SU1611480A1 - Heat screen for intermediate roll table of sheet mill - Google Patents

Abstract

The invention relates to ferrous metallurgy and can be used in the production of hot rolled steel sheets. The aim of the invention is to simplify the design of the screen and reduce the heat loss of the strip. After the roll 3 comes out of the rough mill stand, the mechanism for moving the shielding elements 3 made in the form of rollers 9 before moving into the roll surface. When the strip moves along the roller table 2 due to friction forces, the non-driven rollers 9 rotate in the opposite direction along the surface of the roll 3. After The tasks of roll 3 into the finishing group of the mill stands of frame 1 are rotated by 90 ° or at a smaller angle before the start of the next strip. 1 silt, 1 tab.

Description

The invention relates to ferrous metallurgy and improves the production technology of hot-rolled sheet steel,

The purpose of the invention is to simplify the design and reduce heat loss of the strip.

The drawing shows a section of the heat shield, General view.

The heat shield consists of a rectangular frame 1, located above the intermediate roller table 2, along which the roll 3 moves from the draft to the finishing groups of the mill stands (not shown). The frame 1 is equipped with a mechanism 4 for its rotation above the roller table 2 by 90 °, containing, for example, a drum 5, on which a cable 7 is wound through a block 6, with one end rigidly connected to the frame 1 and the other with the drum 5. Fixing the frame 1 in the extreme top position! carried out using articulated quick coupling 8.

The heat shield is made of a number of drive rollers 9 installed in the frame 1. The rollers 9 are installed along the entire length of the frame 1 with a gap between them by the amount of thermal expansion. In addition, the rollers 9 have free or forced movement in the vertical direction along the grooves made in long side walls of the frame 1, Rollers 9 can be made of ceramic or steel, with heat-insulating material placed in the inner cavity.

The heat shield works as follows.

After the tackle leaves the draft group of mill stands, the turning mechanism 4 is turned on and the frame 1 through block 6 is lowered over the rolling table 2 by winding the cable 7 from the drum 5 so that the rollers 9 are in contact with the surface of the roll 3. When it moves along the rolling table 2, due to friction forces, non-driving rollers 9 rotate in the opposite direction along the surface of the roll 3. When the movement of the roll 3 having an uneven surface, i.e. having local non-flatness due to vertical free movement along the grooves of the side walls of the frame 1, the rollers 9 are lifted and after passing this section of the roll they lower to their original position under their own weight. After the task of rolling the reamer Z. into the finishing group of the mill stands, the frame 1 is rotated 90 ° or a smaller angle before the passage of the next strip.

Non-driven rollers 9 can also be equipped with a mechanism of forced movement in the vertical direction by an amount, for example, 0-400 mm from the surface of the roll with fixing their position on any segment of this interval. Adjusting the gap between the strip and the rollers 9 allows you to adjust the amount of heat loss of the strip. In this case, it is provided to adjust the clearance both within one section and within the entire length of the device.

Simplification of the design of the proposed device consists in the fact that on the heat shield the role of the shielding elements is performed by ceramic or hollow metal, with heat-insulating material placed inside, rollers. This eliminates the need for a hydraulic system to accurately center the screen above the roller table and in the cooling system. Minimized operating costs for the maintenance of the device.

The reduction of heat losses by the strip is achieved as a result of the fact that heat is transferred from the strip to non-driven rollers due to contact thermal conductivity, which is the most inefficient type of heat transfer. The heat transfer by radiation in the proposed device is minimized. The decrease in heat loss by the strip is due to a decrease in the heat-absorbing surface, i.e., the surface of the heat shield. It is known that the magnitude of the heat flux depends on the ratio of the heat-absorbing Ft surface to the heat-reflecting Fot surface. More Fr / FoT, TeM more, ceteris paribus, more heat loss. In the proposed heat shield, the heat-absorbing surface of the non-drive rollers is at the same level as the heat transfer surface of the strip and their ratio is always almost constant.

The design of the heat shield was tested under experimental conditions. For this purpose, one section was made in the form of a rigid 0-shaped frame made of sheet metal with a thickness of 8 mm, size ΗX ВХ L = 0.5Х Х2.0 Х3.4 m. 14 pairs of grooves were made in the side walls of the frame, in which the rollers were mounted with bearings. The diameter of the rollers is 200 mm, the free movement in the vertical direction is 150 mm, and in the extreme lower position it forms the rollers of the lower frame base by 50 mm. The section on special supports was installed above the intermediate roller table so that the distance between the roller table and the rollers is 10 mm. The effectiveness of the device was evaluated when the strip was stopped under the section for 0.5-15 minutes, followed by measuring the temperature of the tackle 1280 x3 mm at the outlet of the section.

The table shows the experimental data on the operation of the section of the proposed device.

According to the data obtained, the use of the proposed device allows, in comparison with the known, to reduce heat loss by the strip, as a result of which the rate of decrease in the temperature of the strip decreases by 1.4-1.8 times, i.e. the temperature of the trickle entering the finishing group of the stands increases by at least 5–10 ° C. Therefore, at least 5-10 ° C, you can lower the temperature of the slabs discharged from heating furnaces. A decrease of 10 ° C in the final temperature of heating the slabs leads to a decrease in the consumption of equivalent fuel by 1.5-1.6%, i.e. the use of the proposed device will reduce the equivalent fuel consumption by 0.751.5%,

The proposed heat shield can 5 be used in a line of continuous broadband hot strip mills.

Claims (1)

Claim The heat shield of the intermediate roller table of a sheet rolling mill, comprising lifting frames sequentially located above the roller table with shielding elements, characterized in that, in order to simplify the design and reduce heat loss of the strip, the shielding elements are made of a number of non-driven rollers. Type of construction The temperature of the roll before the section, ° C Heat shield temperature, ° C The temperature of the tackle at the outlet of the section, ° C, per period, min 0.5 1,0 1,5 Famous 1150 350 1140 1135 1128 Proposed 1150 350 1143 1143 1138