EP1142659A1 - Support bearing for rolls - Google Patents

Abstract

Supporting bearing has a bearing block (1) with pins (3, 3.1, 3.2) on which the roller bearing (4, 4') is arranged. The pins protrude into a recess (5, 6) of the rollers that the roller bearing is completely covered by the rollers (7, 8). Preferred Features: The pins are an integral part of the bearing block. A seal is arranged in the contact region of rollers, bearing block and/or bearing block element (1.1, 1.2). The bearing block has channels for the introduction and removal of a coolant.

Description

The invention relates to a support bearing for rollers, in particular strand guide rollers in a continuous steel caster for slabs according to the preamble of Claim 1.

When transporting goods on rolls, depending on the nature of the goods, it is from Meaning that the support is as large as possible and without gaps. In the case of Depending on the degree of cooling, the transport of slabs cast in continuous casting is the solidified strand shell of different thickness and susceptible to cracking. For this reason the diameter of the rolls is so small for the first and second strand guide frames chosen as possible so that the distance of the slabs supporting Surface lines of two successive roles is as small as possible. There in one Continuous caster of different widths must be cast, the system for the largest width to be cast. This maximum width in the order of magnitude of 2.8 m can usually not be from a roll only on two sides be bridged, since the deflection becomes too great due to the load. The Problem is solved in such a way that the role in two or more independently sections rotatable from each other is divided, each section usually in is stored in both end areas. The separation point forms depending on the training of Support bearing a more or less large gap in the support of the transporting good, so that one strives to keep this gap as small as possible do.

From DE-OS 274 2570 a guide role for continuous steel casting plants is known, which is divided into individual sections. The individual sections are connected in such a way that the one section identifies a peg that fits into a engages complementary recess of the adjacent roller section. On the Pins are arranged next to each other two bearings, the one in the initial area of the Spigot lying bearing is designed as a support bearing. It has a spherical roller bearing on whose inner ring is on the pin and whose outer ring is in Support housing of the support bearing. The bearing housing is made in one piece and can be closed with a lid on the open side. To protect the Spherical roller bearings are arranged in the bearing housing and in the cover sealing elements. The second bearing is preferably designed as a spherical bearing, the Inner ring on the pin and its outer ring on the inside of the supports adjacent roller section. A disadvantage of this known Arrangement is the complex construction of the support bearing with many items to be kept. Furthermore, it is not possible with this construction an offset of two adjacent, but differently worn and to compensate for reworked roller sections. Another disadvantage is that the Cross section for the collar-shaped pin must be chosen large, so that the bearing dimensions are large. This in turn leads to big ones Reel diameters, but with regard to the support possibility of the transporting goods are unfavorable.

The object of the invention is in particular a support bearing for rollers Strand guide rolls in a steel continuous caster for slabs to indicate that is small and has a small gap for two adjacent roles. Another task is to easily offset two to compensate for differently worn adjacent roles.

This task is based on the generic term in conjunction with the characterizing features of claim 1 solved. Advantageous further training are the subject of subclaims.

According to the teaching of the invention, the bearing block has at least one pin which the roller bearing is arranged and the complementary in an axially aligned Recess of the role protrudes so far that at least the rolling bearing through the Roll is completely covered. The rolling bearing is known as toroidal Roller bearings trained. This design is better known under the brand name Carb from SKF. The proposed arrangement has the advantage that the structure very simple and the number of parts to be kept small. With that the Maintenance effort reduced. The support bearing can be made using toroidal roller bearings can be designed so that the diameter of the Role is also low. Another advantage is that both toroidal roller bearings allows an axial displacement as well as an inclination of the rollers. This Mobility is particularly important when transporting hot slabs because on the one hand the rollers expand under the influence of heat and on the other hand they expand also bend through the load of the slabs.

According to a further feature of the invention, the bearing block is in the transverse plane divided symmetrically and both mirrored and contiguous Bearing bracket elements are by fasteners, preferably screws blocked together. To the offset differently worn and to compensate for reworked roles, the screws extend through in both Bearing block elements arranged holes, whose inner diameter is larger than the shaft diameter of the screws.

Depending on requirements, the bearing block can also be cooled. This is in the bearing block or at least one channel for the supply and discharge in the respective bracket element a coolant provided. This arrangement is independent of the The roll can be cooled, but can also be integrated with it.

To protect the rolling bearing, the roller extends across the rolling bearing to the starting area of the bearing block or bearing block element. In the contact area Roller bearing block or bearing block element is preferably a grease lubricant Seal arranged.

Figur 1

in einem Längsschnitt eine erste Ausführungsform eines erfindungsgemäß ausgebildeten Stützlagers

Figur 2

wie Fig. 1 eine zweite Ausführungsform

Figur 3

wie Figur 1, aber mit Kühlung und Abdichtung

Figur 4

wie Figur 2, aber mit Kühlung und Abdichtung

Further features, advantages and details of the invention result from the following description of exemplary embodiments shown in a drawing. Show it:

Figure 1

in a longitudinal section a first embodiment of a support bearing designed according to the invention

Figure 2

1 shows a second embodiment

Figure 3

like Figure 1, but with cooling and sealing

Figure 4

like Figure 2, but with cooling and sealing

In Figure 1 is a longitudinal section of a first embodiment of a Support bearing designed according to the invention is shown. It is this Embodiment of a one-piece bearing block 1 with a transverse Bore 2 through which a pin formed as a pin 3 is pressed. On the over the bearing block 1 projecting pin element 3.1 or 3.2 is a roller bearing 4, 4 'arranged. The respective roller bearing 4, 4 'is preferably a small one toroidal roller bearing (carb) formed. The pin element 3.1 or 3.2 protrudes into a complementary recess 5, 6 of the respective roller 7, 8 into it. The depth of the Recess 5, 6 is selected such that the end region 7.1, 8.1 of the respective roller 7, 8 extends at least over the roller bearing 4, 4 '. The extends preferably End region 7.1, 8.1 of the respective roll 7, 8 up to the start region of the Bearing bracket 1. The necessary seals are not shown in this figure for the rolling bearing, as well as the possibility of a lubricant delivery.

The proposed arrangement allowed the required gap 9 between the two adjacent rollers 7, 8 is small. While she is usually 150mm to 200mm, it can in this way to a value < Can be reduced by 50mm. Another advantage is that the sensitive roller bearings 4, 4 'in the case of hot slab transport before direct heat radiation are protected, especially since the rollers 7, 8 are usually also cooled.

Figure 2 shows a second embodiment, the same for the same parts Reference numerals have been chosen. In this example, the bearing block is in the Transverse plane divided symmetrically and has two mirror images Bearing block elements 1.1, 1.2. The pin element 3.1 or 3.2 is, as here shown, integral part of the respective bracket element 1.1, 1.2, can but also, as shown in Figure 1, as a bolt in a corresponding bore of the Bearing block element 1.1, 1.2 be pressed. The two bracket elements 1.1, 1.2 are locked together with screws 10 (only one shown here).

On the continuous steel caster, usually different Slab widths poured so that the rollers 7, 8 are applied differently and be worn out. In the event that the roller 8 on the right is stronger is worn, it is turned over after removal and can then be used for another Production cycle can be used. The roll 7 to the left here resulting jump in diameter must be compensated in some way. For this purpose, the bores 11, 12 of the respective bracket element 1.1, 1.2 the screws 10 are inserted, a larger inner diameter than that Shaft diameter of the screws 10. In this way it is possible to use the two bearing block elements 1.1, 1.2 lying against each other by a few millimeters to move. The offset is chosen so that the two are on top Surface lines 13, 14 of the respective roll 7, 8 are aligned, i.e. lie at the same height. For this purpose, one or more are located on the bearing block element 1.1, 1.2 on the right Spacer plates 15 underlaid.

Figure 3 shows in a longitudinal section a comparable embodiment as Figure 1, but with cooling and sealing. For this purpose, the bearing block 1 has at least one cooling channel 16 for the supply and a cooling channel 17 for the removal of the coolant. For the Cooling of the bearing block area most exposed to heat radiation is an annular channel 18 is provided. In the contact area between the respective end area 7.1.8.1 of the roller 7.8 and the bearing block 1, a seal 19.1.19.2 is arranged. she is to prevent dirt from getting into the rolling bearing area from the outside.

FIG. 4 shows a comparable embodiment as shown in FIG. 2, but with Cooling and sealing. In this case, each bracket element 1.1.1.2 has one Cooling channel 16.1,16.2 for the supply and one cooling channel 17.1,17.2 for the removal of the Coolant. An annular channel 18.1, 18.2 is provided in the jacket area. The Contact area between the bearing block element 1.1.1.2 and the end area 7.1.8.2 each roller 7,8 is provided with a seal 19.1,19.2. A is indicated here Channel 19.1, 19.2 leading channel 20.1, 20.2 to grease as a sealant to be able to deliver later.

Claims (11)

Support bearings for rollers, in particular strand guide rollers in a steel continuous casting installation for slabs with a bearing block and roller bearings arranged on pins,
characterized in that the bearing block (1, 1.1, 1.2) has at least one pin (3, 3.1, 3.2) on which the roller bearing (4, 4 ') is arranged and the pin (3, 3.1, 3.2) in an axis lying complementary recess (5, 6) of the roller (7, 8) protrudes so far that at least the roller bearing (4, 4 ') is completely covered by the roller (7, 8). Support bearing according to claim 1,
characterized in that for coaxially mounted and independently rotatable rollers (7, 8), the bearing block (1) has a pin (3.1, 3.2) extending to the right and to the left. Support bearing according to claim 1,
characterized in that the pin (3.1, 3.2) is an integral part of the bearing block (1). Support bearing according to claim 1 or 2,
characterized in that the pin (3) is pressed as a separate part in a bore (2) of the bearing block (1). Support bearing according to one of claims 1 to 2,
characterized in that the bearing block is divided symmetrically in the transverse plane and the two bearing block elements (1.1, 1.2) formed in mirror image and lying against one another are blocked together by fastening elements (10). Support bearing according to claim 5,
characterized in that a plurality of screws (10) distributed over the circumference are provided for blocking, which extend through bores (11, 12) arranged in both bearing block elements (1.1, 1.2), the inner diameter of which is larger than the shank diameter of the screws (10 ). Support bearing according to one of claims 1 to 6,
characterized in that the bearing block (1) or the bearing block element (1.1, 1.2) is provided with at least one channel (16, 16.1; 16.2; 17; 17.1; 17.2) for the supply and removal of a coolant. Support bearing according to one of claims 1 to 7,
characterized in that the roller (7, 8) extends beyond the roller bearing (4, 4 ') into the initial region of the bearing block (1) or bearing block element (1.1, 1.2). Support bearing according to claim 8,
characterized in that a seal (19.1, 19.2) is arranged in the roller (7, 8) - bearing block (1) or bearing block element (1.1, 1.2) contact area. Support bearing according to claim 9,
characterized in that the seal (19.1,19.2) is lubricated with grease. Support bearing according to one of claims 1-10,
characterized in that the roller bearing (4,4 ') is designed as a toroidal roller bearing.

Images