EP0042124A1 - Roll for a double two-high reversing roll stand with counter-rotating pairs of rolls - Google Patents

Abstract

Roll for a double two-high reversing mill for rolling down preliminary sections or semi-finished products, which has adjacent live and blind grooves, the blind groove/s permitting passage of the rolling stock between a continuously driven pair of rolls counter to the rolling direction of the latter. In order to provide the rolling stock with additional guidance in the region of the blind groove, the roll is of multi-part design and has a core shaft (30) to which at least one roll ring (31, 32) is connected in a manner fixed in terms of rotation, which ring, with its groove cut (24, 28), forms a live groove, whereas the adjacent blind groove (25, 27) is cut into a blind-groove ring (33, 34) freely rotatable on the core shaft. As regards their cuts, the exchangeable blind-groove rings can be designed in such a way that they are capable of guiding the rolling stock coming from an aligned live groove (24 and 28 respectively) of an upstream pair of rolls, in that, due to contact with the rolling stock, the blind-groove rings take on the direction of rotation corresponding to the rolling direction. <IMAGE>

Description

The invention relates to a roller for a double-duo reversing roll stand for rolling out pre-profiles or semi-finished products for a bar mill with two constantly driven by a three-phase motor, in the rolling direction one after the other arranged roller pairs with opposite rolling direction and in pairs with each other different calibres, each of which Caliber with the opposite direction of rotation of the associated pair of rollers is blind caliber, so that each roller alternately has adjacent working and blind calibers. Such a "double duo counter-stitch rolling stand" has become known from DE-OS 2 057 960. According to this prior art, blind calibers are cut into the other one of the two rollers in the line of alignment of one working caliber, with the aim of avoiding that the rolling stock touches one of the two rollers which rotate counter to the respective rolling direction.

Since the rolls in the known counterstitch roll stand are massive rolls, the blind calibers must be cut so deep that they still act as blind calibers even if the working calibers are worn down to the narrowest possible roll distance due to wear. If one considers that the rolling stock passing through a blind caliber can sag downwards, it is understandable that the blind caliber incisions are made particularly deep, at least in the lower rolls must be avoided in order to avoid any contact between the rolling stock and oppositely rotating blank caliber surfaces. It is therefore also recommended in DE-OS 2 057 960 to place the roller pairs as close as possible to one another so that the rolling stock passing through a blind caliber correctly meets a rolling stock guide on the outlet side.

It was recognized that in a double duo counter-pass rolling mill according to the state of the art, the guide-free area between the working caliber and the rolling stock guide on the outlet side is too large to ensure that the rolling stock enters the outlet side guide properly. The invention according to DE-OS 2 057 960 is therefore aimed at improving the accessibility to the individual roller pairs in order to quickly eliminate faults. The invention is therefore based on the object of giving the rolling stock an additional guide in the area of the respective blind caliber, which ensures trouble-free entry of the rolling stock into a guide on the exit side.

The solution to this problem consists in the use of a known multi-part design of a roller with caliber incisions, with roller rings connected to a core shaft in a rotationally fixed manner, with the proviso that the blind calibers are cut into blind-caliber rings which can be freely rotated on the core shaft and whose caliber dimensions are only so much larger than the working caliber aligned with them, that the blind calibers act as guides for the rolling stock. The multi-part design of the roller also makes it easy to replace the blind caliber rings, so that they can be adjusted by changing them depending on the grinding of the working calibers according to their management task. The bale length occupied with blind calibres is therefore no longer completely useless, as is the case with solid rollers according to the prior art. The freely rotatable blind caliber rings should at least be able to be touched by a running roller rod when a rod tries to break out. Your free Rotatability gives them the character of a drag roller, which is set in rotation by the rolling stock, even though the core shaft of the rollers has the opposite direction of rotation.

What has been done so far with regard to the safe meeting of a lead-side guide, conversely applies to the counter-stitch for the safe meeting of the working caliber if the rolling stock passes the blind caliber in front of the working caliber in the case of the counter-stitch.

As the blind caliber rings have an approximately double relative speed compared to the core shaft rotating in the opposite direction to the rolling direction, special attention must be paid to the material selection and the lubrication between the blind caliber rings and the seat on the core shaft. Since the blind caliber rings only have management tasks, so they do not have to transmit any rolling force and have to perform shaping work, they can be provided with openings for the passage of splash water for lubrication purposes. Alternatively or additionally, it is conceivable to provide the core shaft with a central bore for supplying a lubricating liquid, preferably water, from which radial bores in the area of the blind caliber rings extend which extend into the running seat of the blind caliber rings.

In the case of multi-part rollers, there are various options for the rotationally fixed connection between the roller bodies or caliber rings and the core shaft. One option that is particularly preferred for hard metal is to keep the roller bodies or working caliber rings in a rotationally fixed connection with the core shaft exclusively by compressive stresses between plane-parallel end faces, the compressive stresses being generated by relaxing the elastically pre-stretched core shaft (DE-PS 1 286 490). The elastic pre-expansion of the core shaft is usually generated using a so-called hydraulic nut. In order to be able to use this type of jamming of the working caliber rings in a roller according to the invention, see Invention before that the blind caliber rings are arranged on bearing sleeves, which are designed to transmit the compressive stress to an adjacent working caliber ring or between two working caliber rings.

In order to provide sufficiently large end faces for the transmission of axial pressure forces on the bearing sleeves, the invention provides that the bearing sleeves are provided on both sides with pressure flanges enclosing the blind caliber rings and the blind caliber rings are designed as divided rings, the clamping elements of which are arranged outside the blind caliber incision. As a result, the bearing sleeves themselves do not have to be axially divided, which is conceivable and allows one-piece blind-caliber rings, but the axial division of the bearing sleeves would create additional separation points with the corresponding additional elasticities that are not desired in the system of a prestressed multi-part roller. In addition, the split design of the blind caliber rings allows them to be easily replaced after grinding the working caliber rings, which advantage can also be used if non-rotatable connections between the working caliber rings and the core shaft are provided by some form fit.

• Fig. 1 eine Draufsicht auf die Unterwalzen eines Doppel-Duo-Gegenstich-Walzgerüstes gemäß der DE-OS 2 057 960,
• Fig. 2 zwei Unterwalzen für ein Gerüst nach Fig. 1 gemäß der Erfindung, teilweise in Ansicht und teilweise im Längsschnitt, und
• Fig. 3 einen Querschnitt nach der Linie III-III in Fig. 2.

In the drawing, an embodiment of a multi-part roller according to the invention is shown in comparison to the prior art, namely show

• 1 is a plan view of the bottom rolls of a double duo counter-stitch rolling stand according to DE-OS 2 057 960,
• Fig. 2 two lower rollers for a scaffold according to FIG. 1 according to the invention, partly in view and partly in longitudinal section, and
• 3 shows a cross section along the line III-III in FIG. 2.

1, for which novel rolling according to the invention are to be used, consists of two stands 1 and 2 and two roller pairs 3 and 4 arranged one behind the other in the running direction of the rolling stock which only the lower rollers 5, 6 are shown in Fig. 1. The roller pairs 3 and 4 are driven in pairs in opposite directions from a three-phase motor 7 via a four-roller comb roller stand 8, as indicated for the lower rollers 5, 6 by the arrows A and B. Reversible conveying means are indicated on both sides of the roll stand, which for the sake of simplicity are shown as roller tables 9 and 10, in the area of which, depending on the rolling program, transverse towing devices and folding devices are also provided. Each of the massive rollers 5, 6 is alternately provided with incisions 11, 12, 13 for working calibers and incisions 14, 15, 16 for blind calibers over the length, in such a way that with an operating caliber on one roller an oppositely rotating blind caliber on the another roller is arranged. The upper rolls, not shown, have the same caliber incisions as the associated lower roll 5 or 6.

The operation of such a known double duo counterstitch rolling stand is that if, under the roller table 9, rolling rods 11 and 13 are simultaneously inserted into the working calibers, these can be touched without touching the flush but oppositely rotating blind calibres 14 and 16 Get roller table 10. The blind calibers 14, 16 must be correspondingly deep, taking into account the roll grinding in order to restore worn working calibers. While the rolled rod processed in the smallest working caliber 13 is discharged to the finishing mill via the rolling gear 10, a rolling rod coming from the first working caliber 11 on the roller table 10 must be in front of the second working caliber Be towed over 12 and folded if necessary. The same applies to this rolling rod if, after passing through the blind caliber 15, it reaches the reversible roller table 9 and has to be brought in front of the last working caliber 13. In practice it is possible to machine 11, 12 and 13 rolled bars simultaneously in all three working calibers. All of this is known.

In Fig. 2 bottom rolls according to the invention are shown with blind calibres which allow contact with the rolling stock in spite of the rolls rotating in opposite directions. For the sake of simplicity, the lower rollers in FIG. 2 are only designed for a counter-stitch in that the pair of rollers 23 on the inlet side with the direction of rotation A of the lower roller has only one working caliber 24 and one blind caliber 25. The counter-rotating roller pair 26, which is arranged at the same height behind the roller pair 23 and has the opposite direction of rotation B of the lower roller, has a blind caliber 27 aligned with the working caliber 24 and an adjacent working caliber 28, which in turn is aligned with the blind caliber 25 of the roller pair 23.

As can be seen in particular from the sectional view of the lower roller belonging to the pair of rollers 23, the rollers are constructed in several parts. They consist of a core shaft 30 which is offset from a drive-side roll neck 30a to create an impact collar and to which the roll rings 31 and 32 carrying the caliber cuts 24 and 28 are connected in a rotationally fixed manner. The blind caliber incisions 25 and 27 are formed by blind caliber rings 33 and 34, which are freely rotatable on the core shafts 30 and are mounted on bearing sleeves 35 and 36, respectively, which run around. The bearing sleeves are provided on both sides with pressure flanges 35a and 36a enclosing the blind caliber rings, the blind caliber rings advantageously being designed as divided rings, as is shown for the blind caliber ring 33 in FIG. 3. This ring consists of the ring halves 33a, 33b, which can be clamped together using clamping screws 40, 41 are. These tensioning screws are expediently arranged in the lateral flange regions lying outside the blind caliber 25, as the cut III-III in FIG. 2 shows.

To lubricate the barrel seat of a blind caliber ring, for example 33, this is provided with radial openings 42 reaching through to the bearing sleeve 35 for the passage of splash water. Another possibility of lubricating the freely rotatable blind caliber rings results from the representation of the lower roller to the pair of rollers 26. Here, the core shaft 30 has a central bore 43 for supplying a lubricating liquid, preferably water, from which radial bores 44 extend in the area of the blind caliber ring 34. which pass through the bearing sleeve 36 and extend into the running seat of the blind caliber ring 34.

As far as the rotationally fixed connection of the working caliber rings 31 and 32 is concerned, a known system has been used in which the working caliber rings 31 and 32 are connected to their core shafts 30 in a rotationally fixed manner exclusively by compressive stresses between plane-parallel end faces. The compressive stresses are generated in that a known hydraulic nut is placed on the drive-free pin 30b of a core shaft 30, the hydraulic pressure of which against the left end face 32a of the working ring 32 or - based on the rollers of the pair of rollers 23 - against the left end face of the pressure flange 35 the bearing sleeve 35 acts. The hydraulic clamping pressure ultimately finds its abutment on the offset collar of the drive-side roll neck 30,

whereby a core shaft 30 is elastically stretched. In this pre-stretched state, in addition to the working caliber ring 26 or the bearing sleeve 35 of the freely rotatable blind caliber ring 33, a divided ring can be inserted into a suitable groove in the core shaft, so that all parts subjected to compressive stress remain under sufficient compressive stress when the clamping pressure is applied Hydraulic nut is omitted and this is dismantled. The bearing sleeves 35 and 36 must be dimensioned according to the pressure forces that they have to transmit.

The line train 50, 51, 52 indicates the path of a rolling rod when it is brought to the tapping in the working caliber 24, guided in the aligned blind caliber 27, then towed in front of the working caliber 28 and then rolled there until it is guided under the blind caliber 25 expires. It is understood that, in accordance with Fig. 1, the rollers can also have two or more working caliber rings or blind caliber rings, the core shafts then expediently being gradually offset in order to assign each working caliber ring and each bearing sleeve a separate seat on the core shaft.

Claims (5)

1.Roller for a double-duo-reversing roll stand for rolling out pre-profiles or semi-finished products with two roller pairs (23, 26), which are constantly driven by a three-phase motor (7) and are arranged one after the other in the rolling direction, with opposite rolling directions (A, B) and in pairs with one another aligned different calibers, of which the caliber with the opposite direction of rotation of the associated pair of rollers is blind caliber, so that each roller alternately has adjacent working and blind calibers, characterized by the use of a known multi-part design of the roller with caliber cuts (24, 28) bearing, with a core shaft (30) non-rotatably connected rolling rings (31, 32), in which the blind calibers (25, 27) are cut into blind caliber rings (33, 34) which can be freely rotated on the core shaft, the caliber dimensions of which are only so much larger than the working caliber aligned with them, the blind calibers as guides n act on the rolling stock. 2. Roller according to claim 1, characterized in that the blind caliber rings (33, 34) for lubrication purposes have openings (42) for the passage of spray water. 3. Roller according to claim 1, characterized in that the core shaft (30) is provided with a central bore (43) for supplying a lubricating liquid, preferably water, from which radial bores (44) extend in the region of the blind caliber rings (34) that extend into the seat of the blind caliber rings. 4. Roller according to claim 1 with 2 or 3, in which the working caliber rings (31, 32) exclusively by compressive stresses between plane-parallel end faces in a rotationally fixed Connected to the core shaft (30), which are created by relaxing the elastically pre-stretched core shaft, characterized in that the blind caliber rings (33, 34) are arranged on bearing sleeves (35, 36) which are designed to transmit the compressive stress. 5. Roller according to claim 4, characterized in that the bearing sleeves (35, 36) on both sides with the blank caliber rings enclosing pressure flanges (35a, 36a) and the blind caliber rings (33, 34) are designed as split rings, the clamping elements (40, 41 ) are arranged outside the blind caliber incision (25 or 27).

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