KR950010215B1 - Proofreading device for telescope of rolling coil - Google Patents

Abstract

The telescope reformer improves the quality and productivity of hot-rolled coils by applying different weights to the upper part at the rolled coils. The telescope reformer comprises: (A) a lift(4) to hold rolled coils(5); (B) a weight holder(1) with different weights(6,7,8,9); and (C) a free rotating plate(2) with a circular protrusion.

Description

Telescope Calibrator for Rolled Coils

1 is a conceptual diagram showing a conventional telescope calibration apparatus, a is a state diagram before the calibration, b is a state diagram after the calibration.

2 shows a telescope calibration apparatus for a rolled coil according to the present invention, in which a is a front sectional view, and b is a plan view of a rotational disc and a bearing in a direction A-A '.

3 is a block diagram showing the differential weight according to the present invention.

4 is a graph showing the trend of compressive load reduction when using a rotating disk.

5 is a schematic diagram showing the correlation between the compression load and the calibration efficiency.

* Explanation of symbols for main parts of the drawings

1: Weight mounting part 2: Free rotating disc

3: bearing 4: lift

5: coil 6,7,8,9: weight

The present invention relates to a telescope calibration apparatus, and more particularly, to a hot rolled telescope calibration apparatus capable of efficiently calibrating a telescope having a coil shape in which both sides are inconsistent during winding operation of the hot rolling. will be.

The winding shape of the hot rolled coil is a major quality control item that has a great influence on the post-rolling process and the corrected yield. It is a measure of the hot rolling industry because it is affected by the whole rolled process including the rolled material and the winding equipment. The telescope-coils cause grooves on the side projections during conveyor conveyance, and act as cost increase factors by undergoing recoiling.

Conventionally, as a method of preventing the occurrence of the telescope by adjusting the operation variable during winding operation, Japanese Patent Publication No. JP60133921 has a Side Guide Controlling Machine installed on the front of the winding machine to generate the telescope. Attempts have been made to reduce the pressure, and in European Patent Publication No. EP0242104, one pinch roll of the two pairs of pinch rolls is used in order to prevent telescope generation using a rotatable mandrel and two pairs of pinch rolls. In order to reduce the generation of the telescope by forming a longitudinal axis parallel to the other pinch roll shaft, the telescope is prevented by adjusting each operation factor independently or in combination by adjusting the operation parameters. The method is to standardize the effect of each variable variable and accurately reflect it in the winding operation. Groups are difficult to hayeoteumeuro is almost impossible to completely prevent the occurrence in the process of the telescope, and a method for preventing the occurrence of the telescope is used separately, a method for correction of the telescope has already occurred.

That is, the structure is, as shown in Figure 1, the lift (13) is formed on the bottom surface of the hot rolled coil 12, the telescope 14 is generated, and the weight of the upper portion of the coil 12 The weight (11) of the (11) is located, it was made of a structure to make the shape of the coil 12 to the normal shape by pressing the telescope 14 directly with the weight (11).

Conventional telescope calibration device having the structure as described above, because it uses a fixed weight (hereinafter referred to as "weight") to calibrate the telescope generated over a variety of steel grades, thicknesses and widths,廣 幅) In case of the material, the side part groove is caused by the excessive load, and in the case of the thick material, the load is less than the required value so that the coil cannot be sent to the normal position frequently.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems. The object of the present invention is that by attaching a rotating disc and differentially weighing a telescope already generated separately from the reduction of telescope generation through operation adjustment. The present invention provides a telescope calibration apparatus for a rolled coil that can directly obtain a good winding shape by efficiently calibrating the telescope, by overcoming the telescope reduction limit through rolling operation adjustment by calibrating the telescope.

The present invention as a technical configuration for achieving the above object, in the device for installing a rolling coil on the upper end of the lifter, a fixed weight is mounted on the upper portion of the rolling coil to correct the telescope generated in the rolling coil, The weight mounting portion is provided with a differential weight, the lower end of the weight is formed with a circular concave groove is inserted into the groove, the bearing is inserted into the rolling coil characterized in that the bearing is equipped with a free rotating disc having a circular protrusion By providing a telescope calibration device.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 shows a telescope calibration apparatus for a rolled coil according to the present invention, and FIG. 3 is an operation diagram showing the membership of the telescope calibration apparatus according to the present invention. It is formed on the upper end, the weight mounting portion 1 is installed to the upper portion of the rolling coil (5).

The weight mounting portion 1 is provided with different weights (6) (7) (8) (9), and the lowermost weight (6) has a concave groove (6a) having a constant diameter in the center of its lower surface. ) Is formed, and a bearing 3 is mounted in the concave groove 6a. In addition, a free rotating disc 2 is installed below the weight 6, and the free rotating disc 2 forms a circular protrusion 2a at the center of the upper end surface thereof so that the protruding portion 2a is the bearing. It is comprised so that it may fit in the recessed recessed groove 6a which attached (3).

Referring to the operation and effects of the present invention configured as described above are as follows.

As shown in Figs. 2 and 3, the lift 4 having the free rotating disc 2 mounted on the bottom surface of the weight 6 in contact with the telescope generating portion and installing the hot rolled coil 5 is mounted. The telescope is calibrated by raising or lowering the weight mounting part 1 in which the weight 6 is formed. When the lift 4 is upward in the direction of the arrow shown in FIG. Force is applied to the telescope, and the weights 7, 8, 9 are then sequentially added to increase the magnitude of the force applied to the telescope.

In addition, the lift 4 is capable of adjusting its height so that a force suitable for the type of hot rolled coil 5 can be applied, and in the axial direction of the hot rolled coil 5 in order for the telescope to return to its normal position during the calibration. The rotation of the hot rolled coil 4 occurs in the circumferential direction, and the frictional force between the lower surface of the weight mounting part 1 and the hot rolled coil 4 is accompanied by the rotation. As it is reduced by the rotation of), the calibration efficiency at the same load is increased.

In order to confirm the above effects, experiments were carried out by fabricating a calibration apparatus according to the present invention in a reduced size than the actual size, and the increase or decrease of the calibration efficiency is when the free rotating disc 2 is attached to the bottom of the weight 6. The compression load required for the same amount of calibration was measured by dividing the case where the free rotating disc 2 was not attached and the result is shown in FIG.

In addition, the experimental results are shown schematically in FIG. 5. As can be seen in FIGS. 4 and 5, the required load for calibration when the free rotating disc 2 is attached is significantly low, and the calibration efficiency is greatly increased under the same load. In addition, the degree of reduction of the side grooves when the differential weight is applied is shown in Table 1, and the side grooves are significantly reduced due to the frictional force reduction effect of the free rotating disc 2 and the prevention of overload due to the differential weight.

TABLE 1

Lateral groove reduction effect when using telescope calibration device

As described above, according to the telescope calibration apparatus of the rolled coil of the present invention, the differential weight is applied to prevent the distortion of the side part after the telescope calibration, and the hot rolled coil can be efficiently calibrated by the action of the free rotating disc 2. To improve the quality of the product, the productivity is excellent.

Claims (1)

In the device for mounting the rolling coil (5) on the top of the lifter (4), a fixed weight is mounted on the top of the rolling coil (5) to calibrate the telescope generated in the rolling coil (5), the weight The mounting portion 1 is provided with a differential weight (6) (7) (8) (9), the bottom surface of the weight (6) is formed with a circular concave groove (6a) is formed in the groove (6a) bearing ( 3) is fitted, and the telescopic calibration device of the rolling coil, characterized in that the free rotating disc (2) having a circular projection (2a) is mounted to the bearing (3).