RU81911U1 - DEVICE FOR ACCELERATED COOLING AND HYDROTRANSPORT OF A SHAFT STAND - Google Patents

Abstract

1. A device for accelerated cooling and hydrotransport of a mine rack, comprising installed on the housing sequentially during rolling and rigidly interconnected cooling chamber with sections of selective, general cooling and a shut-off unit, made detachable from the upper and with a U-shaped protrusion of the lower compartments guide channel with drain holes, nozzles for supplying a cooler, nozzles placed uniformly along the length of the general cooling section in the shut-off unit, oriented speech to the rolling car, and in rows on the lateral faces of the U-shaped protrusion of the lower compartment of the cooling chamber, characterized in that it is equipped with sprayers communicating with the lower compartment of the cooling chamber and installed uniformly along the rolling axis symmetrically to its axis in the general cooling section and the heating section located prior to the first along the rolling of the sprayer, with a length of 0.1-0.2 of the length of the selective cooling section, while the nozzles are installed in the upper and side faces of the U-shaped protrusion of the lower compartment of the camera oh deposition in pairs is perpendicular to the rolling movement, and channels are made uniformly in the upper compartment of the cooling chamber along its entire length, moreover, in the selective cooling section, in a plane perpendicular to the rolling movement, and in the general cooling section, along the rolling direction to its axis at an angle of 43 47 °, while the total area of the outlet openings of the channels of the upper compartment of the cooling chamber and the twin rows of nozzles of the upper and side faces of the U-shaped protrusion of the lower compartment of the cooling chamber are equal, and the lengths of the sections of the huts

Description

The utility model relates to ferrous metallurgy, in particular, to the field of heat treatment and hydrotransport of rolled products in a rolling mill line, and can be used for accelerated cooling of a shaft rack made of carbon steel.

A device is known for cooling shaped sections of rolled metal, comprising a housing made of upper and lower parts with the formation of a guide channel with drain holes between them, pipes with nozzles, the axes of which lie in the same plane, nozzles for supplying a cooler located in the guide channel along its entire length the length of the metal body in the form of a prism, fixed by one of its faces on one of the parts of the housing, and guides are located parallel to the free faces of the prism, pipes with nozzles are placed against each rib so that the nozzle axis and the rib lie in the same plane passing through the bisector of the angle formed by the faces adjacent to the rib and on the guides with the ability to move transversely to the longitudinal axis of the device, and through holes are made in the prism body with nozzles placed in them, while the housing equipped with a rigid plate rigidly fixed on one of its parts, the free end of which is placed in the drain hole. In this case, the plate is equipped with a means for controlling its stiffness, the nozzles are installed in the holes of the prism eccentrically to the axis of the through holes (RU 2212295, IPC 7. В21В 45/02, 2003).

The disadvantages of the known device is the placement in the guide channel along its entire length of the metal body in the form of a prism, which does not allow you to adjust the amount and speed of the expiration of the cooler to massive profile elements from below, which reduces the cooling efficiency of the rolled products and makes it difficult to heat them.

The closest to the claimed technical essence and the achieved positive result is a device for accelerated cooling and hydrotransport of shaped sections of rolled products, mainly

a channel comprising a housing, a guide channel with drain holes, nozzles for supplying a cooler and a nozzle, equipped with a cooling chamber and a shut-off unit rigidly interconnected on the housing in series along the rolling path and made up of upper and lower compartments forming a guide channel, the camera cooling unit is divided by a drain unit into sections of selective and general cooling with a ratio of lengths (0.6-0.7): 1, respectively, while the drain unit is connected to the housing via a pipe for I of the cooler outlet and has a length equal to 0.1-0.3 of the length of the selective cooling section, and in the bottom and adjacent inner walls of the upper compartment of the cooling chamber in the plane perpendicular to the direction of rolling, the rows of cooling nozzles are rigidly installed, and the lower compartment the cooling chamber along the rolling axis has a U-shaped protrusion with a cover, in the chamfered faces of which in the selective cooling section the nozzles are arranged in pairs, sequentially along the rolling direction, and in the general cooling section they they are arranged in rows in the lateral faces of the protrusion, while the length of the cut-off block with slot nozzles evenly spaced along its length and oriented towards the rolling movement, mounted in the inner walls of the upper and lower compartments adjacent to the bottom, is 0.5-0.7 of the section length selective cooling, in addition, the housing with the lower compartments of the cooling chamber and the shut-off unit is rigidly connected, and the connection of the upper compartments of the cooling chamber, the shut-off unit with their lower compartments and the housing with a nozzle for discharging coolant made splittable; the cover of the U-shaped protrusion of the lower compartment of the cooling chamber is rigidly attached to its side faces; the distance between the cover of the U-shaped protrusion of the lower compartment of the cooling chamber and the bottom of the upper compartment of the cooling chamber is 2-5 diameters of the nozzles installed in it; on the side faces of the cover of the U-shaped protrusion of the lower compartment of the cooling chamber, there are shaped cutouts located opposite the nozzles installed in its beveled faces (RU 55651, IPC 7. В21В 45/02, 2006).

The objective of the claimed utility model is to increase the cooling efficiency of massive elements of the rolled profile, to carry out its thermal straightening while ensuring an even distribution of strength and plastic properties of a given level along the cross-section and length of the rolled products, as well as to create a reliable construction that is mobile during repair.

This object is achieved in that a device for accelerated cooling and hydrotransport of a mine rack, comprising a cooling chamber mounted on the housing sequentially along the rolling path and rigidly interconnected with sections of selective, general cooling and a shut-off unit made detachable from the upper and with a U-shaped protrusion lower compartments forming a guide channel with drain holes, nozzles for supplying a cooler, nozzles placed uniformly along the length of the general cooling section, in the shut-off unit, oriented towards the rolling rolling stock, and in the lateral faces of the U-shaped protrusion of the lower compartment of the cooling chamber, in rows, according to the utility model, it is equipped with sprayers communicating with the lower compartment of the cooling chamber and installed uniformly along the rolling axis symmetrically to its axis in the general cooling section , and the heating section, located before the first along the rolling of the sprayer, with a length of 0.1-0.2 lengths of the selective cooling section, while the nozzles are installed in the upper and side faces a protrusion of the lower compartment of the cooling chamber in pairs in a row perpendicular to the rolling movement, and in the upper compartment of the cooling chamber, channels are made uniformly along its entire length, moreover, in the selective cooling section, in a plane perpendicular to the rolling movement, and in the general cooling section, along the rolling direction towards it axis at an angle of 43-47 °, while the total area of the outlet openings of the channels of the upper compartment of the cooling chamber and the twin rows of nozzles of the upper and side faces of the U-shaped protrusion of the lower compartment of the cooling chamber the price is equal, and the length of the polling stations

and general cooling are made in the ratio (1-1.5) :( 2-2.5), in addition, control plates are installed symmetrically with respect to the vertical axis along the entire length of the upper horizontal wall of the lower compartment of the cooling chamber, the outlet of the channel of the upper compartment of the cooling chamber has rectangular section with an aspect ratio of 1: (15-20), and protective shields are attached at an angle of 55-60 ° to the lower walls of the upper compartments of the cooling chamber and the shut-off unit.

The technical result of this utility model is the efficient cooling of massive profile elements, thermal straightening of rolled products, ensuring uniform distribution along the length and section of rolled products of a given combination of plastic and strength properties, as well as creating a design that is reliable in operation and mobile during repair.

The achievement of the specified technical result is ensured by the fact that the device is equipped with sprayers communicating with the lower compartment of the cooling chamber and installed uniformly along the rolling axis symmetrically to its axis in the general cooling section, and a heating section located up to the first along the rolling sprayer, with a length of 0.1- 0.2 lengths of the selective cooling section, while the nozzles are installed in the upper and lateral faces of the U-shaped protrusion of the lower compartment of the cooling chamber in pairs in rows perpendicular to the kata, and in the upper compartment of the cooling chamber channels are evenly made along its entire length, moreover, in the selective cooling section, in a plane perpendicular to the rolling movement, and in the general cooling section, along the course of rolling towards its axis at an angle of 43-47 °, the total area of the outlet openings of the channels of the upper compartment of the cooling chamber and the paired rows of nozzles of the upper and side faces of the U-shaped protrusion of the lower compartment of the cooling chamber are equal, and the lengths of the sections of selective and general cooling are made in the ratio nii (1-1.5) :( 2-2.5), in addition, along the entire length of the upper horizontal wall of the lower compartment of the chamber

regulating pads are installed symmetrically with respect to the vertical axis, the outlet of the channel of the upper compartment of the cooling chamber has a rectangular cross-section with an aspect ratio of 1: (15-20), and protective shields are attached to the lower walls of the upper compartments of the cooling chamber and the shut-off unit at an angle of 55-60 ° .

Improving the cooling efficiency of massive elements of the rolled profile and performing its thermal straightening is achieved by differentiating the supply of the cooler through the sprayer and the nozzles and channels located in a certain sequence in the upper and lower compartments of the cooling chamber and the cut-off block allow hydrotransport of rolled metal and to obtain a uniform distribution of strength and plastic properties of a given level over its cross section and length.

The installation of sprayers in communication with the lower compartment of the cooling chamber and installed symmetrically to its axis in the general cooling section uniformly along the rolling process provides cooling of the side surfaces of the rental from the outside, which allows you to adjust the temperature distribution, and, consequently, the properties along the rolled section.

The heating section located before the first along the rolling of the sprayer makes it possible to obtain a uniform distribution of properties along the rolled section due to equalization of temperature along its section.

The implementation of the heating section with a length of less than 0.1 of the length of the selective cooling section does not provide the specified temperature for heating the rolled profile, which leads to an uneven distribution of properties over its cross section.

The implementation of the heating section with a length of more than 0.2 of the length of the selective cooling section leads to an unacceptable decrease in the temperature of the rolled surface after heating, a significant decrease in its strength properties and makes hydrotransport difficult.

Installation in the upper and lateral faces of the U-shaped protrusion of the lower compartment of the cooling chamber of the twin rows of nozzles perpendicular to the movement

rolled metal neutralizes the negative effect on the strength properties of rolled thermal radiation directed to each other and down the profile elements.

Installation in the upper compartment of the cooling chamber uniformly along its entire length of the channels in the selective cooling section — in a plane perpendicular to the rolling movement, and in the general cooling section — along the rolling axis toward it at an angle of 43-47 °, intensifies the cooling process of massive profile elements from above that provides a given level of strength properties of the rental and effectively manage its thermal dressing. The inclination of the channels of the cooling chamber to the axis of rolling at an angle of more than 47 ° will lead to a shift in the flow of the cooler and warping of the profile. When the cooling chamber channels are tilted to the rolling axis at an angle of less than 43 °, the cooling intensity of massive profile elements will decrease and the strength of the finished product will decrease.

The total area of the outlet openings of the channels of the upper compartment of the cooling chamber being smaller than the total area of the paired rows of nozzles of the upper and side faces of the U-shaped protrusion of the lower compartment of the cooling chamber leads to overcooling of the profile from below and, as a result, warping of the rolled product and uneven distribution of properties over its cross section .

Performing the total area of the outlet openings of the channels of the upper compartment of the cooling chamber larger than the total area of the paired rows of nozzles of the upper and lateral faces of the U-shaped protrusion of the lower compartment of the cooling chamber leads to unacceptable overcooling of the rolled profile from above, a sharp increase in the risk of drilling of rolled products in the device and an uneven distribution of properties over its section.

The implementation of selective and general cooling sections with a ratio of less than (1-1.5) :( 2-2.5) leads to insufficient heating of the rolled product, an uneven distribution of properties over the cross-section, and makes it difficult to thermally correct the rolled product.

The implementation of selective and general cooling sections with a ratio of more than (1-1.5) :( 2-2.5) leads to excessive cooling of massive profile elements, which leads to warpage of rolled products, an increase in the risk of drilling rolled products in the device and makes it difficult to heat them.

The installation on the upper horizontal wall along the entire length of the lower compartment of the cooling chamber of the regulating pads symmetrically with respect to the vertical axis provides the required clearance between the profile and the channels, paired rows of nozzles of the cooling chamber, which increases the cooling efficiency of the rolled products and ensures uniform distribution of a given level of strength and plastic properties along the length rental.

The execution of the outlet channel of the upper compartment of the rectangular cooling chamber allows you to increase the heat transfer due to the active destruction of the vapor layer between the jets of the cooler and the rolled surface.

When the aspect ratio of the outlet of the channel of the upper compartment of the cooling chamber is less than 1: (15-20), the cooling efficiency of the rolled products from above sharply decreases, which leads to a decrease in the strength properties of the rolled products and an increased risk of drilling the rolled products in the device.

When the ratio of the sides of the outlet opening of the channel of the upper compartment of the cooling chamber is more than 1: (15-20), the rolled products are excessively cooled from above, which leads to warping, difficult thermal straightening and a decrease in plastic properties with an unacceptable increase in strength.

Installation of protective shields to the lower walls of the upper compartments of the cooling chamber and the shut-off unit at an angle of less than 55 ° leads to the ingress of spent cooler onto the mill equipment, which is unacceptable.

The installation of protective shields to the lower walls of the upper compartments of the cooling chamber and the shut-off unit at an angle of more than 60 ° increases the risk of rolling drilling due to insufficient distance between the protective

screens and rolled during the movement of the latter in the device, a delay in the removal of the spent cooler from the drain holes of the guide channel, which reduces the strength properties of the rolled.

The utility model is illustrated by drawings, where Fig. 1 shows a general view of the device, Fig. 2 is a transverse section A-A of Fig. 1, Fig. 3 is a transverse section B-B of Fig. 1.

A device for accelerated cooling and hydrotransport of a mine rack, contains installed on the housing 1, sequentially along the rolling and rigidly interconnected cooling chamber 2 with sections of selective 3, general cooling 4, the length of which is made in the ratio (1-1.5) :( 2-2.5), and the shut-off unit 5, mounted detachable from the upper 6, lower 7 compartments, forming a guide channel 8 with drain holes designed to discharge the spent cooler into the device body 1, nozzles 9 for supply coolers communicating with the lower compartment 7 of cooling chamber 2 and installed uniformly along the rolling symmetrically to its axis in the general cooling section 4 of sprayer 10, designed to cool the side surfaces of the rolled products outside, and also located before the first along the rolling sprayer 10, heating section 11 of length 0 , 1-0.2 the length of the selective cooling section 3, designed to equalize the temperature of the rolled products along the cross section, fixed in the upper and side faces of the U-shaped protrusion 12 of the lower 7 compartment of the camera oh deposition in pairs of rows perpendicular to the rolling movement of the nozzle 13, designed to cool the rolled products from the inside, installed in the upper 6 compartment of the cooling chamber 2 evenly along its channels 14, the outlet of which is made of a rectangular cross section with an aspect ratio of 1: (15-20), and in the selective cooling section 3, in a plane perpendicular to the rolling movement, and in the general cooling section 4, in the course of rolling to its axis at an angle of 43-47 °, the total area of the outlet openings of the channels 14 of the upper 6 section Cooling chamber Ia

2 and the paired rows of nozzles 13 of the upper and side faces of the U-shaped protrusion 12 of the lower 7 compartment of the cooling chamber 2 are equal, in addition, the regulating plates 15 are installed symmetrically with respect to the vertical axis along the entire length of the upper horizontal wall of the lower 7 compartment of the cooling chamber 2, and the lower walls are installed the upper 6 compartments of the cooling chamber 2 and the shut-off unit 5 are attached at an angle of 55-60 ° protective screens 16.

The device operates as follows. The cooler through the nozzles for supplying the cooler 9 under pressure enters the upper 6 and lower 7 compartments of the cooling chamber 2 installed on the housing 1, from where through the sprayer 10, paired rows of nozzles 13, channels 14 enter the guide channel 8 with drain holes, where it interacts with the heated rolled, which enters there, moving along the fixed along the entire length of the lower 7 compartment of the cooling chamber 2 to the upper horizontal wall symmetrically relative to the vertical axis on both sides of the U-shaped protrusion 12 regulating clutches 15, providing the required clearance between the rolling elements and the profile channels 14, the paired rows of the nozzles 13 of the cooling chamber 2, which increases the cooling efficiency of steel. The spent cooler is discharged through the drain holes of the guide channel 8, while the protective shields 16 are attached at an angle of 55-60 ° to the lower walls of the upper 6 compartments of the cooling chamber 2 and the shut-off unit 5 to prevent the spent cooler from getting onto the mill equipment when the rolling passes through the device without hindrance. In the selective cooling section 3 by means of the U-shaped protrusion 12 of the lower 7 compartment of the cooling chamber 2 fixed in the upper and lateral faces of the cooling chamber 2 in pairs in a row perpendicular to the rolling movement of the nozzles 13 and installed in the upper 6 compartment of the cooling chamber 2 uniformly in a plane perpendicular to the rolling movement of the channels 14, the outlet the hole of which is made in a rectangular section with an aspect ratio of 1: (15-20), are subjected to intensive cooling from above and

from below, the most massive profile elements, which reduces the level of thermal stresses when it is cooled, eliminates the possibility of warpage of rolled products and allows you to control its thermal dressing. Then, the hire enters the heating section 11, located before the first along the rolling of the sprayer 10, with a length of 0.1-0.2 of the length of the selective cooling section 3, where the rolling temperature is equalized over the cross section, which ensures uniform temperature distribution over the elements of the rolling profile and, therefore, uniform distribution of strength and plastic properties of a given level over its cross section. Further, passing through the general cooling section 4, with the ratio of the sections of selective and general cooling (1-1.5) :( 2-2.5), it cools evenly, neutralizing the negative effect on the strength properties of the rental of thermal radiation directed at each other and down the profile elements of the rolled product, over its entire section due to efficient cooling of the product from the inside using the U-shaped protrusion 12 of the lower 7 compartment of the cooling chamber fixed in the upper and side faces 12 of the two rows perpendicular to the rolling movement of the nozzles 13 and outside by means of 4 sprayers 10 installed uniformly in the course of rolling symmetrically to its axis in the general cooling section and installed in the course of rolling to its axis at an angle of 43-47 ° in the upper 6 compartment of the cooling chamber 2 evenly along its entire length of channels 14. After exiting cooling chambers 2 hire, which as a result has a temperature of a given level evenly distributed over the entire cross section, passes through a shut-off unit 5, where it is completely cooled to a final temperature. Mobile repairs, dismantling of the device is ensured by performing detachable upper 6 and lower 7 compartments of the cooling chamber and shut-off unit 5.

The use of the proposed device for accelerated cooling of the shaft rack allows for efficient cooling of massive elements of the profile of the car, the implementation of its thermal straightening at

ensuring a uniform distribution of strength and plastic properties of a given level along the cross-section and length of the rolled product, as well as creating a reliable construction, mobile during repair.

Claims (4)

1. A device for accelerated cooling and hydrotransport of a mine rack, comprising installed on the housing sequentially during rolling and rigidly interconnected cooling chamber with sections of selective, general cooling and a shut-off unit, made detachable from the upper and with a U-shaped protrusion of the lower compartments guide channel with drain holes, nozzles for supplying a cooler, nozzles placed uniformly along the length of the general cooling section in the shut-off unit, oriented speech to the rolling car, and in rows on the lateral faces of the U-shaped protrusion of the lower compartment of the cooling chamber, characterized in that it is equipped with sprayers communicating with the lower compartment of the cooling chamber and installed uniformly along the rolling axis symmetrically to its axis in the general cooling section and the heating section located prior to the first along the rolling of the sprayer, with a length of 0.1-0.2 of the length of the selective cooling section, while the nozzles are installed in the upper and side faces of the U-shaped protrusion of the lower compartment of the camera oh deposition in pairs is perpendicular to the rolling movement, and channels are made uniformly in the upper compartment of the cooling chamber along its entire length, moreover, in the selective cooling section, in a plane perpendicular to the rolling movement, and in the general cooling section, along the rolling direction to its axis at an angle of 43 47 °, while the total area of the outlet openings of the channels of the upper compartment of the cooling chamber and the paired rows of nozzles of the upper and side faces of the U-shaped protrusion of the lower compartment of the cooling chamber are equal, and the lengths of the sections of the huts and the total selectivity of cooling performed at a ratio of (1-1.5) :( 2-2.5). 2. The device according to claim 1, characterized in that along the entire length of the upper horizontal wall of the lower compartment of the cooling chamber, control pads are installed symmetrically with respect to the vertical axis. 3. The device according to claim 1, characterized in that the outlet of the channel of the upper compartment of the cooling chamber has a rectangular cross section with an aspect ratio of 1: (15-20). 4. The device according to claim 1, characterized in that protective shields are attached at an angle of 55-60 ° to the lower walls of the upper compartments of the cooling chamber and the shut-off unit.