DE1010483B - Device for cooling the rolling stock continuously discharged from the rolling mill in cooling beds - Google Patents

Description

Device for cooling the continuously discharged from the rolling mill in cooling beds Rolled goods die; The invention relates to a device for cooling the chilled bag. rolling stock discharged from the rolling mill. To the cooling time and thus the length of open To reduce cooling beds., One has the cooling effect by blowing on the rolling stock with cooling air and by spraying with water during its conveyance on the cooling bed reinforced.

Another shortening of the cooling time and shortening of the cooling bed one has. for rod material by designing the cooling bed as a closed tube reached, in which the material to be cooled by a counter-flowing, rotating water jet is surrounded. By the injector effect of the water jet is supposed to suck in air through the open end of the cooling pipe and mix it with the cooling water will. With this device, besides the resistance, the e; n.tgegenströmen.de Offers coolant to the discharge of the goods in the narrow discharge pipe, nor the disadvantage that at the beginning of the deer, where the draining water first meets that from the rolling heat coming into contact, steam is generated and enters the work area.

It is in the continuous casting of refractory metals - in particular from; Iron. and steel known to have the strand in a cooling tunnel part outside the mold by a gaseous coolant, especially air or loaded with water droplets To cool air are introduced into the cooling tunnel in several levels, the strand flows around in the form of a spiral. With this type of cooling, an escapes. both Ends, the cooling tunnel the heated air and, when loaded with water droplets is also steam in the work area.

When folding strip material on pairs of rollers connected in series it is known, the material between the two pairs of rollers. over one with cutouts. provided; Plate to guide and the material from above, and below. with chilled Splashing water and thereby. to cool .. The disadvantage of this cooling method lies in the high water consumption and the leakage of steam into the work area.

According to the invention, these disadvantages are avoided and for an in a tunnel moving cooling bed for cooling continuously discharged rolling stock, in particular Circuit boards, with a device for spraying on cooling liquid and a device significantly lower water consumption to blow air into the tunnel and avoidance of any entry of steam into the working space achieved in that the Device for spraying the cooling liquid in a known manner from a series there is a series of nozzles, and that the device for blowing the air blows this in the running direction of the cooling bed and that a unidirectional is provided that the; Air is sucked out at the tunnel exit and in a return air duct leads back to the entrance side of the tunnel.

The air is expedient for a circulation in the circuit over your Tunnel redirected. The air inlet opening on the good inlet side is preferably. designed so that room air by injector effect in the. tunnel is entrained and thus the escape of vapor clouds. in, the room prevented. At the tunnel exit, a steam escape is avoided by the fact that the steam through the Veil of water from the nozzles. at the end of the tunnel, at which, because of the meanwhile, took place Cooling of the rolling stock, no more steam is produced, is completely knocked down. The air extracted at the tunnel exit is passed through. one in front of the one that circulates the air Fan lying droplet separator, which the: carried away by the air Separates water droplets so that the air is at most saturated by the fan = sucked in will. Behind the fan in the return duct there is a blow-off valve, ppe, through which, excess air is blown off.

In the drawing is an embodiment of an inventive Device for cooling the rolling stock continuously discharged from the rolling mill on cooling beds shown.

Fig. 1 shows the cooling system in a longitudinal section and Fig. 2 in a cross section according to the line II-II of FIG. 1.

For discharging and cooling the rolling stock produced in the rolling mill, e.g. B. of boards 1, is used. for example designed as a traveling grate, from several Rows of grate bar chains 2 existing Cooling bed. This occurs if possible shortly after his .. loading point with the rolling stock 1 in a tunnel 3, which can be made of any material, preferably reinforced concrete .. Im Tunnels are in the upper and lower clear part along its entire length water pipes @ 4 arranged transversely to the longitudinal axis of the tunnel, which is connected to an outside along the tunnel lying inflow line 5 are connected. The pipes 4 in the tunnel carry nozzles 6; from which water veils 7 are sprayed onto the blanks 1 guided in the cooling bed will. The cooling water collects in a z. B. in the middle of the tunnel, Well 8, from which it is through a drain line 9 to a recooling system and from there the feed pipes 5 is fed back.

On the ceiling of the tunnel 3 is a return air duct 10 with a fan 11 assembled who the! Air through. one spanning the width of the tunnel. Blow 12 into the. Tunnel blows and sucks back at the tunnel exit. The blower 12 is designed in such a way that the air blown in has an injector effect through, the room air is entrained and leaked by spraying the hot; Boards with the water veils 7 resulting. Steam from tunnel 3 into the operating hall prevented. The: the air flowing through the tunnel leads the spraying of the blanks 1 resulting vapor clouds to the following. Veils of water in which. the steam condensed so. that in the end! of the tunnel in which the blanks 1 are already below the boiling point have cooled down, all steam is deposited.

The tunnel exit is through locking flaps 13 - except for the passage covered for the cooling bed 2, so that an exit of. moist air and drops in the hall too. is prevented on this side of the tunnel. The one at the tunnel exit air drawn in through the suction slit 14 flows through the valves tar 11 a droplet separator 15 which separates the water droplets entrained by the air. The water is returned to the tunnel 3 via an outlet 16. By Outlets 17 with flaps 18 on the pressure side of the fan 11, an amount of air escapes, that of those carried away by the injector effect. Hall air and that caused by the negative pressure the suction line at the tunnel exit corresponds to the hall air sucked in. By cooling off of the rolling stock by means of water nozzles, it is possible to remove the rolling stock from. the rolling heat Cool down to hand warmth or room temperature on a cooling bed of the shortest length. By blocking the front sides of the tunnel by means of the at its entrance air blown in and sucked off at its outlet is an escape of steam, Avoid water and humid air in the hall. During the cooling process after registration only the small amount of water consumed, which is blown through the opening 18 Has taken in air.

Claims (4)

PATENT CLAIMS: 1. Cooling bed moving in a tunnel for cooling. continuously discharged rolling stock, in particular blanks, with a device for Spraying of the cooling liquid and a device for blowing air into the tunnel, characterized in that the device for spraying the cooling liquid consists in a known manner of a row of nozzles (6) arranged one behind the other, and that the means for blowing in the air this in the running direction of the cooling bed blows in and that a device is provided that the air at the tunnel exit sucks and in a return air duct (10) to the entrance side of the tunnel. returns. 2. Apparatus according to claim 1, characterized. characterized in that the device for Injecting the air has an injector that entrains air in the room. 3. Device according to claims 1 and 2 with a fan as a drive for the air, characterized through openable flaps (18) in the return duct located behind the fan (10). 4. Device according to. claims 1 to 3, characterized by an im Return air duct (10) in front of the fan (11) built-in droplet separator (15). In Documents considered: German Patent No. 876 890; U.S. Patents No. 2,624,178, 2,289,967, 2,067,514; British Patent No. 743 184.