EP1238719B1 - Compact rolling block for two parallel rolling lines - Google Patents

Abstract

Compact rolling block with two horizontal and parallel rolling lines (L1, L2), for wires, has three peripheral transmission axes (1-3) at peaks of an equilateral triangle. Two lower axes (3, 4) have moving vertical stands (VL, VR), angled outwards. Upper axis (2) carries horizontal stands (OL, OR), angled against each other, with the rollers all congruent at right angles to the two roller lines.

Description

According to claim 1, the invention relates to a compact rolling block arrangement for rolling, side by side from a preprocessing system in parallel lines Rolled material strands, in which the billets alternate in the rolling direction subsequently have vertical or horizontal roller pairs, which are connected via angular gears coupled with drive shafts running parallel to the rolling lines are.

Generic roll stand arrangements of this type are used in rolling mills for wire and fine iron used (GB-A 1 128 157). The wire strands occur with relatively large side distances from the feeding wire preprocessing lines. This Side distances allow the arrangement of the drive shafts and also several Drive shafts for the rolling blocks as well as the necessary bevel gear without great difficulties.

In the so-called hot rolling of wire strands, in which the from a continuous casting plant emerging strands immediately after they emerge into the Roll stand arrangement are introduced, is the distance between two parallel Strands very small for operational reasons, with the result that the rows of Rolling blocks arranged with a correspondingly small lateral distance from one another must be and thus for the drive shafts and those to be coupled with them Roll stands very little space is available.

The invention has for its object a roll block assembly with the Drive shafts and the connecting elements that create this tight Installation ratio takes into account.

This object is achieved in that three jointly driven drive shafts for the rolls, positioned in relation to one another in the axial direction, that the center of the axis of one of the drive shafts in the upper corner of an upright, isosceles triangle and the center of the axles of the other two drive shafts lie in the two lower corners of this triangle. there can, as the invention further provides, having the horizontal roller pairs Roll blocks to be coupled to the drive shaft, the center of its axis in the the upper corner point of the triangle and the vertical roller pairs Rolling blocks to be coupled to the drive shafts, the axes of which in the two lower corner points of the triangle. The ones exhibiting pairs of horizontal wafers Rolling blocks are useful to down their drive shaft axis inclined and the roll blocks having vertical roll pairs around their drive shaft axis arranged inclined outwards. The arrangement can be according to the invention so that the two drive shafts, the center of their axes lie in the two outer corner points of the isosceles triangle, each with an equal number of billets with pairs of horizontal rolls are connected to the drive and the drive shafts, the center of which is in the upper Corner point of the triangle is twice that number of rams, these blocks with their horizontal roller pairs alternately one and the other of the two rolling lines are assigned. The drive shafts of the Roll blocks, as the invention further proposes, together by one Motor driven, the three drive shafts each having a spur gear, the combs with a spur wheel sitting on the motor shaft. The axis centers of the upper Drive shaft and that of the two lower drive shafts and the center lines the wire strands can be positioned according to the invention so that they in the Corners of an even pentagon run.

Figur 1

die Ansicht eines Radialschnitts durch die Anordnung der Antriebswellen, in Achsrichtung gesehen und

Figur 2

eine Anordnung von Walzblöcken in Walzrichtung gesehen in schematischer Darstellung,

Figur 3

eine Gesamtanordnung der Watzblöcke von oben gesehen und in

Figur 4

die Gesamtanordnung der Antriebswellen mit den Antriebselementen von oben gesehen, ebenfalls in schematischer Darstellung.

With the arrangement of the roll blocks and their drive transmission elements according to the invention, in addition to the improved use of space, improved accessibility of the rolls of the roll blocks during assembly and repair work is also achieved. The invention is explained in more detail with reference to the embodiment shown in the drawing. The drawing shows:

Figure 1

the view of a radial section through the arrangement of the drive shafts, seen in the axial direction and

Figure 2

an arrangement of rolling blocks seen in the rolling direction in a schematic representation,

Figure 3

an overall arrangement of the watzblock seen from above and in

Figure 4

the overall arrangement of the drive shafts with the drive elements seen from above, also in a schematic representation.

The rolling block arrangement according to FIG. 1 for two horizontal parallel rolling lines L1, L2 shows three drive shafts 2, 3, 4 in the tips of an isosceles triangle lying, of which the two lower drive shafts 3, 4 vertical blocks VL; Drive VR that are inclined outwards and the upper drive shaft 2 horizontal rolling blocks OL, OR drives, which alternate in opposite directions are arranged inclined downwards, the roller pairs RR all at right angles lie in the two rolling lines L1, L2.

Figure 4 shows a single motor M with motor axis 1, which the axis movement by means of a gear transmission 11 (Figure 1 and Figure 3) in three gears 21, 31, 41 transmits, which is arranged in the shape of an isosceles triangle and each sit on the drive shafts 2, 3, 4, each with rolling blocks OR, VR, VL are coupled, each roll block having a pair of head rolls, via intermediate gears c1 and c2 from the respective drive shafts 2, 3, 4 is driven, with two of the drive shafts 3 and 4 being at the height of the Base angle of the isosceles triangle mentioned above and the third wave 2 is at the top of the isosceles triangle, where the two drive shafts 3, 4 the respective blocks VR and VL on the right and the left side with the roller pairs RR for vertical rolling drive VRR right and left up, and with the upper drive shaft 2 alternately a roll block OR to the right and a roll block OL to the left with the corresponding pair of top rollers RR for horizontal rolling ORR drives, the positioning of the drive shafts 2, 3, 4 the inclination and the dimensions of the billets OR, VL, VR and the position of the corresponding ones Rolling roller pairs AR is designed so that the respective caliber passes of all Roller pairs RR lie in two rolling lines L1, L2 (FIG. 4), which run from one side to the other others symmetrically, each above the drive shafts 3, 4 and below and to the side of the upper drive shaft 2 run in an alternating arrangement of billets with vertical rolls VL, VR, VRR and horizontal rolls OL, OR, ORR, the change from a horizontal, right block OR-ORR is determined, alternating with a left horizontal roll block OL-ORR takes place, with a corresponding one on the opposite side Vertical billet each on the left VL-VRR and right VR-VRR approximately the same Height is arranged (Figure 3).

As can be seen, the block arrangement is strongly compacted in this way and has an equal number of vertical billets (in the case shown three) on the right VR and the left VL side at the lower drive shafts 3, 4 on. During two times three roll stands on the upper drive shaft 2, respectively half arranged on the left side OL and half on the right side R. are.

As can be seen, production costs can be achieved with this block arrangement reduce and simplify maintenance and replacement of spare parts, because not only that Roll pairs, but also the individual blocks can be easily replaced can, since they are equally formed among themselves.

The three drive shafts 2, 3, 4 together with the rolling lines L1 and L2 form how Figure 1 shows, in vertical cross section, a structure in the form of an isosceles Pentagon.

Claims (5)

1. A compact roll stand arrangement for rolling adjacent strands L1, L2 of rolling stock that are received in parallel lines from a preprocessing system, wherein the roll stands (VL, VR, OR) comprise vertical and horizontal roller pairs (RR) that are arranged alternately in the rolling direction and coupled with drive shafts (2, 3, 4) that extend parallel to the rolling lines (L1, L2) via angular gears (c1, c2),
   characterized in that
   three mutually driven drive shafts (2, 3, 4) are, viewed in the axial direction, positioned relative to one another in such a way that the axial center of one drive shaft (2) lies in the upper corner of an upright isosceles triangle and the axial centers of the two other drive shafts (3, 4) lie in the lower corners of this triangle.
2. The compact roll stand arrangement according to Claim 1,
   characterized in that
   the roll stands (OR) for accommodating the horizontal roller pairs are coupled with the drive shaft (2), the axial center of which is positioned in the upper corner of the triangle, and in that the roll stands (VL, VR) for accommodating the vertical roller pairs are coupled with the drive shafts (3, 4), the axial centers of which are positioned in the two lower corners of the triangle.
3. The compact roll stand arrangement according to Claim 1,
   characterized in that
   the two drive shafts (3, 4), the axial centers of which are positioned in the two lower corners of the isosceles triangle, are respectively connected to and driven by an identical number of roll stands (VL, VR), and in that the drive shaft (2), the axial center of which is positioned in the upper corner of the triangle, is connected to and driven by twice this number of roll stands (OR), wherein these roll stands with their horizontal roller pairs are alternately assigned to one rolling line and the other rolling line (L1, L2).
4. The roll stand arrangement according to Claim 1, wherein the drive shafts of the roll stands are driven by a common motor,
   characterized in that
   the three drive shafts (2, 3, 4) respectively contain a cylindrical gear (21, 31, 41) that meshes with a cylindrical gear (11) arranged on the motor shaft (1).
5. The roll stand arrangement according to Claim 1,
   characterized in that
   the axial centers of the upper drive shaft (2) and the two lower drive shafts (3, 4) and the axial centers of the strand rolling lines are positioned relative to one another in such a way that they extend in the corners of a regular pentagon.

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