RU2083301C1 - Apparatus for radial adjustment of roll of prestressed rolling stand - Google Patents

Abstract

FIELD: rolling equipment, namely supports of bar and rod rolling mills having frame-free prestressed stands. SUBSTANCE: apparatus for radial adjustment of roll of prestressed rolling stand includes mounted in chock eccentric sleeve inside which bearing unit of roll is mounted, cover for axial fixation of eccentric sleeve relative to chock, drive unit for rotating eccentric sleeve. Said sleeve has variable-thickness wall with thickened portion in the form of toothed sector whose teeth are constantly engaged with rotation drive unit. Rotation angle of eccentric sleeve is limited due to engagement of bearing surfaces of its sector-shaped thickened portion and chock. Symmetry plane of said thickened portion is normal relative to plane passing through axes of turnings of said eccentric sleeve. EFFECT: increased axial carrying capacity due to use of radial thrust ball bearing of larger diameter; reduced cost of making parts of liquid-friction bearings due to use of standard sleeve-trunnion, lowered time period for correcting roll gap due to limited rotation angle of eccentric sleeve being constantly in zone of effective adjustment, increased service life period of roll due to larger range of using its barrel. 5 dwg

Description

The invention relates to rolling production, and in particular to the supports of the working stands of high-quality and wire machines, equipped with non-continuous prestressing stands
A device for regulating the roll of a non-continuous prestressed rolling cage of the Levfen design, containing an eccentric sleeve, in which the supports of the rolling roll are installed, a drive for turning the eccentric sleeve / Chekmarev A.P. Pobegailo G.G. Precise rolling of section profiles, M. Metallurgy, 1968, p. 111-112 /.

The disadvantage of this device is the absence of limiters for turning the eccentric sleeve, since effective radial regulation of the roll occurs when the eccentric sleeve is rotated by an angle not exceeding 40-50 ^o from the horizontal plane. With its further rotation, the radial position of the roll changes slightly and more slowly.

The closest in technical essence to the invention is a device for adjusting the roll, comprising an eccentric sleeve installed in the cushion, in which the support assembly of the fluid friction bearing of the rolling roll is mounted, a cover of the axial fraction of the eccentric sleeve relative to the cushion, an eccentric sleeve rotation drive [1]
When using such a device, the correction of the roll solution is made by turning a certain angle of the eccentric bushings in which the bearings of the upper rolling roll are placed.

 In addition to the drawback of the previous analogue, this device has a low load capacity of the rolling bearings installed in the thrust unit, while the installation of standard rolling bearings and journal sleeves is impossible due to the insufficient distance from the roll axis to the base of the pillow, and there is also a dependence of the minimum roll barrel diameter on the outer diameter of the teeth worm wheels made on an eccentric sleeve.

 The objective of the invention is to increase the axial load capacity of the assembly by installing a larger diameter angular contact ball bearing, reduce the cost of manufacturing parts of the VT through the use of standard journal sleeves, reduce the time taken to correct the roll solution by limiting the angle of rotation of the eccentric sleeve and its constant being in the zone of effective regulation, extending the service life of the rolling roll due to the increase in the range of use of the diameter of its barrel.

This task is achieved by the fact that in the device for radial adjustment of the roll of a prestressed cage, containing an eccentric sleeve installed inside the roll cushion, inside which the roller support assembly is mounted, an axial fixing cover of the eccentric sleeve relative to the cushion and a drive for turning the eccentric sleeve through the teeth on its outer surface, in constant engagement with the drive element, according to the invention, the teeth of the eccentric sleeve are placed on the outer surface projectors, a plane of symmetry which is perpendicular to a plane passing through the bore of the eccentric sleeve axis and the angle of the sector is approximately 180 ^o, with the lateral faces of sector tide are designed as thrust pads interacting with mating pads in the opening cushions in the extreme positions of rotation of the eccentric bushing.

 In FIG. 1.2 shows a General view of the device for radial adjustment of the roll of a prestressed stand, in longitudinal and transverse / along aa / section; in FIG. 3.4 extreme positions of thrust pads when moving the roll to the lowermost / Fig. 3 / and extreme upper / Fig. 4 / position; in FIG. 5 gasket installation diagram.

 The device comprises a rotary eccentric sleeve 2 mounted in the cushion 1, provided with thrust pads 3.4 on the tide 5, made in the form of a gear sector / Fig. 1,2 /.

 In the bore of this pillow there is a worm gear 6 for turning the eccentric sleeve. The thrust pad 7.8 is made in the pillow.

 Inside the eccentric sleeve there is a fluid friction bearing, consisting of an insert sleeve 9 and a pin sleeve 10 connected to the conical part of the neck of the roll 11. The eccentric sleeve in the axial direction contacts the outer collars with the pillow 1 and the cover 12, which is rigidly bolted to this pillow compound 13.

 In the eccentric sleeve, there is also a rolling thrust ball angular contact double bearing 14, which is mounted on a journal sleeve. The outer rings of the ball bearing are in contact from one end with the inner collar of the eccentric sleeve, and on the other hand with the end of the threaded sleeve 15. The inner rings of the bearing from the ends are fixed with a nut 16.

 The device operates as follows.

To perform the necessary adjustment of the solution of the rolls 11, the eccentric sleeve 2 is rotated using the mechanism 6, while the axis of the roll / O / is rotated by the required angle alpha around the axis of the pillow bore / O ₁ /, which is spaced apart from it by the amount of eccentricity / е /.

The radial movement of the roll is determined by the expression
X = e • sin alpha
The maximum angle of rotation of the eccentric sleeve is limited by the interaction of the thrust platforms 3.4 and 7.8, made on its sector tide 5 and in the pillow 1. Therefore, the eccentric sleeve is constantly in the zone of effective regulation.

In contrast to the analogue, large standard rolling bearings 14 are mounted on standard bearings of the fluid friction bearing of this device on standard sleeve-trunnions 10. For this, the corresponding large bore has a diameter of d and a longer interaxal distance / E compared with the analogue / gear transmission mechanism 6 rotation. From FIG. 3 it follows that the diameter of the rolls / D / is equal to
D = A _o = B + h + C,
where A _{o the} average center distance of the rolls for a given set of gaskets;
B is the distance from the axis of the bore of the pillow to its base;
h the thickness of the set of gaskets between the upper and lower pillows;
C is the distance from the axis of the bore of the lower cushion to its base.

After regrinding, when the diameter of the roll barrel becomes minimal / D _min /, gaskets between the pillows are not installed, i.e. h = 0.

Then D _min = A _o = B + C
The eccentric sleeve is made of variable thickness with a tide 5 in the form of a gear sector, the teeth of which are in constant engagement with the rotation mechanism 6, and its outer part, facing the base of the pillow, is devoid of teeth and at the same time has a radius / R /, allowing to reduce the distance from the axis boring pillows to its base / B /.

Therefore, decreases and the minimum diameter of the barrel roll / D _min / compared with the analogue.

 To preserve the largest diameter of the roll barrel, as in the analogue, the maximum thickness of the gasket set / h / is simultaneously increased by the same amount.

 Thus, the use of the invention increases the axial load capacity of the node, reduces the cost of manufacturing bushings, pins, reduces the time spent on the correction of the solution of the rolls, and extends the life of the rolling roll.

Claims (1)

A device for radially adjusting the shaft of a prestressed rolling stand, comprising an eccentric sleeve installed in the roll cushion, inside of which a roller support assembly is mounted, an axial lock cover of the eccentric sleeve and a drive for turning the eccentric sleeve through the teeth on its outer surface, which are constantly engaged with the drive element, characterized in that the teeth of the eccentric sleeve are placed on a sector tide made on its outer surface, the plane of symmetry of which is located lies perpendicular to the plane passing through the axis of the bore of the eccentric sleeve, and the angle of the sector is about 180 ^o , while the lateral faces of the sector tide are made in the form of thrust pads interacting with mating pads in the pillow opening in the extreme turning positions of the eccentric bushing.

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