4-ROLL, 6-ROLL, 18-HS-ROLL STAND HAVING A CASSETTE-TYPE DESIGN

Abstract

The invention concerns a 4-high/6-high/18 HS cassette-type roll stand in which bending force is transmitted to bending journals (6) of roll inserts (7) by piston-cylinder units that are connected with Mae West blocks (3).

Description

The invention relates to a cassette-type 4-high/6-high/18 HS roll stand.

With known cassette-type 4/6-high 18 HS roll stands it is not possible to combine of the various operating modes such as CVC plus® four-high and/or 6-high, as well as also CVC plus® 18 HS.

An essential demand made of a combined roll stand is the possibility of switching between the two operating modes during a standard roll change without having to do any retrofitting steps on the stand.

It is therefore the object of the invention to be able to roll using different operating modes and roll diameters in a roll stand by minimizing the time periods required for retrofitting and thus correspondingly increase annual output.

This object is attained in accordance with the invention by a 4-roll/6-roll/18 HS cassette-type roll stand in which the bending force is transmitted by piston-cylinder units connected with Mae West blocks to the bending journals of the roll inserts such that the piston is connected fixedly with the Mae West block at the piston rod and that the cylinders fit around the bending journals at the inserts of the rolls, so that this way the bending force can be directly transmitted to the bending journals of the roll inserts.

Preferably, the piston rod of the bending cylinder of the upper roll and the piston rod of the lower roll are made of one piece.

According to a further embodiment the hydraulic supply for the front piston sides as well as for the back ring sides takes place by means of the piston rod.

The combined roll stand, as well as the reducing stand, and also the skin pass mill is to be used for mild steel, high strength steel, stainless steel and NE metals.

The work-roll sets of a 4-high or 6-high cassette-type roll stand can be changed with intermediate roll sets (including end support rolls) and the work rolls of the 18 HS stand.

The change position of the work-roll sets in the 4-high or 6-high stand is identical with the change position of the intermediate-roll sets in the 18 HS stand.

For both operating modes, the same axial displacement cylinders and bending cylinders are used. Large strokes are required for the bending cylinders in limited space at minimum roll diameters in the 4/6-high roll stand in order to cover both operating modes and the corresponding roll diameter configurations, as well as the common roll tool change position.

In known designs for bending cylinders, the cylinders are fixedly mounted in Mae West blocks and the bending force is transmitted to the bending journals of the roll inserts by the piston rods and an intermediate guide piece.

The bending concept in accordance with the invention is that the piston at the piston rod is fixedly connected with the Mae West block, i.e. that the cylinder is displaced.

The movable cylinders are pushed upward or downward. The cylinders are designed in such a way that they fit around the bending journals at the inserts of the rolls and that as a result, the bending force is transferred directly to the bending journals of the roll inserts.

The piston rod of the bending cylinder of the upper roll and the piston rod of the bending cylinder of the lower rolls are made of one piece.

The hydraulic supply for the piston sides as well as for the ring sides takes place is through the piston rod.

This bending concept permits large strokes in a compact design, ideal for use in combination roll stands. This way, the work rolls in the four-roll or six-roll roll stand, as well as also the intermediate rolls in the 18 HS roll stand, can be raised or lowered to the height required for changing the rolls, and then be changed as a complete set with the same carriage. Due to the cassette construction of the roll sets, the time required for switching between operating modes is reduced to the time required for a normal roll change.

Only as a result of this bending concept is it possible to have a cassette-type roll stand for both operating modes, for CVC plus® 4-high or 6-high, as well as CVC plus® 18 HS.

In the following, the invention will be explained in more detail with reference to the drawings. Therein:

FIG. 1 a is a schematic view of a roll stand in 18 HS setup,

FIG. 1 b is a schematic view of a roll stand in 4-high setup,

FIG. 1 c is a schematic view of a roll stand in 6-high setup.

Piston rods 1 are solidly retained by holder blocks 2 in respective Mae West blocks 3. Their cylinders 4 move vertically in guides in the respective Mae West blocks 3 as the result of the application of pressure to the piston side or ring side, and transmit by means of the seats 5 in the cylinders 4 bending forces to journals 6 of the roll inserts 7 to these, and correspondingly to the roll journals of the intermediate roll 8 in the 18 HS roll stand (FIG. 1a) or the work roll 9 in the 4-high roll stand (FIG. 1b) or 10 in the 6-high roll stand (FIG. 1c).

Claims

1. A cassette-type 4-high/6-high/18 HS roll stand in which a bending force is transmitted by piston-cylinder units connected with Mae West blocks to bending journals of roll inserts, wherein the piston rod is fixedly connected with the Mae West block and that the cylinders fit around the bending journals at the inserts of the rolls, so that thereby the bending force can be transmitted directly to the bending journals of the roll inserts.

2. The 4-high/6-high/18 HS roll stand according to claim 1, wherein the piston rod of the bending cylinder of the upper roll and the piston rod of the lower roll are made of one piece.

3. The 4-high/6-high/18 HS roll stand according to claim 1, wherein the hydraulic supply for the piston side as well as for the ring side takes place by means of the piston rod.