SU1088824A1 - Nonreversing rolling mill - Google Patents

Abstract

1. NON-REVERSIBLE ROLLING MILL, including working and gear cages installed on the supporting frames, connecting shafts and couplings, electric motors, characterized in that, in order to increase the durability of gears, the speed-worn cage is installed on the guides with the possibility of rotation along the vertical axis and equipped with driven by such a rotation, and the gear rolls are provided with coupling sleeves at both ends. 2. The mill according to claim 1, characterized in that the support frames of the gear stands are made in the form of slabs, having the form of arcs of circles with centers on the vertical axis of rotation of the stand. (L

Description

The invention relates to ferrous and nonferrous metallurgy and can be used on non-reversible rolling mills.

Rolling mills with advanced work stands, for example, a mill combined with a continuous casting machine, in which the working stand reciprocates ij, are known.

The disadvantage of such a mill is the complexity of its co-operation.

The closest to the proposed technical entity is an non-reversible rolling mill, which includes a working and gear stand installed on the support frames, connecting shafts and couplings, electric motors 2.

The disadvantage of the design is the low durability of gear. stands, which leads to frequent stops of the mill to replace gears, loss of its performance.

The purpose of the invention is to increase the durability of gears.

The goal is achieved by the fact that in a non-reversing rolling mill, including working and gear cages mounted on the support frames, connecting shafts and couplings, electric motors, the gear cage is mounted on the guides with the possibility of rotation about the vertical axis and provided with a drive of this rotation, and the gear rolls are equipped coupling sleeves at both ends.

The support frames of the gear stands are made in the form of slabs, having the form of arcs of circles with centers on the vertical axis of rotation of the stand.

FIG. 1 shows a general view of the stack; in fig. 2 - the same, top view; in fig. 3 - gear crate.

The rolling mill contains an electric motor 1 connected by a spindle 2 to the rollers of the gear stand 3, which is connected by spindles 4 to the work rolls 5 installed in the stand b. By the clips 7, the stand is fixed on the support plates 8. The gear stand is fixed on the clamp 9 on the support plates 10, made in the shape of an arc of a circle. A gear cage is rotatably mounted on an axis 11 provided with gear 12 communicating with the rail 13. The rake is driven by the hydraulic cylinder 14.

The camp works as follows.

The motor 1 through the spindle 2 drives the rolls of the gear stand 3, the spindles 4 and the work rolls 5 mounted in the working

cage b. The cage can be quickly fixed with hydraulic clips 7 on the slabs 8. The gear cage can be quickly fixed with clips 9 on the slabs 10. The gear cage 5 is mounted rotatably about the vertical axis AB. The cage 3 can, freeing the clamps 9, rotate 180 ° on the axis 11. In this case, the cage supports 3 slide along 10 support plates - frames 10, made in the form of circular arcs. Axis 11 with cage 3 is rotated through gear 12 by rail 13 connected to a stationary hydraulic cylinder 14. Gear rolls of cage 3 have spindle heads at both ends of the rolls and can be connected to spindles 4 (on one side) and 2 (with other

0), both in the position shown in Fig. 1 and when the stand 3 is rotated by 180. Usually in the known structures of non-reversible rolling mills in gear cages

The 5 teeth of the gears work only on one side, and the second is not used. When worn out and chipping due to contact stress, the smoothness of the gears operation deteriorates, dynamic impacts increase and either the teeth break down on their side, where tensile stresses fy of the tooth base act) or the mill must be stopped and the gear rolls replaced.

In the proposed design, it is possible, after time / equal c% of the estimated time of operation of stand 3, to disconnect it from spindles 2 and 4,

0 release clips 9 and turn cage 5 by 180 ° around the axis AB. After that, it can be re-connected with spindles 2 and 4 and continue operation of stand 3, while those tooth surfaces that worked on stretching will only be subjected to compression, and these surfaces will be relieved from contact stresses.

0 The proposed design allows the use of both tooth surfaces, i.e. almost double the life of the gear stand and reduce the downtime of the mill.

e more. Periodic rest, the unloading of surfaces working for contact fatigue from stress, significantly increases the durability of each of the working surfaces of the teeth. Economic

About the effectiveness of the device is determined by the increase in productivity due to the reduction of downtime and will amount to 120,000 rubles. per year for mill 630.

Claims (2)

1. NON-REVERSE ROLLING MILL, including working and gear stands mounted on supporting frames, connecting shafts and couplings, electric motors, characterized in that, in order to increase the durability of the gears, the gear stand is mounted on rails with the possibility of rotation about a vertical axis and equipped with a drive of such turning, and gear rolls equipped with couplings at both ends. 2. Mill on π. 1, characterized in that the supporting frames of the gear stands are made in the form of plates having the shape of circular arcs with centers on the vertical axis of rotation of the stand. © YuO □ O X GO o