EP1251984A1 - Roller-equipped guide segment in a continuous casting facility - Google Patents

Abstract

The invention relates to a guide segment fitted with rollers on a continuous casting installation. In order to be able to accommodate as high mechanical loads as possible so as to accommodate the supporting force, at least some rollers are split up into three axially aligned roller bodies (4a, 5, 6). Only the outer roller bodies (4, 6) are axially fixed by means of their outer bearings designed as fixed bearings, whereas the middle roller body (5) is mounted in a floating manner. All the inner bearings (4b, 6a) of the outer roller bodies (4, 6) designed as movable bearings and the two bearings (8b, 9a) of the middle roller body are designed as movable bearings with high loading capacity, in particular as CARB bearings. The free axial mobility of the middle roller body (5) mounted in a floating manner is limited by stops (11, 12a, 12b, 13) designed as butting discs arranged between the end faces of the middle roller body (5) and the outer roller bodies (4, 6) lying opposite one another.

Description

Guideway segment with castings on a continuous caster

The invention relates to a guide segment on a continuous casting installation, in which at least some rollers each comprise at least two aligned roller bodies mounted with end roller journals in inner and outer bearings, the inner bearings being designed as floating bearings in the form of full-complement high-performance bearings and the outer bearings as fixed bearings.

Guide segments equipped with rollers on continuous casting plants serve to transfer the band-shaped strand emerging from the mold with a still liquid core via an arc from the vertical to the horizontal. The resulting mechanical load on the roller bearings is high, especially on the outer curve of the guide. It is therefore customary not to equip the guide segments with one-part rolls that extend over the entire strand width, but with multi-part, in particular with two aligned roll cores. Since on the one hand the rollers have to be axially fixed and on the other hand fixed bearings, which fulfill this task, can withstand less mechanical stress than full-complement high-performance bearings available in the form of floating bearings, such as CARB bearings from the SKF company Assembly of guide segments with rollers has started to use two aligned roller bodies per roller, the outer bearings of which are designed as fixed bearings and the inner bearings of which are designed as floating bearings in the form of full complement CARB bearings. With the formation of the bottom bracket As a special floating bearing, the higher load on the roll from the strand in the area of the middle of the strand is taken into account.

In the areas of the sheet guide which are particularly mechanically stressed, in particular on the outer sheet, two aligned roll bodies per roll are not sufficient to support the strand, especially in the case of relatively wide strands. That is why in the past, three aligned roller bodies were used per role in these areas. However, since the mechanically high loadable full complement high-performance bearings only tolerate a limited axial relative displacement of their races and therefore, with two aligned roller bodies, each roller body is axially fixed at one end with a fixed bearing, the application of the bearing principle "one fixed and one floating bearing for each roller body" for the middle roller body because of the lower load capacity of the fixed bearing did not lead to the desired success of an overall higher load capacity of the roller.

The object of the invention is to create a guide segment with a green cast on a continuous caster, which can be subjected to higher mechanical loads in comparison to a guide segment with two roller bodies per roller.

This object is achieved according to the invention in a guide segment of the type mentioned at the outset in that between the two roller bodies and in alignment with them a further roller body with its two end-side roller journals in floating bearings in the form of full complement high performance bearings axially floating is mounted, the free axial mobility of the middle roller body is limited by effective stops between the inner roller journals of the outer roller bodies and the two roller journals of the middle roller body.

In the guide segment according to the invention, the higher load-bearing capacity of the at least three-part roller is achieved in that only the highly resilient full-complement floating bearings are used in the middle support region of the strand, where the roller must exert the greatest supporting force. Currently, the so-called CARB bearings from SKF are available. However, it is conceivable that other floating bearings comparable in terms of their load-bearing capacity can be used. The permitted axial mobility for these floating bearings is limited only by the external fixed bearings of the outer roller bodies. In the case of the outer roller bodies, this takes place directly via their outer fixed bearings and in the case of the middle roller body via the stops on the axially fixed outer roller bodies.

As is known per se, the fixed bearings are preferably spherical roller bearings.

In terms of design, the axial mobility of the middle roller body can be limited by the fact that the two inner roller journals of the outer roller body and / or αie roller journals of the middle roller body carry thrust washers on their end faces which limit the axial play of the middle roller body in such a way that it is cold when the Roller body <the permissible axial mobility of the floating bearings of the middle roller body and> than the sum of the maximum axial thermal expansion of the roller body.

In order to have the rollers optimally stored at operating temperature, it is provided according to an embodiment of the invention that the bearing rings of the floating bearings of the outer roller bodies are axially offset from one another in their cold state in such a way that they are in their warm storage position in their optimal storage position.

The invention is explained in more detail below with the aid of a drawing which represents an exemplary embodiment. In detail show:

FIG. 1 shows a continuous casting installation with a mold and an arcuate strand guide formed by guide segments in a schematic side view,

Figure 2 one in a segment, made of three

Role bodies existing role in axial section

and

Figure 3 shows the left outer roller body of the roller with bearings according to Figure 2 in axial section in an enlarged view.

In the continuous casting installation according to FIG. 1, a strip-shaped strand 2 cast in a mold 1 with a curved guide 3 formed from guide segments 3a, 3b is deflected from the vertical m to the horizontal. The individual guide segments 3a, 3b support the strand 2 on its broad sides with rollers. The roles apply the greatest support force in the middle of the strand. One of these rollers, for example one of the rollers arranged on the outer curve of the sheet guide 3, is shown in detail in FIG.

The roller according to FIG. 2 consists of three aligned roller cores 4, 5, 6, each of which is supported by roller ends 4a, 4b, 5a, 5b, 6a, 6b in roller bearings 7a, 8a, 8b, 9a, 9b, 10a are supported by bearing blocks 7,8,9,10 of the guide segment 3b. The outer bearings 7a, 10a of the two outer roller bodies 4, 6 are designed as fixed bearings, while all other bearings 8a, 8b, 9a, 9b are designed as floating bearings.

The two fixed bearings 7a, 10a are conventional spherical roller bearings, by means of which the bearing pins 4a, 6b are axially fixed in the guide segment relative to their bearing blocks 7, 10. All other bearings 8a, 8b, 9a, 9b are designed as special heavy-duty floating bearings. In particular, full complement roller bearings with slightly spherical rollers are suitable which, with a comparatively high load capacity, are able to compensate for misalignments and axial displacements. this

Quality requirements currently meet, for example, SKF CARB bearings. Thus, in the case of the floating bearings δa, 8b, 9a, 9b of the exemplary embodiment, the inner bearing ring on the roller journal 4b, 5a, 5b, 6a can move axially and be skewed relative to the outer bearing ring fixed in the bearing block 8,9.

Since the middle roller body 5 is supported with both roller journals 5a, 5b in floating bearings 8b, 9a, the roller body 5 has a floating bearing. The axial mobility of this floating roller body - c

5 must be limited so that the floating bearings 8b, 9a are not overloaded by excessive axial displacement. For this purpose, the mutually facing end faces of the journals 4a, 5a, 5b, 6a carry screwed-on thrust washers 11, 12a, 12b, 13. The drawing shows the initial state without cold roller bodies 4, 5, 6. As can be seen, the thrust washers 11, 12a, 12b, 13 facing each other have a certain axial distance from one another. This is; dimensioned so that the floating roller body 5 are displaced in one or the other axial direction by only one path, which is at most equal to the maximum permissible axial for its floating bearings. However, it is sufficiently large to be able to accommodate the expected maximum axial displacement of the roller bodies 4, 5, 6 with their roller journals 4a, 5a, 5b, 6b as a result of thermal expansions. It goes without saying that the thermal expansion can be influenced by targeted cooling of the roller body, especially can be kept within certain limits.

In addition, the illustration in FIG. 3, which shows the installation situation in the cold state of the roller bodies 4, 5, 6, shows that the bearing rings of the inner floating bearing 8a of the outer roller body 4 are axially offset from one another by a certain amount. A corresponding axial offset is provided in the bearing rings of the floating bearing 9b of the other roller body 6 not shown in FIG. 3. This axial offset is dimensioned such that the bearing rings of the floating bearings 8a, 9b are in their optimal bearing position with respect to one another when the roller cores 4, 6 are at operating temperature.

Claims

EXPECTATIONS

1.Room-equipped guide segment (3a, 3b) on a continuous caster, in which at least some rollers each have at least two aligned ones with end-mounted roller journals (4b, 6a) in inner (6a, 8a) and outer bearings

7a, 10a) include roller bodies (4, 5, 6), wherein the inner bearings (4b, 5a, 5b, 6a) as floating bearings in the form of full complement high performance bearings and the outer bearings

7a, 10a) are designed as fixed bearings, characterized in that between the two roller bodies (4, 6) and in alignment with them, another roller body (5) with its two end-side roller journals (5a, 5b) in floating bearings (8b, 9a) in shape of full complement high-performance bearings is axially floating, the free axial mobility of the central roller body (5) being between the inner roller journals (4b, 6a) of the outer roller bodies (4,6) and the two roller journals

5a, 5b) of the central roller body (5) effective stops (11, 12a, 12b, 13) is limited.

2. Guide segment according to claim 1, d a d u r c h g e k e n n z e i c h n e t that the

Fixed bearings (7,10) are designed as spherical roller bearings.

3. Guide segment according to claim 1 or 2, characterized in that the ceiden outer roller journals (5a, 5b) of the central roller body (5) and / or the inner Roller journals (4b, 6a) of the outer roller bodies (4, 6) carry on their end faces the stops (11, 12a, 12b, 13) designed as thrust washers, which limit the axial play of the middle roller body (5) in such a way that it is cold Condition of the roller body (4,5,6) <the permissible axial mobility of the floating bearings of the middle roller body (5) and> as the sum of the maximum axial thermal expansion of the roller body

4. Guide segment according to one of claims 1 to 2, d a d u r c h g e k e n n z e i c h n e t that the

Bearing rings of the floating bearings of the outer roller bodies (4, 6) in the cold state are axially offset from one another in such a way that they are in the warm state in their optimal storage position.