RU97655U1 - ROLLER ROLLER ASSEMBLY - Google Patents

Abstract

 A roll stand assembly comprising a drive roll installed in radial bearings, an axis located inside the drive shaft with thrust bearings and means for fixing them, and an end cover with an axis fixation unit, characterized in that it is equipped with a cup located inside the drive shaft with a flange to accommodate the axis with thrust bearings, the means for fixing the thrust bearings is made in the form of a nut, an opening is made at the bottom of the cup, and the cup flange is mounted on the drive shaft and is in contact with a radial bearing located on the end cap side.

Description

The utility model relates to the field of rolling production, and more specifically to the roll stand of a rolling stand and can be most effectively used in three-roll stands of longitudinal rolling.

Known knot roll mill stands, see patent RU No. 2048220 class. B21B 31/18, claimed 10/08/83, publ. November 20, 1995, comprising a drive shaft with a roller mounted in radial rolling bearings, an eccentric sleeve covering the radial rolling bearings, an axial adjustment device made in the form of a threaded connection and thrust bearings mounted to interact with the inside of the eccentric sleeve and the axial cover fixing the eccentric sleeve. The eccentric sleeve consists of two mating cylindrical parts: the outer and the inner, which are locked from mutual rotation by the latch. A drive shaft with a roller is mounted inside the eccentric sleeve. Axial adjustment is carried out due to the axially movable inner part of the eccentric sleeve using an axial adjustment unit.

A disadvantage of the known node roll mill stands is its complexity and the complexity of the Assembly.

Another disadvantage is the significant dimensions in the axial direction, so when placing it in a three-roll working stand, it is necessary to reduce the dimensions of the radial bearings, which reduces the load capacity of the stand.

Of the known knots of rolls of the rolling stand, the closest in technical essence is the knot of the roll of the rolling stand described in patent RU No. 2359766 class. B21B 31/20, claimed 07/31/07, publ. 06/27/09

This rolling stand roll assembly comprises a drive roll drive shaft mounted in radial bearings, an axis located inside the drive shaft with thrust bearings placed thereon and means for fixing them, made in the form of an annular cover mounted on the drive shaft, a nut fixing the radial rolling bearings, and also an end cap with an axis fixation unit.

A disadvantage of the known design of the rolling mill roll assembly is the complexity of its assembly and the inability to control the correct installation of thrust bearings, which negatively affects the accuracy of the axial installation of the rolling mill roll.

The objective of this utility model is to create a rolling stand roll assembly, which makes it possible to increase the accuracy of the axial installation of the rolling stand roll by monitoring the correct installation of thrust bearings and facilitating its assembly.

The task is achieved in that the roll stand of the rolling stand, comprising a drive roll shaft installed in the radial bearings, an axis located inside the drive shaft with thrust bearings and means for fixing them, as well as an end cover with an axis fixation unit, according to a utility model, is equipped with inside the drive shaft with a cup with a flange to accommodate the axis with thrust bearings, the means for fixing the thrust bearings are made in the form of a nut, and a hole is made at the bottom of the cup ec cup fastened on the drive shaft and is mounted in contact with a radial bearing disposed on the part of the end cap.

Such a structural embodiment of the rolling stand assembly will improve the accuracy of the axial installation of the roll due to the ability to control the correct location of the thrust bearings during assembly, since they are assembled separately with the axis in a cup, which is then installed in the drive shaft.

The implementation of the Cup with a flange will allow you to fix it on the drive shaft of the roll and fix the radial bearing of the roll. The exception of the nut fixing the radial bearings will reduce the dimensions of the roll assembly in the axial direction.

To explain the utility model, a specific example of the implementation of the utility model is given below with reference to the accompanying drawing (Fig. 1), which shows a roll stand assembly.

The roll stand of the rolling stand includes a drive shaft 2 mounted in radial bearings 1 with a roll 3, a cup 4 with a flange 5 located inside the drive shaft 2 to accommodate the axis 6 with thrust bearings 7 and their fixing means made in the form of a nut 8. At the bottom of the cup 4 hole 9 is made. The flange 5 of the cup 4 is mounted on the drive shaft 2 and is mounted in contact with a radial bearing 1 located on the side of the end cover 10, supporting it. The axis 6 is fixed in the end cap 10 by means of spherical thrust bearings 11, 12 and nut 13. The end cap 10 is fixed to the pillow by 14 bolts 15. The spherical thrust bearings 11, 12 exclude the misalignment of the axis 6 with thrust bearings 7. On the axis 6, detachable are mounted on the axis 6 between the thrust bearings 7 ring 16. Between the end cover 10 and the pillow 14 under the bolts 15 installed gaskets 17.

For axial adjustment of the roll, loosen (unscrew) the bolts 15 of the end cover 10. The gaskets 17 are removed. The end cover 10 is moved in the axial direction together with the axis 6, thrust bearings 7, the cup 4, the drive shaft 2 and the roll 3 rigidly connected to it by the required amount (within 4 mm). After that, under the bolts 15 install new gaskets of the required thickness and tighten the bolts.

The proposed constructive solution will improve the accuracy of the axial installation of the roll mill roll by controlling its proper installation and simplify assembly, as well as reduce dimensions in the axial direction.

Claims (1)

A roll stand assembly comprising a drive roll installed in radial bearings, an axis located inside the drive shaft with thrust bearings and means for fixing them, and an end cover with an axis fixation unit, characterized in that it is equipped with a cup located inside the drive shaft with a flange to accommodate the axis with thrust bearings, the means for fixing the thrust bearings is made in the form of a nut, an opening is made at the bottom of the cup, and the cup flange is mounted on the drive shaft and is in contact with a radial bearing located on the side of the end cap.