JP2008105040A - Straightening machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a straightening machine capable of straightening a steel plate of high temperature being an operational condition for a long period of time. <P>SOLUTION: The straightening machine comprises a work roll for the straightening machine, and a back-up roll receiving the load of the work roll for the straightening machine. The shape of a steel plate of high temperature to be rolled by a rolling mill is straightened by the work roll for the straightening machine. The roll is not cooled by a cooling liquid during the straightening. The hardness of the work roll for the straightening machine is selected between an upper limit to be calculated by the temperature rise Ta of the work roll for the straightening machine caused by the heat transfer from the steel plate, and the heat generation ΔTα caused by the slip between the work roll for the straightening machine and the backup roll, and the lower limit to be calculated by the hardness Hb of the backup roll, the hardness difference ΔHα between the work roll for the straightening machine and the backup roll, and variance ΔHβ of the hardness by the manufacturing method of the work roll for the straightening machine and the backup roll. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a straightening machine that corrects the shape of a steel sheet, and more particularly to a straightening machine that is suitable for use in correcting the shape of a high-temperature steel sheet.

  Conventionally, a straightening machine is used for flattening a steel sheet rolled by a rolling mill. In the straightening machine, leveling rolls (work rolls for straightening machines) are arranged above and below in the conveying direction of the steel sheet, a backup roll is placed in contact with the work rolls for straightening machines, and the straightening work is placed by the backup rolls. In response to the load of the roll, the bending of the work roll for the straightening machine in the axial direction is reduced. The shape of the steel sheet is corrected by conveying a low-temperature steel sheet between the upper and lower work rolls for the straightening machine.

  As the straightening machine work roll, for example, a rolled steel sheet straightening machine roll in which a predetermined amount of carbon, chromium, molybdenum, silicon, manganese, copper, nickel, phosphorus, sulfur, nitrogen, oxygen, or the like is contained in iron is known. (For example, see Patent Document 1).

  As the backup roll, Cr—Mo steel is generally used (see, for example, Non-Patent Document 1).

  Here, in order to prevent the wear of the work roll for the straightening machine by the backup roll, the hardness of the work roll for the straightening machine is set to WR = 65 to 72 Hs, the hardness of the backup roll is set to BR = 40 to 57 Hs, and a predetermined hardness difference is set. (For example, see Non-Patent Document 1). Such a hardness difference is made by adjusting the amount of the additive in the work roll for the straightening machine and the backup roll.

JP 2002-102927 A Edited by Japan Iron and Steel Institute, Steel Handbook, 3rd Edition, Volume III (1), Japan, Maruzen Co., Ltd., issued on December 20, 1986, p. 262-263

  In the above-described straightening machine, although the high temperature steel sheet can be straightened by increasing the heat resistance of the straightening machine work roll, the temperature of the straightening machine work roll rises due to heat transfer from the steel sheet. In proportion to the hardness of the work roll for the straightening machine, wear resistance and spalling resistance are reduced. The hardness difference between the straightening work roll and the backup roll is reduced, and wear is promoted by the baking of the straightening work roll by the backup roll. Furthermore, there is a high possibility of causing spalling due to insufficient hardness. In general, the operation temperature is restricted so that the surface temperature of the work roll for the straightening machine is lower than the tempering temperature. When the tempering temperature is exceeded, it is necessary to frequently replace the roll. As a result, the replacement time of the straightening machine work roll is shortened and productivity is lowered.

  Then, this invention is proposed in view of the problem mentioned above, and it aims at providing the straightening machine which can correct over a long period with respect to the high temperature steel plate which is an operating condition.

The straightening machine which concerns on 1st invention which solves the subject mentioned above has a work roll for straightening machines, and a backup roll which receives the load of the work roll for straightening machines, and a rolling mill by the work roll for straightening machines A straightening machine that corrects the shape of the high-temperature steel sheet that has been rolled at a temperature, and that does not cool the roll with the cooling liquid during the straightening, and the hardness of the work roll for the straightening machine takes the operating conditions into consideration. Above, an upper limit value calculated from the rising temperature Ta of the straightening work roll due to heat transfer from the steel sheet, and the calorific value ΔTα due to slip between the straightening work roll and the backup roll, Hardness Hb of the backup roll, hardness difference ΔHα between the work roll for the straightening machine and the backup roll, the work roll for the straightening machine and the backup roll Characterized by being adapted to select at between production methods limit value calculated from the hardness variation ΔHβ by the.
Examples of the high temperature steel plate include a steel plate having a maximum temperature of 600 ° C.
Examples of the work roll for the straightening machine include a roll made of carbon steel.

  The straightening machine according to the second invention for solving the above-mentioned problem is the straightening machine described in the first invention, wherein the effective diameter of the work roll for the straightening machine is reduced to reduce the work for the straightening machine. The variation in the hardness of the roll is reduced, and the allowable hardness range is widened.

  According to the straightening machine according to the present invention, the work roll for straightening machine can have both heat resistance and wear resistance under conditions in which no coolant can be used. As a result, even if a high-temperature steel sheet is straightened, the work roll for a straightening machine can be used over a long period of time, and this replacement time can be prolonged. Therefore, productivity can be improved.

  That is, the tempering of the work roll for the straightening machine does not occur even in the temperature impact of warm rolling. Moreover, the wear resistance of the work roll for straightening machines improves by using it in the temperature range mentioned above.

  Hereinafter, the best mode for carrying out the straightening machine according to the present invention will be specifically described based on examples.

Below, it demonstrates using drawing about the work roll for straighteners used for the straightener which concerns on the 1st Example of this invention.
FIG. 1 is a graph showing the relationship between the temperature and hardness of a straightening work roll used in a straightening machine according to the first embodiment of the present invention. In this figure, the ordinate shows the tempering temperature of the straightening machine work roll, and the horizontal axis shows the hardness of the work roll.

  The straightening machine according to the first embodiment of the present invention has a straightening work roll and a backup roll that receives the load of the straightening work roll and reduces axial deflection, and the straightening machine. The work roll for use corrects the shape of a high-temperature steel plate rolled by a rolling mill, for example, a steel plate having a maximum temperature of 600 ° C. However, during the straightening, the work roll for straightening machine is not cooled by the coolant. In addition, carbon steel etc. are mentioned as a material of the work roll for straightening machines. The diameter of the straightening machine work roll is smaller than the diameter of the backup roll.

  In the straightening machine work roll, the tempering temperature (tempering temperature) has a relationship of decreasing at a predetermined rate as the hardness increases according to the size of the diameter and the material. That is, in the work roll for straightening machines, the relationship of the following formula (1) is established between the tempering temperature T and the hardness H. Examples of the coefficient A and the constant Tx include A = 4 and Tx = 520.

  The straightening machine described above satisfies the following conditions.

  Specifically, as shown in FIG. 1, the rising temperature Ta (for example, 170 ° C.) of the work roll for a straightening machine is determined by heat transfer (heat absorption) from the steel sheet according to the operating conditions. The hardness of the straightening machine work roll at this time is calculated by the above equation (1) and is Ha.

  Examples of the operating conditions include conditions such as steel plate temperature, steel sheet feed rate, and rolling force. That is, the rising temperature Ta of the straightening machine work roll due to heat transfer from the steel sheet is calculated according to these conditions. When the temperature is lower than the above-described rising temperature Ta, the straightening work roll is baked back, the hardness is lowered, and cracking is likely to occur.

  Subsequently, heat is generated by friction caused by sliding between the work roll for the straightening machine and the backup roll. The amount of heat generated at this time is ΔTα. As said (DELTA) T (alpha), 30 degreeC is mentioned, for example.

  Here, since the work roll for the straightening machine and the backup roll are relatively inclined (crossed) due to the difference in bending rigidity, relative slip occurs. For this reason, the amount of heat generated by sliding differs depending on the magnitude of the inclination. Therefore, using the friction coefficient that varies depending on the average load and the roll cross angle, the heat generation amount ΔTα described above is calculated by the following equation (2).

Where K is a constant (coefficient of heat distribution between the straightening work roll and the backup roll) [-], ρ is the specific gravity [kg / m ³ ], and M is the volume [m ³ ] of the outer ring of the backup roll. , Cp is the specific heat [kJ / kg · K], μ is the friction coefficient [function of roll cross angle θ], θ is the cross angle between the work roll for the straightening machine and the backup roll, and P is for the straightening machine from the backup roll. Let reaction force [N] with respect to the load to a work roll, and let V be the peripheral speed [m / s] of the work roll for straightening machines.

  Therefore, the lower limit temperature T1 of the straightening machine work roll is obtained by adding Ta and ΔTα. As lower limit T1 of the tempering temperature of the said work roll for straightening machines, 200 degreeC is mentioned, for example. The hardness of the straightening machine work roll at this time is calculated by the above equation (1) and is set to H2. The strength H2 of the straightening machine work roll is the upper limit hardness.

  On the other hand, the hardness Hb of the work roll for the straightening machine is determined by the hardness of the outer ring of the backup roll. That is, the backup roll is a bearing, and needs to have a minimum hardness, for example, 75 Hs or more in order to develop a function as a bearing.

  Subsequently, the hardness difference between the work roll for the straightening machine and the backup roll is set to ΔHα, for example, 10 Hs or more. That is, seizure by the backup roll can be prevented by setting the hardness difference ΔHα or more. Here, the hardness obtained by adding ΔHα to Hb is defined as Hc. That is, examples of the Hc include 85Hs.

  Then, the hardness variation by the manufacturing method of the work roll for straighteners and a backup roll is set to (DELTA) H (beta). Examples of ΔHβ include 3Hs. Here, the hardness obtained by adding ΔHβ to Hc is H1, and this value is the lower limit hardness.

  The tempering temperature of the straightening work roll corresponding to the hardness H1 is calculated by the equation (1) and is T2, and this temperature T2 is the upper limit temperature of the straightening work roll. As said T2, 240 degreeC is mentioned, for example.

  Here, the effective diameter of the work roll for a straightening machine means that the grinding is performed to remove scratches on the surface after use and the limit of the grinding depth. The effective diameter is 5 mm. By setting the effective diameter in this way, the hardness difference in the body length direction of the use range can be suppressed to ± 1 Hs. Therefore, the hardness difference range of the straightening machine work roll can be reduced, and the allowable hardness range can be expanded.

  Therefore, according to the straightening machine according to the first embodiment of the present invention, the work roll for the straightening machine does not change the hardness at the rising roll temperature under the condition that no coolant is used, and the heat resistance and abrasion resistance. Both wear and wear can be combined. As a result, even if a high-temperature steel sheet is straightened, the work roll for a straightening machine can be used over a long period of time, and this replacement time can be prolonged. Therefore, productivity can be improved.

  That is, the tempering of the work roll for the straightening machine does not occur even in the temperature impact of warm rolling. Moreover, the wear resistance of the work roll for straightening machines improves by using it in the temperature range mentioned above.

  Also, the calorific value ΔTα due to slip between the straightening work roll and the backup roll is specific gravity, the volume of the outer ring of the backup roll, the specific heat, the friction coefficient between the straightening work roll and the backup roll, and from the backup roll to the straightening machine. By calculating based on the reaction force against the load on the work roll and the peripheral speed of the work roll for the straightening machine, the amount of generated heat can be estimated more accurately. As a result, since the upper limit value of the hardness of the straightening work roll using this calorific value ΔTα is calculated more accurately, the hardness range of the straightening work roll can be estimated more accurately.

  INDUSTRIAL APPLICATION This invention can be utilized for the straightening machine which corrects the shape of a steel plate, and can be utilized for a straightening machine suitable especially for using for the correction of the shape of a high-temperature steel plate.

It is a graph which shows the relationship between the temperature of the work roll for straightening machines used for the straightening machine concerning the 1st example of the present invention, and hardness.

Claims (2)

It has a work roll for a straightening machine and a backup roll that receives the load of the work roll for the straightening machine, and corrects the shape of a high-temperature steel sheet rolled by a rolling mill with the work roll for straightening machine, A straightening machine that does not cool the roll with a coolant during straightening,
After considering the operating conditions, the hardness of the work roll for the straightening machine,
From the tempering temperature higher than the temperature calculated from the rising temperature Ta of the straightening work roll due to heat transfer from the steel sheet and the calorific value ΔTα due to slippage between the straightening work roll and the backup roll. The upper limit to be obtained,
The lower limit calculated from the hardness Hb of the backup roll, the hardness difference ΔHα between the work roll for the straightening machine and the backup roll, and the hardness variation ΔHβ due to the manufacturing method of the work roll for the straightening machine and the backup roll A straightening machine characterized in that it is selected between and. The straightening machine according to claim 1,
A straightening machine characterized in that by reducing the effective diameter of the straightening work roll, the variation in hardness of the straightening work roll is reduced and the allowable hardness range is widened.

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