DE719138C - Water-cooled blast furnace wind form - Google Patents

Description

Water-cooled blast furnace wind form The invention relates to a water-cooled H.ochofmwinäform as they are for the introduction from the. Wind in the blast furnace usually eud, with a water distribution body in the ring förnnügen water space and. one with open for the supply and discharge of the cooling provided with water. End cover. There are known blast furnace walls that .from an annular hollow body introduced a water distribution body is and through a lid with openings for the supply and removal of the cooling water is closed. In these well-known wild The cooling water flows from several shapes 'openings or. from one or more part. wise good pipes into the interior of the Ktihlinantels. Since this is. to individual Kühlwassercaustrvttsöffnungen acts, is able one cannot achieve that the cooling water shines evenly and without unnecessary Distraction immediately and with its full Intensity hits the area of the windshield most endangered by the heating, is deflected there in a simple manner, without dead corners forming, and after proper cooling of the adjoining wall parts flows off at the least endangered area of the mold. It is stored in the dead corners that are forming. Sludge from which the heat transfer deteriorates significantly. Even by arranging special ribs to guide the coolant, it was not possible to completely avoid the abovementioned problems. Rather, there was also the fact that the manufacture of the tuyeres was more difficult. power.

According to the invention, the difficulties mentioned are eliminated by that the water distribution body, which preferably reaches close to the end of the hollow body at its end facing the inside of the furnace an uninterrupted one ring-shaped slot fün # the cooling water outlet has or with, which Fermwan forms, to a completely closed cylinder jacket-shaped cooling, water flow achieve. -With the aid of the drawing, the several AUS.-leading examples of the subject of the invention shows, the invention is described in more detail below.

Fig. I shows a section I- I (Fig.2) through the WindfoTm of the first exemplary embodiment, Fig. 2 a view in the direction of the wind conduit, Fig. 3 a section 1 1 1- 1 1 1 (Section i) through the water outlet pocket, Fig. 4 a section corresponding to Fig. i through the second embodiment, Fig. 5 a section VV (section -.) through the water outlet pocket, Fig. 6 a section V IV I (section 7) through the Third embodiment, Fig. 7 a view in the direction of the wind line, partially cut, Fig.8 a section VIII-V III (Fig.6) through the cooling water outlet channel, Fig. 9 a section IX-IX (Section 6) through the water outlet pocket , Fig. 1 o a new section XX (section ii) through the fourth embodiment, ' Fig. Ii View of the wind shape in the direction of the wind duct.

The blast furnace wind shape of the first exemplary game (Dept. i to 3) consists of a double-walled, advantageously in. Centrifugal casting produced hollow body i, which is made of a material that conducts heat well, e.g. B. Silumin, and at the inner cavity 2, the wind line 3 is connected. The boundary surface of the hollow body i - which faces the entry of wind is pierced by an annular opening 4. The water distribution body 6, which protrudes into the hollow body i, is seated in corresponding recesses 5. The expediently made of a poorly heat conductive material such. B. Kunstpreßstoff, produced water distribution body 6 is at its facing the blast furnace interior. Side provided with an uninterrupted iing-shaped water outlet slot 7, which is located so that the exiting cooling water impinges on the inside of the front edge of the hollow body i. Through the cover 8, which is fastened to the hollow body i with screws i o, the water distribution body 6 is held in the recesses 5 and its water space is at the same time closed off. In addition, the cover 8 closes the water space of the water distribution body 6 by means of the seals 9. The cooling water inlet lines are connected to the bores I 1 (section 2) of the cover 8 and the cooling water drain line is connected to the bore 12 (section 1 and 3). which is in connection with the cooling water outlet pocket 13 of the water distribution body 6. The cooling water outlet pocket 13 can be cast into the water distribution body 6, or it can also be formed by a horseshoe-shaped flat iron 14 which is inserted into the hollow body of the water distribution body 6 by screws 15 and the like . Like. Is attached. To improve the seal, a piece of hose 16 is placed over the butt joint.

In the second embodiment (Fig. 4 and 5) there is a water defense body 6 from two nested Teileau 17, 18, which on the water inlet side of the water distribution body 6 through the cover 8 and the recess 5 in Position to each other are fixed and on the side facing the blast furnace interior form the water outlet slot i 9 with precisely rotated surfaces. Also at the The boundary surface of the cooling water discharge pocket 13 is the parting line 20 as far as possible executed exactly matching. A seal is provided for the white sealing of the parting line 2o 21 before. This is achieved by means of a horseshoe-shaped bracket 22, which extends against the ceiling18 supports, pressed on. The end faces of parts i7 and 18 of the Wasserverieilumgskörpers 6 can in the area of the water outlet pocket 13 with a lacquer-like adhesive be provided for the purpose of sealing.

The cooling of the blast furnace tuyere according to the invention proceeds as follows that the cooling water entering the water distribution body 6 at the openings i i leaves this with the lowest possible temperature through the slot 7, onto the inner end faces of the hollow body i strikes, is deflected there and by the from the outer jacket and inner jacket of the hollow body i and the water distribution body 6 are formed Annular space and through the opening adjoining the cooling water outlet pocket 13 12 leaves the blast furnace wind shape again.

In the third embodiment (Abt- 6 to 9) the water distribution body 6 is formed only by a single cylinder surface which is cast in one piece with the cover 8 by molding or injection molding. The cooling water enters the annular space between the outside of the water distribution body 6 through the openings ii, flows along the inner wall of the tuyere i, turns around at the point of the hollow body i that is closest to the inside of the furnace, flows through the annular space between the inside of the water distribution body 6 and. of the hollow body i of the outlet pocket 13. to and leave the. Wind shape i through the opening 12. The. The rest of the structure of the wind shape is the same as in the second exemplary embodiment. In the fourth embodiment (Fig. Io and I I) is the water distribution body: he 6 opposite .dem with. first embodiment. shortened. It is connected to the cover 8 by one or more pipes 23, which also serve to discharge the cooling water. The connection of the pipes 23 to the pipe sections 24 inserted in the water inlet openings takes place in a known manner by means of sleeves 25. As in the first embodiment, the cooling water exits the water distribution body 6 through the openings 7 and leaves the cavity i through the opening 12. Otherwise the structure of the wind form is the same as in the previous embodiments.

The formed according to the invention Hochofienwindform, which because of their simple training can be easily produced, has compared to the previously known. Wind forms have the advantage that dirt accumulates on the inside with an insulating effect the front edge of the hollow body due to the uniform application of the Cooling water and wind made impossible by the deflection of the cooling water flow. The ones available for .the flow of cooling water through the hollow body Flow cross-sections are due to the displacement effect of the water distribution body narrows, so that atz the heat-transferring surfaces high water speed and thus result in good heat transfer. Because the water distribution body together can be removed with the lid, is an easy cleaning and oil monitoring option given the interior of the wind shape. The possibility of serving the water distribution body Using a material that conducts heat poorly allows an undesirable Heat absorption of the cooling water from a different side than the front of the heat load to significantly reduce the most exposed parts of the hollow body.

Claims (5)

PATENT CLAIM: i. Water-cooled blast furnace wind form with a water distribution body in the ring-shaped water space and one with openings for the inlet and outlet of the End cover provided with cooling water, characterized in that the preferably up to close to the end of the hollow body (i) reaching water distribution body (6) his your stove inside. facing end an uninterrupted, annular slot (y) for. the cooling water outlet has or forms with the mold wall to a completely to achieve closed cylinder jacket-shaped cooling water flow. 2. Blast furnace wind mold according to claim i, characterized in that the water distribution body (6) consists of two annular parts (1 7, 18). 3. blast furnace win: dform according to claim i, characterized in that the water distribution body (6) consists of only one There is a cylinder jacket and is cast with the cover from a single piece. 4. Blast furnace wind shape according to claim 1 and 2, characterized in that the water distribution body (6) with pipes (23,24) and sleeves (25) through which the cooling water enters on the cover (8) is attached. 5. blast furnace wind form according to claim i to 4, characterized in that that the water distribution body (6) is made of a material that does not conduct heat well, z. B. synthetic resin molding, consists of: