RU1836444C - Facility to deflect cooling water resulting from transported rolled products during the cooling water feeding - Google Patents

Abstract

SUMMARY OF THE INVENTION: the device comprises a cooling pipe, deflecting sleeves, a diffuser. The cooling pipe is provided with an outlet diffuser, behind which there are several deflecting sleeves with flanges for draining water. The biasing sleeves have certain mutual distances. Each deflecting sleeve has an inlet cone, a guiding cylinder and an endless cone. 1 ill.

Description

The invention relates to a device for deflecting cooling water from a transportable rolled product and can be used in small grades and wire rolling plants.

A device is known for deflecting cooling water from a conveyed steel product, comprising a cooling pipe and deflecting tubes.

The aim of the invention is to reduce the cost of manufacturing and operating the device.

The drawing shows a General view of the device.

According to the invention, the problem is solved by means of a device for deflecting the cooling water from the transported steel, the cooling water being supplied along with the material being rolled into the cooling pipes, after the last cooling pipe of the water cooling section made with the outlet diffuser at a distance a. situated

one after the other from two to six deflecting bushings with corresponding intermediate distances b, c, ci, e or f. The distance a is not less than the smallest diameter di of the cooling water outlet diffuser. The intermediate distances b, c, d, e or f are in each case at least 2.5 times larger than the diameters da d3, d4, ds or de of the guide cylinder of the deflecting sleeve located in front of them.

The holders of the deflecting sleeves are made in the form of flanges and are in each case transverse to the rolling direction. The deflection sleeves have an inlet cone in each case. The diameter d2 of the guide of the cylindrical part of the first deflecting sleeve does not exceed the smallest diameter di of the outlet cone of the cooling pipe. The diameters ds-d of the guide cylindrical parts of the subsequent deflecting sleeves do not exceed the smallest conditional passage I cool (L

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cabbage pipe. The inclination angles of the output cones of the deflecting sleeves are greater than the yro / i inclination o. cooling pipe outlet diffuser.

Moreover, the space between the cooling tube and the holder of the subsequent deflecting sleeve, as well as the space between the deflecting sleeves and the holders located behind them in the area of at least 50 $ 1, their volume is open. U. g;

In the example application of the invention, pressurized cooling water passes through the cooling pipe 1 in the water direction with rolled metal and exits in the form of a powerful jet of their cooling pipe 1. To expand the jet when leaving the cooling pipe 1, the latter has an outlet diffuser 2 for the cooling pipe at the end . The funnel-shaped expansion of the cooling pipe outlet diffuser 2 forms an angle (X with the longitudinal axis of the cooling pipe). The angle a is chosen according to the diffuser criterion. The jet of cooling water is expanded in this way to a distance a, which is no less than the smallest diameter di of the cooling pipe outlet diffuser 2, to the flange 4, which carries the first deflecting sleeve 3. Part of the expanded cooling water jet is intercepted by the flange 4 and discharged. The uncovered cooling water stream comes with the rolled material into the lair the deflecting sleeve 3. The deflecting sleeve 3 first has an inlet cone 5. After this, a guide cylinder 6 with a diameter d2 follows. this is larger than the angle of the outlet pipe diffuser 2. It again expands the water flow still flowing through the first deflecting sleeve 3 while separating the water from the material being rolled. This cooling water flow enters a distance b onto the flange 8 of the second deflecting sleeve 9. Here again, part of the expanded cooling water flow is intercepted and diverted. The remaining water flows through the second deflecting sleeve 9. In it, as well as in the other deflecting sleeve 10, 11. 12, 13 the process is repeated as described for the first deflecting sleeve 3. Diameters d, i, d / j. ds, de or d of the guiding cylindrical parts b of the second to sixth deflecting sleeves 9, 10, 11,12,13 do not exceed the smallest, nominal passage of the cooling pipe 1, Tilt angles / fc- / fe

the output cones of the deflection bushings 9, 10, 11, 12, 13 are larger than the angle of the outlet diffuser 2 of the cooling pipe, the distance b, c, d, e and f between the deflection bushings 3, 4, 5, 6, 7 and 8 at least 1.25

times larger than the diameters da, d4, d5. de and d of the guide cylindrical parts of the deflecting sleeves respectively standing in front. So that water deflected between the deflection sleeves 9-13 can

freely enclosing the flanges surrounding the space in the area of at least 50% of its volume is radially open.

Claims (1)

Formula and goiter re shadow The device for deflection is cooling. water from transported steel while supplying cooling water, containing a cooling pipe and deflecting bushings, characterized in that, in order to reduce the cost of manufacturing and operating the device, the cooling pipe is made with an outlet diffuser, each deflecting sleeve is made with an inlet m output cones and the guide cylindrical part between the cones and is fixed in the holder in the form of a flange mounted perpendicular to the longitudinal axis of the device, the number of guide bushings is 2-6, and the first sleeve is placed relative to the cooling pipe at a distance no less than than the smallest diameter of the outlet diffuser: a cooling pipe, and subsequent off-I bearing bushings are placed one relative to the other at a distance of at least | at least 1.25 times larger, respectively, j of the diameter of the guide cylindrical previous guide sleeve, at. The diameter of the guide cylindrical part of the first deflecting sleeve does not exceed the smallest diameter of the outlet diffuser of the cooling pipe, and the diameters of the guide cylindrical parts of subsequent deflecting sleeves do not exceed the smallest nominal passage of the cooling pipe, while the angles of inclination of the output cones of the cooling sleeves are larger than the angle of inclination of the output diffuser cooling pipe. ABOUT xVu-A  Ajfa  ; R GT .-TTL