UA77241C2 - Method and device for controlled strightening and cooling of a wide metal strip, especially a steel strip or sheet metal, running out of a hot rolled strip rolling mill - Google Patents

Abstract

An invention relates to the ferrous metallurgy. A method for controlled straightening and cooling of a wide metal strip, especially a steel strip or sheet metal, running out of a hot rolled mill, includes the using pinching rollers arranged in the moving direction of the strip behind vertical double rollers, said pinching rollers producing a tensile stress acting in a longitudinal direction, at that the metal strip or sheet metal is displaced between a pre-straightening machine and splash cooling facility in defined conditions of tensile stress by adjusting the tensile stress and by cooling said strip or sheet metal inside said splash cooling facility between successive pairs of pinching rollers and by additionally controlling the tensile stress. Besides claimed is a device for realizing this method. The invention allows to obtain largeness steel sheets with using of usual cooling systems.

Description

The invention relates to a method and a device for co-deformations caused by uneven cooling and controlled straightening and cooling of a wide surface of a metal strip or sheet. of a metal strip, especially a steel strip or The cooling effect is practically limited to a steel sheet that comes out of a hot state due to the occurrence of stresses and the associated de-rolling, with the use of impression rollers, formations in the sheet caused by uneven newlings in the direction of movement tape behind the traction cooling effect of the cooling medium of double rollers, due to the action of which (water) is created on the surface of the sheet. This (negative) tension effect, acting in the longitudinal direction. especially appears with intensive heat dissipation

The described method and device are essentially known from thin and at the same time wide sheets.

OE 33 13 024 A1. This document is about The critical product for the installation is a sheet with a mini-method and a device for rapid cooling of the maximum thickness at the maximum width and at the bottom through the rollers of steel sheets, especially thick- at the same time given high intensity of cooling and medium steel sheets , with simultaneous chewing. The intensity of cooling is determined by controlled straightening, in which steel sheets are heated by a large difference in initial temperatures and by cooling in a heated state. In practice, the pusher rollers, two successively installed traction rollers, should prevent this effect of deformation. double rollers. Then the steel sheet draft- However, the impact of this form of compensation is limited. is through the cooling device under the control The location of the pre-editing machine, according to the cast tension, at least one of the invention, before cooling causes a double roller. According to this method, it is intended to reduce the plastic deformation and reduce the initial deformations and stresses immediately before cooling to achieve predetermined cooling. mechanical properties, without deformation of the sheets It is especially effective to combat deformation or the appearance of distortion, and at the same time with this rmation at the entrance to the cooling device, with deviations that are already in planarity, this tension is regulated by means of pe- reduced. Despite these measures, the speed is still cut off, depending on the need, there are deviations in the planarity of the steel, next, previous, or bearing impressions, which are caused by the creation of insufficient tension roller during the progressive advancement of the rods, errors in the cooling mode and others - metal tape or sheet. we are adversely affected by conventional measures. One implementation is that

Cooling devices used on impression rollers are installed with a certain step, in practice, which essentially consist of nozzle elements, and between two pairs of impression rollers, or re-cooling devices - depending on the step, cooling is spaced using layered laminar blocks. the curtain could hardly be improved. In the further development of the invention may

For laminar cooling units, it is generally recommended that the step is set equal, and I-shaped tubes are used. With the nozzle, half the wavelength of the tape's own shape, which can be realized, is clear when it comes out as a result of or a sheet with a minimum set of relevant parameters, the highest achievable with the maximum width and high heat dissipation intensity. Cooling properties are also negatively affected. poor control and regulation characteristics Device for controlled editing and cooling in general and at low liquid flow in particular. chewing wide metal sheet

At the heart of the invention is the task of expanding, especially for steel strip or steel sheet, the scope of application of conventional cooling systems coming out of the state of hot rolling, equipped for steel with the purpose of obtaining higher traction pairs of double rollers and the following in the flatness of steel sheets with an intensive direction of movement of the strip by pairs of impression rollers, cooling. between each pair of which a cooler is installed

According to the invention, the task of a cutting device is set. is sewn by the fact that the metal tape or sheet with The problem set according to the invention is solved- certain tensions are moved with the help of the shen in such a device by the fact that in front of the tension adjustment pairs between the machine of the pre-impression rollers with cooling blocks, between the correction and the spraying cooling which can be installed controlled by the mood and cooled inside the mentioned attraction, the machine of the previous arrangement is installed between the following pairs of corrections one after the other. As a result of this, the tension can be transferred to the impression rollers, while additionally being controlled before cooling, due to which the tension is increased. Thus, the existing deformations are already reduced here. Then, the plastic deformation immediately before the entrance is even more accurately determined by stretching a metal tape or sheet into the cooling core inside the cooling blocks. device. Plastic deformation reduces the initial - According to other features, it is provided that the deviation from the flatness of the metal strip, the parameters of the cooling units are determined in or sheet. An additional advantage consists in carrying out, depending on the need for a high and medium process of editing, immediately before the cooling intensity. lodging, due to which the repeated formation of

cooling unit with cooling elements of metal tape 1 (see Fig. 1). nts, which are precisely adjustable. The impression rollers 5a are located with a certain

The further development of the cooling step 13, and depending on the step 13 between the system can provide that the parameters of the formed cooling block 9 are calculated for the high cooling block 9. So, for example, step 13 can also for the given to be correlated with half of 14 obtained in the spectrum of products. resulting in a wavelength of 15 for the metal strip

The improvement of the invention also consists in the 1 with the minimum thickness at the maximum shim, which is between the last and bearing impression rorins and a high intensity of cooling. In faces or regular rollers at the end of the metal-steel tape 15, a typical longitudinal tape or sheet is installed, as well as impressions on 15 waves (Fig. 2a). by rollers or correct rollers at the beginning. Parameters of cooling units 9 calculated metal tape or sheet can also be installed, depending on the need, for tension to be released. berths or medium cooling intensity

The drawing shows an example of implementation (Fig. 25), and step 13 corresponds to half of the length of the invention, which is below in more detail of wave 15 (see Fig. 25). The course of the 16th wave is distinctly thin. shown in Fig. 2a and 265 by a dotted line 17.

The drawings show: Fig. 3 illustrates the cooling effect of individual

Fig. 1 is a system image of the cooling units of cooling units 9. On the temperature device with impression rollers and the system, the control-time diagram shows a solid line 20 of flushing by the drive with adjustable temperature tension in the middle of the tape or sheet and we. dashed line 21 surface temperature. In the area

Fig. 2A - a perspective view of a steel strip (1) where spraying cooling or sheet with deviations in shape from the middle blocks are put into operation. At the exit, 18 steel tapes of 1 pehvil. arranged cooling units 9, consisting of

Fig. 28 is a side view of two pairs of impression blocks 22 in the form of O-shaped tubes. faces located at a distance of a step. Based on the temperature difference of the workpiece on

Fig. C - distribution of cooling devices at the cooling unit, AT-medium (1), determining the corresponding cooling intensity. determine the temperature in the middle of the steel sheet 1,

Fig. 4 - a general view of the device for editing and that is, the temperature of the BP center (2). refrigeration. The temperature of the AT-surface is also set

Metal, especially steel, tape 1 or in the area of spraying cooling blocks va. the sheet advances for controlled cooling. When using blocks 22 in the form of O-shaped chewing and straightening with the use of impression tubes, the required temperature of the end of the cooling rollers 5 installed in the direction of movement of the belt 2 is achieved in small steps with the help of vertical double rollers C and 4 behind, with blocks of 22 O-shaped tubes. The occurrence of marten- acting in the longitudinal direction (the direction of movement of the dense structure due to supercooling of the tape 2) tension 6. At the same time, the metal tape- surface is prevented when setting the temperature ka 1 moves between the machine 7 previous higher than the T-martensite temperature. correction and spraying cooling device Between the last and bearing impression rollers 8 at certain tensions 6 with the help of a regu- 5 or correct rollers 23 at the end and drawing of tension (with the help of the driving extrusion belt 1 or a sheet, as well as impression rollers for rollers), which are driven inside by rollers 5 or regular rollers 24 on the spraying device 8, metal tape 1 of a chain 1r of metal tape 1 can be the same tension is created between the following one after the other 6. pairs of impression rollers 5 a, (Fig. 1) additionally, Fig. A4 shows the general view of the controlled tension 6. The spraying system, in which in the direction of movement of the tape 2 after the machine, the cooling device 8 consists of the coolant of the preliminary correction 7, the heating blocks 9 are located, a dual cooling device 8 with pairs and pairs of impression rollers 5a are installed between each one (Fig. 1). When the metal tape 1 moves at speed through the impression rollers 5a and the cooling blocks 9, and then the laminar cooling device 25 goes. the roller conveyor 10, the tension 6 is controlled by the torque 11 through the control system 12 with 1 Metal tape, steel tape or static feedback during contact (A) of the tape with the casting sheet 1a, the end of the tape, and the beginning of the tape with pressure rollers 5, marked from (i) to (i--ps). 2 Direction of tape movement

As soon as the end of the tape comes into contact (B) With the traction roller with the pressure rollers 5, marked from (i1) 4 The traction roller to (ipse-1), the corresponding tension 6 is transmitted 5 The pressure roller to the end And of the belt, and outside the end And tapes can be changed. A pair of impression rollers is only a reference (comparative) speed. Both for the end of the belt and for the 8 Spray cooling device of the beginning 10 of the tension belt 6 is regulated by 9 Spray cooling unit by braking the speed, depending on the need 10 Speed of the roller conveyor, the next, previous or carrier 11 Torque of the pressure roller 5 and during progressive advancement 12 Control system with feedback

13 Step 20 Middle of tape or sheet 14 Half wavelength 21 Surface temperature

Resulting wavelength 22 Blocks of O-tubes 16 Wave travel 23 Imprint roller 17 Dotted line 24 Imprint roller 18 Output 25 Laminar cooling device. 19 Cooling element, pressure

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Ministry of Education and Science of Ukraine

State Department of Intellectual Property, str. Urytskogo, 45, Kyiv, MSP, 03680, Ukraine

SE "Ukrainian Institute of Industrial Property", str. Glazunova, 1, Kyiv - 42, 01601