DE2303978B1 - Device for introducing fine-grain treatment agents into molten steel - Google Patents

Description

35

The invention relates to a device for introducing fine-grain treatment agents (in particular of fine-grain desulphurising agents and nitrogenizing agents) in steel melts with the help of a carrier gas, consisting of carrier gas equipment, storage container for the fine-grained treatment agent, located in the deepest part of the container, provided with carrier gas inlet nozzle and suspension outlet Suspensator and immersion lance, with the immersion lance via a delivery line for the suspension flow the suspension outlet of the suspensator is in communication, and on the immersion lance a mixing chamber is placed, which allows a feed of pressurized gas into the suspension stream. - The wording "Mixing chamber placed on the immersion lance" also includes embodiments in which the mixing chamber arranged in the vertical part of the delivery line, which is an extension of the immersion lance is. - Inert gases, e.g. B. argon, in question. Since it is an embroidery, but nitrogen can also be used.

In a known device of the type described (OE-PS 254 919), the delivery line is direct connected to the carrier gas battery, the suspension outlet of the suspensator opens into the delivery line only one. A first branch line leads in front of the confluence of the suspension outlet in the Delivery line from the delivery line into the suspensator, a second branch line leads into the head side Storage container, which is preceded by a storage bunker. The pressure in the reservoir on the one hand, the delivered On the other hand, the amount of carrier gas in the delivery line is regulated, including at appropriate points Control valves are arranged and assigned to these control loops. To improve the promotional effect is the mixing chamber is provided, which functions as an additional injector. None of this ensures that at the mouth or at the end of the immersion lance always a predetermined, substantially constant pressure of the Carrier gas prevails, as is necessary when using the immersion lance to use the fine-grained agent to be blown into the molten steel at a depth of about 2000 mm and more, namely not even if the delivery pressure of the carrier gas battery is constant via a reducing valve or the like. It it cannot be ruled out that a short circuit occurs across the suspensator, as it were. That means considerable Pressure fluctuations. Such pressure fluctuations lead, on the one hand, to undesirable oscillations of the path large immersion depth long immersion lance and premature destruction caused by it, on the other hand it can happen that the molten steel penetrates the immersion lance and the immersion lance becomes unusable as a result power. All of this also applies to an embodiment of a similar type (DT-AS 1 148 938) which, however, lacks the mixing chamber. The immersion lance itself usually has one in such devices A jacket made of fire-resistant cladding or a cooled jacket that is also not vibration-proof.

In modern practice and after not yet to Proposals belonging to the state of the art work at bias depths of 2000 mm and more, what Requires immersion lances from 4000 to 5000 mm in length.

The invention is based on the object of developing a device of the type described at the outset so that the same pressure can always be specified at the mouth or at the end of the immersion lance without difficulty, even with an extremely large length of the immersion lance and thus great immersion depth. The immersion lance in the latter case must be 5 to 10 min. In the liquid steel, the temperature is at least 1530 ⁰ C, are retracted. To solve this problem, the invention teaches, based on the device of the type described above, that the mixing chamber is connected to the container head of the storage container via a bypass line with a control valve and the carrier gas battery is connected to the carrier gas inlet nozzle of the suspensator. The mixing chamber is thus fed by a partial flow of the carrier gas from the suspensator. The pressure at the end or at the mouth of the immersion lance is consequently set via the control valve in the bypass line, which is set up accordingly. This setting can be a control or a real regulation. If the delivery pressure of the carrier gas battery is kept constant, a mere control is generally sufficient. Otherwise, however, a minimum amount of treatment agent must always be present in the storage container, which can be easily checked. The pressure at the mouth or at the end of the immersion lance can always be maintained very precisely; vibrations based on pressure fluctuations do not occur. It is completely excluded that the molten steel penetrates into the immersion lance as a result of a sudden drop in pressure. Without further ado, a direct connection line between the mixing chamber and

Provide a carrier gas battery or a further carrier gas battery, which can also have a control valve. Such a measure is particularly advisable when the device as a whole operates with a very slight overpressure compared to the hydrostatic pressure of the melt in the immersion depth area, for example even when the suspension flow is switched off during the retraction and extension of the immersion lance. In addition, in the interest of a pressure setting that is as precise as possible, it will be ensured that the pressure losses in the mixing chamber are as low as possible. To this end, a proposal of the invention is that the mixing chamber consists of a cylindrical mirror chamber housing through which the delivery line is passed axially and into which the bypass line opens (preferably tangentially), the delivery line having one or more carrier gas inlet openings in the area of the mixing chamber housing . It can be, for. Example, be circular or slot-shaped openings. In general ao my one is stationary in order to achieve Sirömungs- \ e ^r ratios total made such that the geometrical relationships between the individual units do not change eggs device upon actuation of the sub-lance, the arrangement, and including through the adjustment of hose lines . You can work with stationary pipelines without any problems if the mixing chamber is arranged on the immersion lance and if the immersion lance is rigidly connected to the storage container via auxiliary devices and can be raised and lowered with this for immersing the immersion lance.

The advantages achieved are to be seen in the fact that with a device according to the invention without difficulties the pressure at the end or at the mouth of the immersion lance can be guaranteed, namely below Dispensing with complicated control systems that one would consider necessary in themselves. The invention is based on the knowledge that a carrier gas flow, which in the manner described via the bypass line flows and is thereby throttled, as it were, by the treatment agent in the storage container, via a Control valve can be set with sufficient accuracy in relation to the pressure at the mouth of the immersion lance this setting is not disruptively influenced by the operation of the suspensator. Simultaneously a very uniform delivery of the treatment agent is achieved, d. i.e. also the amount of material Can be adjusted very precisely via the design of the suspensator. Contributes to the fact that according to the invention the entire Amount of gas that escapes at the mouth of the immersion lance, also through the fine-grained treatment agent! flows in the reservoir and consequently contributes to the whirling up. Complicated amount of material adjusting devices (cf. Gießerei 55, 1968, p. 5) are superfluous. Pressure fluctuations could occur with a diving lance by a slight change in the delivery rate and the associated change in cross-section caused in the suspension outlet of the suspensator. Step in the device according to the invention such pressure fluctuations do not occur. You are in a simple manner by feeding those ζ · ι-mostly small amounts of carrier gas avoided through the carrier gas inlet openings of the mixing chamber enter the mostly vertical delivery line. The feed takes place completely automatically, as it is via the bypass line more gas is only withdrawn when the pressure in the delivery line decreases. A special The advantage is that it is fed into the upper part of the lance, which is not exposed to temperature will. The feed surprisingly works despite the treatment agent cushion in the storage container completely instantly. In contrast to known devices of the type described, on the usual additional injector effect of a partial gas flow in the mixing chamber (OE-PS 254 919) waived. The bypass can even be throttled so far that an injector work, in particular also because of the design of the carrier gas inlet opening in the delivery line, is no longer possible. Of the The diameter of the delivery line in the immersion lance must be matched to the delivery rate of the fine-grained treatment agent in order to achieve low delivery gas quantities be. It goes without saying that the pre-pressures are based on the total length and immersion depth of the lance must be. The deeper it is immersed, the higher the pressure must be. The device can both with open-topped vessels as well as closed vessels, as they are z. B. in the vacuum treatment of Steel can be used so that if so desired. Solids during the vacuum treatment can be introduced into the steel bath.

In the following the invention is based on one only an embodiment illustrative drawing explained in more detail; it shows in schematic depiction

F i g. 1 a device according to the invention for introducing fine-grain treatment agents into molten steel, partly in section,

F i g. 2 in opposite to FIG. 1, on a much larger scale, a section in the direction AA through the object according to FIG. 1,

F i g. 3 on the scale of FIG. 2 shows a section in the direction S- B through the object according to FIG. 2.

The device shown in the figures is used to introduce fine-grain treatment agents, in particular of fine-grain desulphurising agents and nitrogenizing agents in steel melts with the aid of a Carrier gas. In its basic structure, the device initially consists of the carrier gas battery 1, the storage container 2 for the fine-grained treatment agent, one arranged in the deepest part of the container, with carrier gas inlet nozzle 3 and suspension outlet 4 provided suspensator 5 and the immersion lance 6, which via a conveying line 7 for the suspension flow to the suspension outlet 4 of the suspensator 5 communicates. The suspensator 5 consists, in a manner known per se, for example of a sieve tray 8 in the bottom of the container of the storage container 2, which in connection with the carrier gas inlet nozzle 3 so is designed so that an intense turbulence is achieved. That is in the fig. 1 indicated in a section been. The delivery line 7 has a mixing chamber 9, which feeds compressed gas into allows the suspension flow. In this case, however, a foreign compressed gas is not introduced, rather the arrangement is taken so that the mixing chamber 9 via a bypass line 10 with control valve 11 to the container head of the reservoir 2 is in communication. According to a preferred embodiment of the invention, the carrier gas battery 1 is only on the carrier gas inlet nozzle 3 of the suspensator 5 connected. It is not shown that there is also a direct connection line between the mixing chamber 9 and the carrier gas battery 1 can be provided; if it is provided, it also has a control valve. The design the mixing chamber 9 can be seen from FIGS. 2 and

3. The mixing chamber 9 consists of a cylindrical mixing chamber housing 12 through which the delivery line 7 is passed axially. The bypass line 10 opens tangentially into the mixing chamber 9. The delivery line 7 itself has several carrier gas inlet openings 13 in the area of the mixing chamber housing 12 an injector could also be formed there. In the exemplary embodiment the mixing chamber 9 is located on the immersion lance 6. The immersion lance 6 is via auxiliary front directions 14 rigidly connected to the reservoir 2 and with this for immersing the immersion lance 6 can be raised and lowered in the steel melt. A special stand 15 is provided for this purpose. The steel melt is located in the pan 16, only indicated in the figure, the immersion depth is 2000 mm. i *

By setting a reducing valve 17 of the carrier gas battery 1, the discharge pressure becomes constant set. Then it is possible to adjust the delivery pressure by adjusting the control valve * l of the bypass line 10 to keep constant at the mouth of the immersion lance 6. It can be at this control valve Il to a act simple overflow valve, although also worked with a control valve with an assigned control circuit can be. A valve 18 below the suspensator 5 is generally only used to switch the suspension flow on or off. A control function is not required at this point. Additional units and auxiliary units can easily be used are provided, so flow meters in the delivery line 7 and pressure indicators in the bypass line 10 and regulating valves for adjustment.

1 sheet of drawings

Claims (3)

Patent claims: 1. Device for introducing fine-grain treatment agents into molten steel with hooves a carrier gas, consisting of a carrier gas battery, storage container for the fine-grained treatment agent, located in the deepest part of the container, with carrier gas inlet nozzle and suspension outlet equipped suspensator and immersion lance, the immersion lance via a conveying line for the suspension flow communicates with the suspension outlet of the suspensator and on the immersion lance a mixing chamber is attached, which feeds pressurized gas into the suspension flow allows, characterized in that the mixing chamber (9) via a bypass line (10) with Control valve (11) is connected to the container head of the storage container (2) and the carrier gas battery (1) is connected to the carrier gas inlet nozzle (3) of the suspender (5). 2. Apparatus according to claim 1, characterized in that the mixing chamber (9) consists of a cylindrical Mixing chamber housing (12) through which the delivery line (7) is passed axially is and into which the bypass line (10) opens, the delivery line (7) in the area of the Mixing chamber housing (12) has one or more carrier gas inlet openings (13). 3. Device according to claims 1 and 2, characterized in that the immersion lance (6) over Auxiliary devices (14) rigidly connected to the storage container (2) and with this for immersion the immersion lance can be raised and lowered.