CZ20033418A3 - Cold rolling mill as well as method of cold rolling of metal strip - Google Patents

Abstract

The invention relates to a method for cold roll forming a metallic strip (8), a steel strip in particular, comprising a single fame (1), having means for adjusting a roll gap, a winding device (9) which is arranged upstream of the cold roll single frame for unwinding the strip (8), and a winding device (10) which is arranged downstream of the cold roll single frame (1) for winding the strip (8). The aim of the invention is to eliminate all problems connected to strip tension when the thickness of the strip varies and to increase the speed of the strip. To achieve this, a strip accumulator (2) is arranged between the upstream winding device (9) and the single frame (1) for controlling the mass flow and/or tension of the rolling process, particularly when flexible rollers are used.

Description

COLD ROLLING MILL Cold and cold

COLD ROLLING OF THE METAL BELT * JUDr. Milos Všetečka advocate

120 00 Praha 2, Hálkova 2 · _e · «► · · ··· f • jllprqveea« strgna • «·» · «· • · I ·

Technical field

BACKGROUND OF THE INVENTION The present invention relates to a cold rolling mill and a method for rolling a metal strip, in particular steel, cold, with a partial rolling mill with means for adjusting the rolling gap, as well as a winding machine upstream of the rolling mill. cold stool, to wind the belt.

BACKGROUND OF THE INVENTION

In the prior art cold rolling on partial rolling mills, only an inlet strip with tight thickness tolerances is used, and the strip thickness drop is kept constant along the strip length. If these assumptions do not exist, problems with belt tension and belt tension are to be expected, and belt speed is severely limited.

WO 99/55474 discloses a Steckel hot-rolling mill with at least one reversing mill as well as upstream and downstream winders. A loop lifter is just designed between the winders and the reversing mill, providing real values for tension control as well as mass flow control. However, such a Steckel rolling mill relates to a hot rolling mill and therefore not to a cold rolling process.

86950 (86950a)

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Abstracts of Japan & JP 60 231516 A relates to hot rolling and in particular here to the formation of a winding machine downstream of a finished rolling mill. In order to adjust the tension of the winding belt, loop rollers are arranged in front of the winding device in the direction of belt travel.

DE 42 43 045 A discloses a cold rolling mill and a control system therefor. This includes a winding reel, two rolling stands as well as a winding reel. In order to achieve a constant strip width along the strip length, the rolling force should be kept constant at a predetermined size, depending on the throughput. To this end, the rolling force of each rolling mill, the rolling speed and the belt tension are matched. The speed of the strip between the unwinder and the first mill is influenced in such a way that the mass flow through the mill is constant per unit of time.

86950 (86950al • to · to · to ·· · * to to ··· to · f «to to ··· · • to ·· · ··· ···· ·· ··

Starting from the state. It is an object of the present invention to provide a method of cold rolling as well as a cold rolling mill with a partial rolling mill which, despite changing the thickness of the strip and the higher speed of the strip, have no problems with the mass flow and / or tension of the strip.

SUMMARY OF THE INVENTION

This object is achieved by a cold rolling mill with the features of claim 1 as well as a method with the features of claim 3. Preferred further solutions are described in the dependent claims.

According to the invention, it is proposed that a belt magazine is provided between the upstream winding device and the cold rolling mill to control the mass flow and / or the belt tension control of the rolling process, especially in flexible rolling.

By means of a belt magazine arranged in the direction of belt travel in front of the partial rolling mill, the changes in the mass flow or the flow rate are compensated. changes in belt speed due to the change in belt thickness or by varying the strip thickness during flexible rolling. This has the particular advantage that rolling with varying strip thicknesses is still possible at higher rolling speeds.

The variations in speed due to the variation of the strip thickness in the roll gap are greatest at the inlet side of the partial rolling mill, so that the strip magazine according to the invention is designed at least in the inlet region. Because disturbances are on

86950 (86950a) • flflflfl flflfl fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll fll flll. in flexible rolling, they also - but not so strongly - affect the belt speed at the outlet side, it is proposed, according to a preferred embodiment, to also arrange a belt magazine on the outlet side of the partial rolling mill.

Preferably, the belt magazine is a compensating roller. Compensating pulley the compensating roller arrangement comprises a roller adjustable at an angle to the belt and loaded with a certain force, so that a loop is formed in the belt, the length of the loop varying with the coil position. In this way, more or less strip can be deposited. According to a preferred embodiment, a compensating roller is present in both the inlet region and the outlet region, which are preferably structurally identical.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram of an embodiment of the invention in a cold rolling mill with flexible cold rolling with one compensating roller in the inlet and one in the outlet region;

FIG. 2 is a detailed view of a compensating pulley as well as a preferred embodiment of adjustment and control;

FIG. 3 shows an overview of the belt tension control circuit and the mass flow during flexible cold rolling

86950 (86950a) ····

999 with partial rolling mill;

FIG. 4 shows an overview of the belt thickness control circuit in combination with belt tension control as well as compensation of mass flow failures in flexible cold rolling with a single rolling mill.

DETAILED DESCRIPTION OF THE INVENTION

Giant. 1 shows a view of the cold rolling mill 2 with one belt magazine 2 in the inlet region 4 and one belt magazine 3 in the outlet region 5, which includes one compensating roller 6, 7. The wound strip 2 is unwound by means of the winding device 9 and fed into the rolling mill 1 in the direction of the arrow. After passing through the partial rolling mill 7, it is wound up by means of a second winding device 10. It is precisely in the inlet region 4 and in the outlet region 5 that a compensating roller 6, 7 is provided which is structurally identical and shown in detail with its setting. The partial rolling mill 2 itself, in the shown embodiment, consists of two support rolls 11, two intermediate rolls 12 and working rolls 13, 14. Any other arrangement of rolls in the partial rolling mill can also be used. Between the rolling stand 2 and the compensating rollers 6, 2, for example, a marking device 15 can also be provided on the outlet side 5 in the belt line.

Giant. 2 shows the mechanics and control of the compensating roller in flexible cold rolling. By adjusting the compensating pulley to the belt 2 ⁱⁿ relation to two adjacent pulleys 16, 17, a loop is formed in the belt 2, the length of the loop of which varies with the position of the compensating roller 6 or 6, respectively. its angular

86950 (86950a) to this setting in relation to roller 16. With this the deeper the compensation roller 6 is immersed in the belt Q, the more belt can be deposited. The illustrated embodiment shows the hydraulic adjustment 18 for the compensating roller 6.

A power regulator 19 is assigned to the compensation roller 6. The actual force values as well as the actual angle of adjustment of the compensating roller j> are sensed for control. These actual force values are supplied in addition to the required force values of the force regulator 19. The values of the desired force are not predetermined, but are calculated from the actual values of the actual angle and the predetermined desired tension. As a result, the force control circuit gives a force correction value at the setting 18, here the hydraulic piston-cylinder unit, the compensating pulley 6, as a result of comparing the required and actual forces. The force correction is used to correct the tension of the belt.

The actual angle value sensed on the compensating pulley is also used to control the speed setting of the winding devices 9, 10 and thus, through the torque control of the winding devices, to control the mass flow. For this purpose, the angle regulator and the predetermined desired angle are given to the angle regulator. Depending on the result of the comparison of the required and actual values, the angle correction value is calculated. This angle correction value is used to control the speed in the winding devices to control the mass flow.

An overview of this regulation of the web tension and the mass flow by means of compensating rollers 6, 7 in the inlet and outlet regions 4, 5 of the cold mill J1 is shown in FIG. 3.

The belt tension is controlled by the required calculation

86950 (86950a) • · forces to control the hydraulic adjustment of the compensation roller, based on the actual force, while the speed of the winding devices is controlled to control the mass flow.

To the winding speed control circuit, i. Unwinding speed resp. winding, the belt speed is entered as the setpoint. This is also specified as the setpoint for the roller speed control.

With reference to FIG. 4, the strip thickness control of a flexible roller is shown. In a flexible rolling process, it is known to change the rolling gap and thereby change the course of the strip thickness along the strip length. Thus, the desired strip thickness profile is predetermined. This belt thickness setpoint is used to pre-control the compensating pulley on the inlet side. The variation of the inlet speed of the strip into the mill as well as the necessary belt tension control to maintain a constant belt tension are calculated from the desired strip thickness profile. Due to the mass flow compensation, the inlet tension can be further stabilized. In addition, the values for the desired strip thickness are given to the thickness regulator, which, using the actual strip thickness values that were removed at the inlet and outlet sides, calculates the correction values for the strip thickness and passes these correction values to the position regulator cold rolling mill.

Represented by:

Dr. Miloš Všetečka v.r.

86950 (86950a)

PATENT REQUIREMENTS • JUDr. Milos Všetečka advocate

120 00 Prague 2, Halkova 2

Claims (6)

Cold rolling mill for rolling a metal strip (8), in particular steel, cold, with a rolling stand (1) with means for adjusting the rolling gap as well as with a winding device (9) upstream of the cold rolling stand for unwinding the strip (8) ) and with a winding device (10) downstream of the cold rolling mill (1), for winding the strip (8), characterized in that a belt magazine (2) is arranged between the upstream winding device (9) and the rolling mill (1). mass flow control and belt tension control of the rolling process, especially for flexible rolling. Cold rolling mill according to claim 1, characterized in that in addition to the first strip magazine (2) arranged between the pre-winding device (9) and the partial rolling mill (1), a second strip magazine (3) is arranged between the partial rolling a stool (1) and a winding device (10) arranged behind it. Method of rolling a metal strip (8), in particular of steel, cold, in a cold rolling mill, with a rolling mill (1) with means for adjusting the rolling gap for cold strip rolling as well as a winding device (9) upstream of the rolling mill (1) ), for unwinding the strip (8) and with a winding device (10) downstream of the rolling stand (1), for winding the strip (8), characterized in that rolling, in particular flexible rolling, is carried out by means of a partial rolling stand (1). wherein the thickness of the strip varies continuously during rolling according to a certain 16 86950 (86950a) .lAdjusted the strao and by using the belt magazine (2), which is arranged between the upstream winding device (9) and the rolling mill (1), there is a mass flow control and a belt tension control of the rolling process. Method according to claim 3, characterized in that the winding devices (9, 10) are speed-controlled. Method according to claim 3 or 4, characterized in that in the control circuit for regulating the adjustment of the belt magazine (2, 3), in particular the compensating roller (6, 7), the calculated force correction value is determined from the actual value the force sensed on the adjusting unit (18) and the value of the desired force, the value of the desired force being calculated from the value of the actual angle sensed on the compensating roller and from a predetermined value of the desired tension. Method according to one of Claims 3 to 5, characterized in that the strip magazine (2, 3) is pre-controlled as a function of the known change in the strip thickness profile.