SU440169A1 - Work stand mill helical rolling tubes - Google Patents

Description

one

The invention relates to the field of rolling production.

The known working stand of a three-roll tube rolling mill, each roll of which, supported by two spherical bearings, is placed on one side on a stationary holder fixed on the frame, and on the other hand on a movable holder that can turn from a drive around the axis coinciding with the axis rolled blanks. When the movable casing is rotated using a special hydraulic device at a certain angle relative to the stationary cage, the rolls come closer together and the angle of inclination changes during the process, which allows changing the wall thickness of the tubes if they are reinforced in one place or another.

However, in a known stand, the movable cage perceives the pressure of the metal on the rolls through bearing bearings installed in it and, under the conditions of strength, is made fairly massive, which leads to large inertial loads when the rollers communicate angular oscillatory movements to intensify the deformation process.

The proposed stand is characterized in that the bearing supports of the rolls on the non-drive side are placed in the tangential slots of the fixed frame, which allows the swiveling holder, which is hinged to the bearing support housing through the sliders installed in the radial guides of the yoke, to be relatively light and thus create conditions to implement the mode of angular oscillatory movements of the rolls in the deformation process.

FIG. 1 shows the proposed stand, a partial longitudinal section; in fig. 2 is a view along arrow A in FIG. one.

The working stand has a bed 1, driven work rolls 2, whose spherical bearing supports 3 are fixedly mounted in the frame from the side drives, and the cases 4 of opposite spherical bearings of the 5 rolls are installed in the tangential slots of the bed and are hinged to the rotary holder 6 through sliders 7 installed in the radial guides of the cage.

The cage works as follows. With a uniform rotation of the rolls 2, the tube billet 8 for deformation on the axially stationary mandrel 9 is fed to the rolls 2. The billet is fed in the axial direction continuously due to axial component friction forces at the contact of the tube with the rolls. The axial feed of the workpiece can also be carried out by external forces from an independent feed mechanism. The workpiece is rotated by the tangential friction force guides at a cong tact of the workpiece with rollers. The rotational movement of the rolls is driven from the side of the stationary spherical supports 3 using Hooke hinges. The supports 3 of the rolls 2 can be moved apart in the radial direction and fixed in a certain position in accordance with the range of rolled tubes. In addition to the rotational movement, the oscillating movements of the rolls 2 are communicated by means of a crank drive mechanism. When the crank 10 is rotated, the crank 11 will rotate the yoke 6. In this case, the slide blocks 7 move in the radial grooves of the yoke b, since the housings 4 of the bearing supports 5 which are hingedly connected with them, the slippers in the tangential slots of the bed 1, synchronously move to a larger radius from the axis rolling.

In this way, the angle of inclination of the rolls to the rolling axis increases, the maximum value of which is determined by the radius of the crank. Since the volume of metal that fits into the space between the rollers in their diluted state is larger than that in the reduced state, the pipe is reduced

diameter and break-in along the wall on the mandrel 9. When the tube blank is compressed, the instantaneous deformation zone moves along the rolling axis. At the end of the swinging motion of the rolls, when the angle between the roll axis and the rolling axis becomes minimal, the rolls are in contact with the workpiece, calibrating surfaces, which determines the diameter and wall thickness of the finished pipe.

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Subject invention

The working stand of the helical rolling mill tube includes a frame, driven work rolls, whose spherical bearing supports on the drive side are IMMEDIATELY installed in the frame, and the opposite spherical roll supports are connected to a rotatable clip from the drive, which differs from angular

the oscillatory motion of the rolls with respect to the fixed supports; tangential grooves are made in the frame, in which there are housings opposite to the drive of the roll supports, which are pivotally connected to the rotary holder through sliders installed in the radial guides made in the cage.