to 21b. For the lance guide 11, this offset means a displacement of the distance to the reference line 25 from 22a to 22b. The ratio 21a to 21b is equal to the ratio 22a to 22b.

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Claims (8)

1. Device for holding and guiding an I diving lance (2), characterized in that the device; two arms (4, 5) articulated to one another via an axis (15g), and two guide arms (6, 7) arranged parallel to the arms (4, 5), a central console (3), a diving lance holder (11) and a device (13) for raising or lowering the two arms (4, 5) with the immersion lance (2) which engages one of the j guide arms (7), the two arms; (4, 5) at their respective ends opposite the axis (15g) via axes (15b) or (15j) with the | Console (3) or the lance holder (11) are connected t. *! 2. Device according to claim 1, characterized in that; that the device understands a guide which comprises two guide rods i |. parallel to the arms (4, 5) (9, 10), and a connection (17 j between the I guide rods (9, 10) and the arms (4,5), 3. Device according to claims 1 and 2, thereby | characterized in that the console (5 j on a vertical; j axis (12) is arranged horizontally pivotable.! I 4. Device according to claims 1 to 3, characterized in that j the lifting or lowering of the immersion lance | i ('2) is carried out via a hydraulically actuated cylinder (13). i ij 5. The device according to claim 4, characterized in that the holders (16, 18) of the cylinder (13) are adjustable. 6. Device according to claims 1 to 5, characterized jj that the rotation of the console (3 j about the I axis (12) is done by means of a cylinder. 7. Device according to claims 1 to 5, characterized in that the rotation of the bracket (3) about the axis (12) is done by means of an electric motor and a ✓ gearbox. ; // //? // - 7 - 8. Device according to claims 1 to 7, characterized in that the position of the immersion lance (2 J) is continuously displayed via an actuator arranged in the axis (15a) or (15b).. / 1 //