EP0286875A2 - Series of grooved rolls for rolling steel bars and roll stand hereto - Google Patents

Abstract

For rolling steel bars with grooved rolls 1,2, the rolls are provided with gradually increasing diameter zones I,II,III for pass incisions a,b,c in zones of equal diameter on each roll. Since the rolls can be operated in a mirror-inverted fashion and can be brought into a mutually complementary working position by a relative axial displacement and a screw-down movement, each rolled section can be allocated the roll-barrel diameter which brings ideal rolling conditions. <IMAGE>

Description

The invention relates to a caliber roll set for rolling steel bars in a roll stand provided with an adjusting device for the built-in rolls. Up to now, the rolls for profile rolling have always had the same roll bale diameter, the length of the roll bales being exploited in that the corresponding caliber cuts are provided for the different profiles. Each roll profile is therefore assigned the same roll diameter, which depends on the engagement conditions in the roll gap based on the thickest profile. According to Ekelund's formula, the so-called pressed length in the retracting roll gap, which is dependent on the stitch decrease, should be so large that the incoming rolling stock is drawn into the roll gap, i.e. the rollers "bite". However, the design of the roller diameter according to the thickest profile has the disadvantage that the roller diameter for lighter profiles is larger than an ideal engagement ratio requires. Furthermore, the proportion of width when rolling with rolls that are too thick increases compared to the stretching, so that the loss deformation increases and light profiles are rolled in an uneconomical manner.

The invention has for its object to provide a roll set for rolling steel bars with profiled rolls, in which each of the different rolled profiles can be rolled at least approximately under ideal rolling conditions. The solution to this problem consists of the characterizing features of claim 1.

The design of the rolls with gradually increasing diameter ranges opens the way to prescribe approximately the "correct" roll diameter for each roll profile. Step rollers of this type according to the invention are installed in the roll stand in such a way that in the axial central position of the roll bales the smallest roll diameter is opposite the largest roll diameter of the other roll. All that is then required is a relative axial displacement of the parts of each roller bearing the caliber incisions and a change in the center distance of the rollers in order to bring caliber incisions into a complementary operative position.

A configuration of the rolls with gradually increasing diameters can also be realized if the roll parts provided with caliber cuts have a frustoconical configuration. This has the advantage that an axial displacement of at least one roller can be accompanied by a corresponding correction of the center distance of the rollers by actuating the adjusting device, but this results in the disadvantage that the conical diameter regions of the rollers that have collided on either side of the complementary caliber incisions due to the Taper unequal diameter and thus receive different axial circumferential speeds, which can lead to wear.

As is known, the rollers can be formed in one piece, which, because of the large axial adjustment paths that are necessary, makes it seem expedient to insert the roller journals in axially immovable chocks. This is not necessary if according to the further Er Finding the roller parts with caliber incisions consist of sleeves which are axially displaceable on continuous shafts and rotatably connected or braced to the shafts.

It is expedient that the roller parts provided with caliber incisions are axially oppositely displaceable, so that the rolling line remains constant and the roller table entry and exit roller tables do not have to be shifted to the side and height.

The maintenance of the rolling line also has another aspect:
If the axial position of the rolls is set to the rolling of the lightest profile and thus have the smallest center distance, the diameter areas with the largest diameter must not touch the roll neck. However, in order to make full use of the basic idea of the invention, it is desirable not to choose the diameter steps too small. This then leads to the fact that the roller journals become so small in diameter that the rollers bend open and closed calibers open. In order to avoid this under all circumstances, the invention provides, provided that a fixed rolling line is provided, that the diameter range of each roller associated with the caliber incisions positioned on the complementary active position can be supported by adjustable support rollers. The roller journals or the continuous shafts can then be chosen so small in the interest of a clear diameter gradation that they can transmit the roller torque within the permissible torsional stresses. However, a drive via the support rollers is also conceivable, so that the diameter of the roller journals or the continuous shafts can also be selected independently of torsional stresses.

An advantageous clear diameter gradation of the profile rolls according to the invention can also be obtained without regard to the diameter of the roll neck by means of a roll stand in which the stepped rolls are mounted and driven in mirror image overhung in two drive housings, with at least one roll being radially adjustable and at least the other roll being axial is displaceable, and wherein the drive housing assigned to the upper roller has a recess in the axial direction of the lower roller, which allows the entry of smaller diameter areas of the lower roller when rolling the thickest profile. This type of stand is for wire rolling stands, i.e. for rolls without diameter gradation, known in principle.

In order to simultaneously change the distance of the stepped rollers in accordance with the jump in diameter when changing the profile with an axial displacement of a drive housing, it is advisable to move and clamp one or both drive housings on inclined base plates (claims 6 and 7). An opposite axial displacement of the rolls leads to the maintenance of the rolling line.

Instead of an eccentric adjustment for the one roller, via which the rollers can be temporarily released radially before a relative axial displacement due to the diameter gradations of the rollers according to the invention, adjustable adjusting wedges can also be provided between the inclined sole plates and the drive housings (claim 8).

• Fig. 1 einen Walzensatz mit stufenweise ansteigenden Durchmesserbereichen zum Walzen von drei unter­schiedlichen Profilen in der mittleren Axiallage,
• Fig. 2 den Walzensatz nach Fig. 1 in einer gegenläufig verschobenen Axiallage zum Walzen des dicksten Profils,
• Fig. 3 den Walzensatz nach Fig. 1 in einer gegenläufig verschobenen Axiallage zum Walzen des dünnsten Profils,
• Fig. 4 einen Walzensatz entsprechend Fig. 1 mit kegel­stumpfförmiger Konfiguration der mit Kaliber­einschnitten versehenen Walzen, und
• Fig. 5 die schematische Darstellung eines Walzgerüstes mit fliegend gelagerten und gegenläufig axial verschiebbaren Kaliberwalzen.

Some exemplary embodiments of the invention are shown in the drawing, namely:

• 1 is a set of rolls with gradually increasing diameter ranges for rolling three different profiles in the central axial position,
• 2 shows the roller set according to FIG. 1 in an oppositely displaced axial position for rolling the thickest profile,
• 3 shows the roller set according to FIG. 1 in an oppositely displaced axial position for rolling the thinnest profile,
• Fig. 4 is a set of rollers corresponding to Fig. 1 with a frustoconical configuration of the rollers provided with caliber cuts, and
• Fig. 5 is a schematic representation of a roll stand with overhung and axially displaceable caliber rolls.

In order to explain in more detail the essence of the invention, the configuration of parts of the rolls which are provided with stepwise increasing diameter areas and carry caliber incisions, reference is made to FIGS. 1 to 3. The rolls 1, 2 shown here are in one piece and have roll bales provided with caliber cuts a, b and c. The diameter incision a of the upper roller 1 is assigned a diameter range I with the smallest diameter Da, which is appropriate for the lightest of the rolled profiles. To the right there follows a diameter range II with a jump in diameter to Db, into which the caliber b is cut for a heavier rolled profile B. To roll the heaviest rolled section D, a circular caliber c is cut into the next diameter region III with the largest diameter Dc in the exemplary embodiment. The increasing diameter gradation from Da to Dc described does not need to be linear, rather what is decisive is which rolling profile in which diameter range should be rolled. The diameter of the diameter ranges is then selected taking into account the favorable engagement conditions which depend on the rolled profile and the pass reduction.

The lower roller 2 is of identical design, only reversed in such a way that the largest diameter range III lies on the left instead of on the right, i.e. with the mean relative axial position of the two rolls 1 and 2 in FIG. 1 compared to the diameter range I of the upper roll 1. If the axial distance WAb is set with this axial position of the rolls 1, 2, the caliber incisions b of both roll parts complement each other to form the square roll profile B. The diameter ranges II with their cylindrical surfaces lie opposite one another and have collided with one another during rolling in closed calibres. The cylindrical surfaces of the diameter ranges I and III are expediently slightly ground so that the surfaces opposite in FIG. 1 do not touch due to their inevitably different peripheral speeds.

In Fig. 2, the upper roller 1 is shifted to the left and the lower roller 2 to the right so far that the caliber incisions c complement each other for the heaviest rolled profile C in the active position. Before the axial displacement, the rolls had to be moved far enough apart by actuating the adjusting devices of the roll stand, in order then to set the center distance WAc, under which the cylindrical surfaces on both sides of the caliber incisions c moved together.

In Fig. 3 the caliber incisions a for rolling the lightest rolled profile A are positioned in a supplementary active position. This setting shows the already mentioned problem of the clear gradation in diameter and the thickness of the roll journals 1a and 2a. If a clear diameter gradation between the diameter ranges I for the lightest and III for the heaviest rolled profile (A or C) is to be provided in consistent use of the inventive concept, the shaft or journal diameter DW would have to be dimensioned so small that the largest diameter range III does not touch a roll neck or a shaft end, because the center distance WAa is minimal when rolling the lightest rolled profile A. Last but not least, these considerations led to the aforementioned concept of the four-high section roll stand (not shown) with preferably driven backup rolls.

FIG. 4 shows the frustoconical configuration of the rollers 11, 12 carrying roller incisions in the axial position according to FIG. 1 for the rolling of the middle rolled profile B. The axial displacement and adjustment of the rollers indicated by arrows for setting the active positions according to FIGS. 2 and 3 can be found in this "stepless" gradation of diameters can be done fairly simultaneously.

The roll stand shown schematically in FIG. 5 comprises two drive housings 3 and 4, in which the stepped rolls 1, 2 are mounted in mirror image according to the invention. The axial position of the two rollers is adjusted to the rolling of the thickest profile c, the smaller diameter ranges I, II (FIG. 1) of the lower roller 2 having entered a recess 5 in the drive housing 3.

In the exemplary embodiment, the drive housings 3 and 4 are displaceably guided on common, inclined base plates 6, 7 and can be clamped thereon by means of clamping devices 8, 9 which are shown in simplified form. In the drive housing 3, the upper roller 1 can be adjusted radially by means of eccentric bushes, not shown, in that a worm gear mechanism (not shown) of a geared motor 10 serves to rotate the eccentric bushes.

In the exemplary embodiment, stationary hydraulic servomotors 13, 14, which are carried by the substructure 15 for the inclined sole plates 6, 7, serve for the opposite axial displacement of the drive housing 3, 4 and thus the stepped roller 1, 2. The rolling line can be retained via the opposite axial displacement of the rollers 1, 2. Before each axial displacement of the rollers, the upper roller 1 has to be temporarily lifted or ventilated by means of the eccentric adjustment, not shown, so that the cylindrical roller bale surfaces come past one another on both sides of the caliber incisions during the axial displacement on an inclined plane. The dash-dotted lines 3ʹ and 4ʹ indicate the axial position of the drive housing 3 and 4, which they assume for rolling the smallest profile according to FIG. 3.

The upper roller 1 is driven directly via a variable-length joint spindle 16 from a comb roller stand, not shown. Another variable-length joint spindle 17 extends through the drive housing 3 and drives a gearwheel 18 shown in dashed lines in the drive housing 4, which meshes with a gearwheel 19 of the lower roller 2.

Claims (8)

1. caliber roll set for rolling bar steel in a roll stand provided with an adjusting device for the rolls,
characterized in that the rollers (1, 2, 11, 12) provided with caliber incisions (a, b, c) have a configuration with gradually increasing diameter ranges (I, II, III), in that corresponding calibers are cut into the same diameter ranges in rolls , and that the rollers can be operated in reverse, so that corresponding caliber incisions can be brought into complementary operative position by a relative axial displacement and adjustment of the rollers. 2. Roll set according to claim 1, characterized in that the rollers provided with caliber cuts (11, 12) have a frustoconical configuration (Fig. 4). 3. Roll set according to claim 1, characterized in that the rolls provided with caliber cuts consist of rolling sleeves which are axially displaceable on continuous shafts and rotatably connected or braced to the shafts 4. Roll stand for a roller set according to claim 1, characterized in that the rollers are axially displaceable in opposite directions and the complementary active position positioned caliber incisions assigned diameter range of each roller can be supported by adjustable outer support rollers. 5. Roll stand for a roller set according to claim 1, characterized in that the rollers (1,2) in two drive housings (3,4) are overhung and driven in mirror image, that at least one roller (1) is radially adjustable and at least the other roller (2) is axially displaceable, and that the drive housing (3) assigned to the upper roller (1) has a recess (5) in the axial direction of the lower roller (2) which prevents the entry of smaller diameter ranges (I, II) of the lower roller allowed when rolling the thickest profile (C). 6. Roll stand according to claim 5, characterized in that at least one axially displaceable drive housing (4) on inclined base plates (6) is guided and can be clamped thereon, and that the roller (1) mounted in the other drive housing (3) is radial via eccentric bushes is employable. 7. Roll stand according to claim 6, characterized in that both drive housings (3, 4) are guided on base plates (6, 7) inclined in the same direction and can be clamped to them by means of clamping devices (8, 9). 8. Roll stand according to claim 5, characterized in that both drive housings on axially oppositely inclined base plates are axially displaceably guided and can be clamped to the sen via clamping devices, and that adjusting wedges are arranged between the base plates and the drive housings which, when the clamping devices are released .... ....... .....

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