SU1294405A1 - Apparatus for cooling the rolled stock - Google Patents

Abstract

This invention relates to metallurgy production, in particular to the cooling of rolled products. The purpose of the invention is to stabilize the mechanical properties by ensuring uniform cooling of the rolled products. Fluid flowing from nozzles 2 enters the body through pipelines. At the same time, the atomizer is fed through the sleeve 8 into the tube 5. The supplied sprayer meets the vanes 6 in its path, rotates them, thereby rotating the tube 5 in the sleeves 8. When the tube 5 rotates the sprayer saturates the fluid with the sprayer, and at the time of the coincidence of the nozzle 2 and the sprayer's jet, it sprays the liquid onto the car. Due to the location of the holes 7 on the tube 5 along the circumference according to a sinusoidal law, the distribution distribution maximum is shifted both in the transverse and in the longitudinal directions, which leads to a uniform cooling of the car along the length and width. 2 Il. § (L Yu CO N 10

Description

The invention relates to metallurgical production, specifically to cooling the predominantly quiescent steel, for example, in a rolling mill stream before the finishing stand — to reduce the temperature of the rolling end, behind the finishing stand — to thermally harden the rolled stock, and can also be used to cool the flat on a refrigerator for reduce its cooling time.

The purpose of the invention is to stabilize the mechanical properties by ensuring uniform cooling of the rolled products.

FIG. 1 shows a device for cooling rolled products, a longitudinal section; in fig. 2 shows section A-A in FIG. one.

The device for cooling the car consists of a housing 1 with supply lines for supplying liquid, nozzles 2 for leaving the sprayed liquid, nuts 3 and set screws 4, a tube 5 with blades 6 and holes 7 for leaving the sprayer connected through hollow trunnions 8 to the connections of the sprayer 9 to her with the bodies of rotation 10.

The device works as follows.

A liquid flows from nozzles 2 into the body 1 through the supply lines. At the same time, the sprayer flows through the sleeves 9 through the sleeves 8 to the tube 5. The spray gun, meeting the path of the blade 6, rotates them, thereby rotating the tube 5 in the sleeves 8. The sleeves 8 are made of bronze and are sliding liners.

In the longitudinal direction, the tube 5 is fixed by means of set screws 4, rotated in nuts 3, fixed in housing 1. The adjusting screws 4 are located on the same axis with tube 5 and are connected with it by means of a rotating body 10 having a concave spherical surface. When the tube 5 rotates, the spray jet coming out through the openings 7 saturates the liquid with a spray gun, and at the moment of coincidence of the nozzle 2 and the spray jet it sprays the liquid that is fed to the cooled steel.

Due to the fact that the holes 7 are located on the tube of 5 p. On the perimeter of a sinusoidal law, the maximum of the distribution diagram of the sprayed liquid on the cooled surface is shifted

both in the longitudinal and in the transverse direction. This leads to a uniform cooling of the rolled products in length and width. Experimental tubes, sinus-perforated with holes, were tested under laboratory conditions. At the same time, the distance between the holes was varied. As a result of testing the tubes with different pitch between holes, the optimal distance of 0.5-2.0 diameters is taken.

Another variable factor is the angle of inclination of the blades cut out of the body of the tube and directed inward. Tubes with different blade angles were placed in the installation and when connected

air and water were checked for operability. Tubes with a blade angle of 80-90 ° turned out to be most efficient. The pilot plant also determined the optimal law, according to which it was necessary to perforate the tube with perimeter holes. The best readings were given with sinusoidal perforated tubes.

The use of the invention will improve the uniformity of cooling of the car along the width and length of the strip and shaped profiles.

Claims (1)

Invention Formula A device for cooling the car, comprising a housing with liquid supply pipes and outlet nozzles, a longitudinal tube arranged in the housing, both ends of which are connected to air supply pipes, characterized in that in order to stabilize the mechanical properties by ensuring uniform cooling of the rolled metal, the device is equipped with bushings in which a tube is rotatably mounted, the bushings are connected to the air supply pipes, and Both ends of the tube opposite the air inlets are blades made in the form of elements cut out of the body of the tube, bent inside the tube at an angle of 80-90 ° to the tangent to the outer surface of the tube, and the holes in the tube are placed around the circumference of the tube along a symmetrical sinusoid section at a distance of one from a friend, equal to 0.5-2.0 bore diameter. Srig.G.