DE1296113B - Means and device for cooling wire rod coiled into rings - Google Patents

Description

The main patent application relates to a means and a device for cooling to Coiled wire rod rings. The means of cooling according to the main patent application is mist, i. H. a water-air mixture in which the water droplets have a size below 50 μm.

Further practical tests have shown that it is not a matter of indifference for the cooling effect which one Droplet size is chosen at a certain temperature. Rather, it has been recognized that the Cooling takes place more quickly if the droplets are larger at a high wire temperature and at a lower temperature be chosen smaller. In a further development of the invention according to the main patent application it is proposed to achieve an optimal cooling effect with decreasing wire temperature a Provide smaller droplet sizes than at higher temperatures.

For 100 kg wire rings with 8 and 24 mm wire diameter were the following cooling rates with only a slight change in the droplet diameter measured:

Wire- drops water air Cool down
speed / Cs QtI! "CU"
knife size pressure pressure in ⁰ at at 600 ° C in mm in μΐη in mm WS inatü 900 ° C 1.3 8th 18th -500 0.5 5.0 2.2 13th -500 3.0 3.8 0.8 24 18th -500 0.5 3.6 0.9 13th -500 3.0 2.2

30th

, 35

About 80% of all drops had a smaller and about 20% larger diameter than that specified.

Furthermore, it has been shown that the spraying of the coolant from the double tube equipped with nozzles leads to better fog formation if the double tube at the upper and lower end a closed plate is covered. This more even fog formation has a more even one Cooling of the ring as a result. However, the cover plates must be kept dry in order to achieve a to exclude faster cooling of the turns of the wire rings lying directly on the plates. This effect is easily achieved by the fact that air nozzles, compared to the two-substance nozzles generate a lower flow velocity of the exiting air, directly on the double pipe are arranged below the upper and above the lower plate. The one flowing out of these air nozzles Air keeps the coolant mist away from the cover plates and thus prevents wetting the plates with the coolant.

Since the uniformity of the cooling of the wire ring is not given, if due to the circumstances the rolling mill, the temperatures in the ring differ significantly, and after Reels the beginning of the wire ring is usually colder than the end, it is still suggested to equip the double tube with fewer nozzles in the lower part and increasingly with more nozzles towards the top or if the double pipe is evenly occupied, the nozzle openings of the lower nozzles are narrower and to choose increasingly further upwards in order to act on the ring with coolant to adapt the given temperature field.

With low permeability of the wire ring in the radial direction, radiation of the is also possible Ring with the atomized coolant in the axial direction is possible if instead of a double tube nozzle-fitted double wall is used, on which the axis of the wire ring to be cooled is perpendicular stands. With such an arrangement, the predetermined temperature difference becomes the lower or upper one Windings of the ring and the temperature difference between the two during cooling The nozzles close and the windings distant from the nozzles are balanced by either turning the ring or but it is cooled with two double walls, which periodically alternate radiating the atomized coolant. The double wall is advantageously covered with nozzles in an annular manner and corresponds to the dimensions of the ring adjusted with regard to the inner and outer diameter.

Two exemplary embodiments are shown in the drawings.

In Fig. 1 is the double tube equipped with nozzles 3 1 completed at the top and bottom by panels 8 and 9. The upper plate 8 is movable in height held, it lies on the wire ring 2 when the double pipe 1 in the wire ring 2 of is introduced above. The lower plate 9 is fixedly arranged in this embodiment and in the Center provided with a depression 10, which is used to center the double tube 1. With 4 and 5 the inlets for air and water are marked.

F i g. 2 shows two double walls 11 and 12. The wire ring 2 to be cooled lies on a grate 13. Dotted (4) are those spaces of the double walls that carry the air, dashed (5) those that Lead water. What is shown is the state in which the upper double wall 11 is spraying coolant. the Double walls 11 and 12 radiate the coolant through the nozzles 3, separating one another.

Claims (4)

Patent claims: 1. Means for cooling coiled wire rod which is mist like cooling single-layer wire windings known, according to patent application P 12 79 605.3 (German Auslegeschrift 1279 605), characterized in that with decreasing wire temperature a smaller droplet size is provided than at a higher temperature. 2. Device for generating the means for cooling according to claim 4 of the patent application P 12 79 605.3, characterized in that the double tube (1) at both ends with plates (8; 9) is provided, which have the outer diameter of the rings to be cooled (2), and that immediately air nozzles are arranged below the upper and above the lower plate. 3. Device according to claim 4 of patent application P 12 79 605.3, characterized in that that the double tube (1) according to the temperature of the wire ring to be cooled (2) with Nozzles (3) occupied differently or with the same occupancy with nozzles (3) different Coolant throughput is provided. 4. Apparatus according to claim 4 of patent application P 12 79 605.3, characterized in that that the double pipe (1) is designed as a double wall (11; 12) fitted with the nozzles is, which is arranged above and / or below the ring (2). 1 sheet of drawings