RU2404871C1 - Roll mill - Google Patents

Abstract

FIELD: process engineering. ^ SUBSTANCE: invention relates to roll mil design. Proposed roll mill comprises rolls, stand and pinion stand. Said pinion stand is coupled with rolls via idle shafts arranged at the angle to drive shaft and rolls, both arranged in parallel. Bearings of rolls are secured in stand foundation to move along arcs. Arc center is located on continuation of drive shaft of appropriate roll. Projections of rolls and drive shafts axes onto plane perpendicular thereto form isosceles trapezoid. ^ EFFECT: reduced rejections and higher quality of rolled stock. ^ 2 cl, 2 dwg

Description

Known rolling mills with a stand, in which the rolls are moved relative to each other transversely rolled, for example along A. with. 1088819. The disadvantage of such schemes is that it is difficult to avoid mutual micro-irregularities in the rotation of the rolls caused by Hook joints. This leads to a decrease in the grade of rolled metal.

The essence of the invention is that the gear stand is connected to two or more rolls through intermediate shafts located at an angle to the drive shaft and the roll, which, of course, are parallel. And the roller bearings are fixed in the stands of the stand with the possibility of arcuate movement, and the center of the arc is located on the continuation of the axis of the drive shaft of the corresponding roll. See figure 1 - axonometry.

When making arcuate movements, the rolls can be moved and moved apart. It is important that the projections of the axes of the rolls and the axes of the drive shafts on a plane transverse to them form an isosceles trapezoid.

Then the direction of the rolling will be perpendicular to the plane of the rolls, and the unevenness introduced by Hooke's joints will be the same for the upper and lower rolls, and therefore the rolls will rotate absolutely synchronously.

An important advantage of kinematics is that all shafts, including the intermediate one, have a constant length. That is, it is not required to use a spline or other connection of variable length.

Such kinematics also makes it possible to use other types of joints, in particular those designed to transmit rotation only with one relative position of the shafts. That is, to transmit rotation only at one angle. Most of these joints and couplings do not introduce uneven rotation. Moreover, bevel gears can be used instead of hinges.

Figure 1 shows the kinematics of a rolling mill containing a motor 1, a gear stand 2, driving shafts 3, coming out of a gear stand and connected by hinges 4, for example, Hook joints, with intermediate shafts 5, which in turn are connected by Hook joints with rolls 6. The bearings 9 of the rolls are fixed so that the rolls can move in an arcuate manner - shown by arcuate arrows.

Figure 2 shows the bed 7 of the stand, in which cylindrical inserts 8 with bearings 9 are fixed in the cutouts. The inserts are fixed with variable-length fasteners, for example screw jacks, which is symbolically shown as a double arrow 10. The upper insert is spring loaded upward by spring 11.

The mill works as follows: drive shafts 3 through Hooke's joints rotate the intermediate shafts 5 and then the rolls 6.

With the opposite movement of the cylindrical inserts 8, the bearings of the rolls 9 can be moved and moved apart. Moreover, the plane of the rolls is always perpendicular to the direction of rolling, and the branches of the shafts 3-5-6 are symmetrical relative to the sheet being rolled, and, therefore, the rolls rotate synchronously.

The application of the invention will reduce the marriage and increase the grade of hire.

Claims (2)

1. A rolling mill comprising rolls, a cage and a gear stand, characterized in that the gear stand is connected to the rolls through intermediate shafts located at an angle to the drive shaft and the roll, which are parallel, and the roller bearings are fixed in the stands of the stand with the possibility of arcuate movement, moreover, the center of the arc is located on the continuation of the axis of the drive shaft of the corresponding roll. 2. The mill according to claim 1, characterized in that the projections of the axes of the rolls and the axes of the drive shafts on a plane transverse to them form an isosceles trapezoid.

Images