DE2020700A1 - Water-cooled blast furnace tuyere - Google Patents

Abstract

Blast furnace tuyere for the blowing in of the hot blast is double walled, cooling water being circulated through a number of in- and outlets, which are arranged in equal numbers and equal angular distances, unlike openings being offset relative to each other by half of the angular distance between like openings. Pref. the in- and outlets are also arranged on different dia. circles, the inlets on the larger. The arrangement promotes uniform coolant distribution in the tuyere walls.

Description

Wind form for blast furnaces The invention relates to a wind form like them is used to introduce the hot blast into blast furnaces. Such wind forms are exposed to considerable thermal and mechanical stresses) during their Outside walls are covered by masonry, they are from the inside exposed to the hot blast brought to high temperatures, and their to the furnace interior the front facing is exposed to hot, doughy iron, slag and the like. The hot blast molds are used to prevent wear and tear caused by high temperatures double-walled, and the resulting cavity between the walls is from the base through inlet and outlet openings with cooling water flowing through it provided.

The walls are intensively cooled by such water cooling, so that reasonable service lives of the tuyeres can be achieved.

The wear and tear and the associated costs of replacement and However, repairing damaged tuyeres are so high that the pursuit of Design engineers as well as factories continue to aim to reduce wear and tear reduce.

This further reduction is spread through intensification aimed at cooling. A number of measures are aimed at achieving larger, to create cooling surfaces swept by the water or through special steering of the water to achieve a more intense effect. Such is the cavity, for example divided by introduced walls in the form of a helix, so that through an inlet opening entered cooling water corresponding to the prepared path the wind shape penetrates in a helical stream.

It is also known to have more than one inflow or outflow opening to provide and to arrange guiding screens between you, which should achieve that the cooling water does not take the shortest route, but intensively over the surfaces to be cooled washed down. These baffles are usually placed transversely in such a way that they are in a the axis of the wind form having plane are these measures are capable of to cause a forced circulation of the cooling water and to prevent it from being fresh water that has entered leaves the wind form again in the shortest possible way and thus to the The cooling process does not contribute to the heating and associated with this the wear and tear the wind shape are not reduced to the desired extent.

The present invention is based on the task of 1 wind forms to train designated genus so that increased by improving the cooling Service lives of the same can be achieved. This is achieved using the application a number of entry and exit openings by, according to the invention, these are provided in the same number and at the same pitch, each the inlet against the outlet openings by half a pitch distance from one another are arranged offset. This allows not only an intense, but in particular also achieve a uniform cooling effect, and surface areas lower cooling effect and thus higher temperature, which wear effects Can provide feed are practically avoided: along from on the surface Circles normal to the axis of the wind form only produce minimal temperature differences established.

It has proven useful to use the radii of the pitch circle of the inlet openings as well as that of the outlet openings differ from one another.

On the one hand, a more favorable flow through the cavity can be achieved achieve, and on the other hand, the supply can BEZW with such a design. Manage the drainage of water to or from the individual openings more easily. A Inevitable Uznlanf over the entire length of the wind form is achieved by the cavity through a starting from the base, essentially cylindrical screen divided into two centrally surrounding sub-spaces will, theX below the front piece of the wind form merge into each other, and in their one of the outlet openings and the other of the inlet openings open. The capture the full length of the wind form can also be achieved by other means; so can for example, the outlet openings go from the front wall of the base while the supply of the cooling water through extending through the cavity, shortly before the front piece with the formation of the inlet openings ending tubes are effected. The latter arrangement can also be reversed when feeding on the frisehen Cooling water to the most vulnerable places should be dispensed with.

In detail, the features of the invention are based on the description two he Auführungsbeispiele in connection with these illustrative light calculations explained. FIG. 1 shows a section through one with an intermediate jacket equipped wind shape figure 2 the plan view of the wind shape according to FIG. 1, FIG 3 shows a longitudinal section through a wind form, the inlet openings of which through tubes in the area of the front piece are laid and FIG. 4 shows the top view of the wind shape according to Fig. 3.

The one shown in longitudinal section in FIG. 1 and in plan view in FIG Windform has a base 1 and a front piece 2, which is through an inner jacket 3 and an outer jacket 4 are firmly and watertightly connected to one another. Of the The cavity formed between the inner and outer sheaths is covered by a guiding screen 5 divided, the substantially cylindrical, and in the illustrated wind shape is slightly conical. Its rear end is connected to the base 1, while its front edge is the opposite inner wall of the front piece 2 not reached. The partial cavities created by the Lertschirm 5 stand therefore at the remote base. End in connection with each other.

The base 1 has two screw connections 6 and 7 for receiving one Cooling water supply line and cooling water drainage on. The screw connections are in place through holes with ring channels 8 and 9 in connection. The ring channel 8 takes that Zug (carried cooling water up and distributing it to a series of channels with inlet openings lo open into the outer of the sub-chambers. The ring channel 9 stands over channels with outlet openings 11 in connection which discharge the cooling water heated after flowing through the wind form.

It has been shown to be essential (that the ring channels 8 and 9 a plurality of inlet and outlet openings 10 and 11 are connected, which are evenly distributed over the circumference.

The even flow and thus the even cooling of the Wind shape is achieved in that, as a result of their equal number, the entry openings lo are arranged in the same angular division as the outlet openings 11 wherein the angular positions of the inlet openings io against those of the outlet openings 11 are arranged offset by half the pitch angle, so that the inlet openings each stand over the gaps in the outlet openings.

The arrangement of the guide screen 5 ensures that the cooling water flow each must extend over the entire length of the wind shape and into the front piece is directed. By offsetting the inlet openings against the outlet openings is achieved here that in the respective annular partial cavities are not about preferred ßtrömangßpfade form that of areas of slower flow are surrounded. The faster flow would result in a stronger cooling of the walls, while the areas of slow flow not only have a poorer warm transition bring with them, but also lead to the fact that the cooling water tS »ker is heated and thus the temperature difference to the warm wall parts and thus the transferred Heat quantities only become smaller through the use of a large number of inlet as well as Outlet openings that are offset from one another rotationally symmetrical are arranged results in a relatively uniform cooling of the walls the type of wind, the local overheating with relatively little cooling effort avoids becoming the cause of premature wear of the wind form.

The invention is not based on the exemplary embodiment described first limited. A similar effect can be achieved by an arrangement which is shown in longitudinal section in FIG. 3 and in plan view in FIG. To the Parts that are already known from FIGS. 1 and 2 are the same to facilitate the overview or correspond, denoted by the same reference numbers. Here, too, there is a base 1 is provided, which faces a front piece 2, and both are through an inner jacket 3, and an outer jacket 4 connected to one another. The ring channels 8 and 9 enclose not here, as was the case in FIGS. 1 and 2, they are rather in an axial direction Direction arranged one above the other. While the ring channel 9 goes through, the ring channel is 8 designed in the shape of a horseshoe and closes a material bloom with its legs ein9, which has the screw connection7, and through which the bore, which the screw connection 7 with the ring channel 9 connects. While the base of the wind form According to FIGS. 1 and 2, for receiving the annular channels, it is expediently designed in two or more parts is here the ring channels can be incorporated into the base 1, and completed they become through the approach of the inner jacket 3.

The cooling water is fed to the annular channel 8 with a screw connection 6.

A number of tubes 14 extend from the ring channel 8 and form the ring channel 9 pierced and sealed, with their free ends forming inlet openings 1o, end just in front of the narrow wall of the front piece 2. The outlet openings 11 are connected by short bores with the ring channel 9, and the drained water is able to enter the cooling water drainage via the screw connection 7. Even here the same numbers of inlet openings 1o and outlet openings 11 are provided, they are arranged at the same angular pitch, and it has been shown to be essential them by half an angular division to be offset against each other. The freshly supplied cooling water passes without initially absorbing any significant amount of heat, the annular channel 8 and the tubes 14. The front piece of the wind form is by feeding of the fresh cooling water is particularly intensively cooled. It has proven to be essential however, shown the distance between the inlet opening 1o and the opposite one The wall of the front piece should not be chosen too small in order to ensure a non-concentration of the cooling water flow to avoid on certain parts of the front piece karin a smaller distance are taken: parts of the mouth of the inlet opening are covered by inclined guide surfaces, which have a wider distribution of the supplied water. That was initially the one with the greatest thermal stress Water that rinses the front piece 2 then flows back onto the base 1 in the cavity. By the larger available flow cross-section are here, in the areas lower heat application also achieves lower flow velocities.

By offsetting the inlet openings in relation to the outlet openings a uniform throughput of the cooling water is also achieved here, which leads to a leads to a relatively homogeneous flow, which in turn is a prerequisite for a uniform flow Cooling effect is.

The invention is capable of further variants than it has been essential shown, by simple means, the most complete possible distribution of the cooling water flow over the cross-section normal to the axis of the wind shape to achieve through Uniform cooling to prevent local overheating and thus local wear. With only an insignificant effort, the service life can thus be according to the invention of trained wind forms increase significantly.

Claims (5)

Claims 1. Wind form, especially for introducing the hot blast into blast furnaces, with a double wall, the cavity of which extends from the base through inlet and outlet openings is supplied with cooling water flowing through it, characterized in that the Inlet openings (io) and the outlet openings (11) in the same numbers and provided with the same pitch and against each other by half a pitch are arranged offset. 2. Wind shape, according to claim 1 d a d u r c h g e k e n n z e i c h n -e t that the diameter of the pitch circles of the inlet openings (10) and the outlet openings (11) differ. 3. Wind form according to claims 1 or 2, characterized in that the cavity through a substantially cylindrical shape extending from the base (1), or slightly conical guide screen (5) in two centrically surrounding one another below of the front piece (1) is divided into merging spaces, in one of which the inlet openings (103) and the outlet openings (11) open into the others. 4. Wind shape according to claims 1 or 2, d a d u r c h g e k e n n z e i c h n e t 2 that the outlet openings (11) in the end face of the base (1) open out, and that the supply of the Ehlwassers through aich extending through the cavity, causes pipes (14) ending in inlet openings (10) shortly before the front piece (2) is. 5. Wind form according to claims 1 or 2, characterized in that the inlet openings (1o) open into the end wall of the base (1), and that the discharge of the cooling water by extending through the cavity, just before the front piece in the outlet openings (11) ending tubes (14) is effected. Blank page