FI81660B - Installation for balancing tubular rolls - Google Patents

Description

81 660 1 Equipment for balancing tubular rollers Anläggning för balancering av rörformiga valsar

The invention relates to an apparatus for balancing tubular rolls by means of one or more balancing weights arranged to rest on the inner surface of the roll shell.

In paper machines and the like, balancing the rolls is very important because the balancing of the rolls has a great effect on the operation of the machine and the quality of the paper produced. As a result, tubular rolls whose inner surface of the roll shell is not precisely machined have to be balanced by special arrangements. Such tubular rollers include e.g. various guide rollers as well as fittings and the like. The rolls are generally equilibrated at a certain equilibration rate for a particular equilibrium class 15. The most conventional way of balancing the tubular rolls is to attach additional weights to the end flanges of the roll, or correspondingly to drill them, so that the roll is quite well statically balanced and also 2q to some extent dynamically balanced at a given rotational speed. However, the problem with such balancing is that the roll is out of balance at its central parts and that the balancing is in place at only one rotational speed. The imbalance of the central parts of the roll thus balanced causes a dynamic throw whose magnitude is proportional to the rotational speed of the roll. Thus, such a roll is no longer in equilibrium if the roll is operated at a rotational speed different from the equilibration speed. In other words, the equilibrium class of the roll drops at speeds different from the balancing speed.

2q In order to balance the roll also in its central region, arrangements have been previously proposed for attaching the necessary additional weights to the inner surface of the roll shell in some suitable manner. The fastening has previously been carried out, for example, by welding, screw connections or the like. A significant disadvantage of such attachments is when -g ,. however, the fact that they cause damage to the roll shell. Another disadvantage is that if the balancing has to be corrected later, the roller has to be dismantled for repair. In addition, the transfer of weights within the 2 81 660 1 roll is very difficult due to its attachment.

The third way is that the equilibria are formed by magnets attached to a suitable location on the inner surface of the roll shell. In such rollers, of course, the balancing can be corrected later, but even in this arrangement, the roll has to be dismantled in order to correct the balancing.

The object of the present invention is to eliminate the disadvantages associated with the solutions of the prior art and to provide an apparatus by means of which the roll can be balanced even in its central region and by which the balancing can be corrected simply without dismantling the roll. In order to achieve this, the apparatus according to the invention is mainly characterized in that the apparatus comprises at least one elongate, axially adjusting member of the roll, mounted inside the roll shell and connected to the balancing weight (s), mounted substantially immovably in the axial direction and fitted so that their rotation is prevented, which by adjusting the adjusting member from outside the roll, the balancing weight (s) can be adjusted to the desired position in the axial direction of the roll by the roll shell.

The invention achieves several advantages over the prior art, of which e.g. following.

By means of the apparatus according to the invention, balancing can be performed on the finished roll without dismantling the roll. The equipment can be installed on an existing roll and the equipment can be used to correct balance changes simply. Other advantages and features of the invention will become apparent from the following detailed description of the invention.

In the following, the invention is described by way of example with reference to the figures of the accompanying drawing, in which, however, the invention is not intended to be narrowly limited in any way.

Figure I schematically shows in axial vertical section a tubular roll on which the apparatus according to the invention is mounted.

35 3 81660 1 Figure 2 shows an end view of the roll according to Figure 1.

Figure 3 is an end view of the roll of Figure 1 with the end flange removed.

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Figure 4 shows on a larger scale in more detail one balancing weight of the roll.

Fig. 5 is an axial vertical support of a schematic sheet from an embodiment in which an alternative embodiment of the apparatus according to the invention is mounted.

Figure 6 shows an enlarged detail of the solution according to Figure 5.

Figure 1 shows a roll 10, which is e.g. a guide roll of a paper machine. The roll 10 comprises a tubular roll flange 11, at each end of which end ends 12 with an axle pin 13 are conventionally attached. Inside the roll flap 11 are arranged axially extending elongate adjusting members 14 which support roll equalizing weights 16 in the axial direction of the roll. portable. In the embodiment of Figures 1-3, said adjusting members 14 are arranged on the roll in four pieces, which are arranged at an angle of 90 ° to each other with respect to the central axis of the roll 10. However, the number of control members 14 according to Figures 1-3 is not necessary for the invention 25, but it is essential for the solution according to the invention that there is at least one of said control elements 14. One adjusting member 14 is sufficient to balance the roll in the event that a deliberate imbalance in the plane 11 is caused in the plane 11 during the manufacture of the roll pad 11, which is then corrected by the balancing bead 16 attached to it by one of the adjusting members 14 and 30. If the above-mentioned imbalance is provided in the manufacture of the roll shell 1111, it is preferable to use at least two adjusting lugs 14 with equalizing flanges 16 arranged at an angle of 90 ° to each other with respect to the central axis of the roll 10, so that the roll 10 against in a perpendicular plane passing through the central axis of the roll 10.

<81660 1 According to the embodiment of Figures 1-4, the elongate adjusting members 14 are arranged close to the inner surface of the roll shell II so that the balancing weights fitted to the adjusting members 14 protect against the inner surface of the roll shell. The adjusting members 14 are suitably fastened to at least one of the end flanges 12 of the roll 5 by fastening members 15, and in the embodiment of Figures 1-4, screw members are used for this fastening. Figures 1 and 3 further show that the adjusting members 14 are supported at one end on a flange or flanges 17 fixed to the central region of the roll 10. Such flanges 17 are especially needed for the so-called in wide paper machines in which the axial length of the roll 10 10 is of the order of 9 m. If such a flange 17 were not used in such a large roll 10, the elongate adjusting members 14 would be able to deflect when the roll is accelerated or braked and the roll stopped. Otherwise, the deflection of the adjusting members 14 and the thrusting forces during acceleration and braking would cause a considerable imbalance and vibration in the roll 10. In so-called narrow machines, i.e. machines with a track width of the order of 5 m, such flanges 17 are not necessarily required.

20

The balancing of the roll 10 is performed in the embodiment according to Figs. 1-4 as follows. In the step of manufacturing the roll 10, one or more axially extending elongate adjusting members 14 are arranged inside the roll shell 11, which are arranged substantially 25 close to the inner surface of the roll shell 11. In the embodiment of Figures 1-4, said adjusting members 14 are rods in which an external thread is formed. For the rods 14, holes are formed in the end flaps 12 of the roll 10 for attachment. In the embodiment of Fig. 1, flanges 17 are further attached to the central region of the roll 10, into which holes 14 the rods 14 are threaded. Said bars 14 can be rotated about their central axis in their position. Balancing weights 16 are fitted to the rods 14, in which an internally threaded hole corresponding to the outer thread of the rods 14 is formed. The side of the balancing columns 16 facing the inner surface of the roll shell 11 is formed to be curved in a manner corresponding to the shape of the roll shell 11, and the balancing weights 16 are arranged inside the roll shell 11 so that their curved outer side corresponds to the inner surface of the roll shell 11. When balancing the rolls 10, the bars 14 s 81660 1 are rotated, whereby the balancing balls 16 are made to settle in the desired position in the axial direction of the roll 10. The balancing balls 16 cannot rotate with the bars 14, but slide along the inner surface of the roller flange 11. Once the balancing balls 16 have been positioned in the correct position in the axial direction 5, the bars 14 are locked to their position by screw members 15 to prevent the bars 14 from collapsing. In a manner different from the embodiment of Figure 1, the rods 14 can be formed to extend axially through the entire roll 10 so that they are supported at their ends on opposite end flaps 12 of the roll. because the balancing balls 16 rest against the inner surface of the roller bed 11.

Figures 5 and 6 show another embodiment of the apparatus and method according to the invention applied to the embodiment generally indicated by reference numeral 20 in Figure 5. End flanges 22 with a shaft pin 23 are attached to each end of the hollow roller flange 21 in a conventional manner. As a rule, an embodiment in which the inner space 30 of the roll flange is filled with polyurethane or the like, i.e. the balancing apparatus according to Figures 1-4 could be used in such an embodiment, because the polyurethane would prevent the transfer of balancing weights inside the roll.

As a result, in the embodiment of Figures 5 and 6, the adjusting members 24 25 and the balancing balls 26 are arranged inside tubes 28 supported on the inner surface of the roll hub 21. In this case, by rotating the adjusting members 24, which are e.g. threaded rods according to the previous embodiment, the balancing balls 26 with a similar internal thread are caused to move to the desired position 30 in the axial direction of the roll 20. However, in the embodiment of Figures 5 and 6, it must be ensured in some suitable manner that when the adjusting member 24 is rotated, the equalizing weight 26 can rotate with the adjusting member. This can be handled, for example, by providing the tube 28 with some suitable guide member to prevent the balancing weight 26 from collapsing, or by having the tube 28 and the balancing weight 26 suitably shaped so that the balancing weight 26 cannot rotate inside the tube 28.

«81660 1, as shown in Figure 5, the tubes 28 fitted to the telavalpan 21 of the inner surface of the tubes 28 and the control means 2A can not reach Whipped-tyvyysvololen or by gravity to bend adversely. In the embodiment of Figures 5 and 6, the locking of the adjusting members 24 on their salary and the positioning of the even palmating columns 26 are handled in exactly the same way as in the embodiment of Figures 1-4 with suitable clamping means 25, e.g. a screw member. If the axial length of the roll 20 is large, it is also advantageous in the embodiment of Figures 5 and 6 that the adjusting members 24 are supported from the middle stage of the roll 20 by a flange 27, as already described in connection with the previous embodiment. However, in the embodiment of Figures 5 and 6, said flange 27 is supported on the tube 28. The use of the tubes 28 in connection with the embodiment of Figures 5 and 6 is also advantageous because they simultaneously act as corrosion protection for the adjusting members 24 and the flat beads 26.

15

In contrast to the embodiment of Figures 5 and 6, the tubes 28 may be arranged to be open on the side facing the inner surface of the roller bead 21, whereby the flat support beads 26 inside the tubes 28 rest directly on the inner surface of the roller bead 21. Such open tubes 28 must then be tightly against the inner surface of the roll flange 21 so that any polyurethane or the like in the interior 30 of the roll flap can penetrate into the tube 28.

The invention has been described above by way of example with reference to the figures of the accompanying drawing 25. However, it is not intended to limit the invention to the examples shown in the figures only, but many modifications are possible within the scope of the inventive idea defined by the following claims.

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Claims (12)

An apparatus for balancing tubular rolls by means of one or more balancing weights (16, 26) arranged to rest on the inner surface of a roll bar (11, 21), characterized in that the apparatus comprises a balancing weight / weight set inside the roll bar (11, 21). at least one elongate axial-directional control member (14, 24) connected to the (16, 26), which is mounted in place in the axial direction substantially impermeably and to which the balancing weight (s) 10 (16, 26) is arranged so that their rotation is prevented, which by turning the adjusting member from outside the roll (10,20) the balancing weight (s) (16, 26) can be adjusted with the roll flap (11,21) in the axial direction of the roll (10,20) to the desired position. 1 Claims Apparatus according to claim 1, characterized in that the adjusting member (s) (14, 24) are supported at least at one end on the second end flange (12, 22) of the roll (10, 20). Apparatus according to claim 1 or 2, characterized in that the adjusting member (s) (14, 24) comprise a rod or the like with an external screw thread and that the even weight (s) (16, 26) are provided with an adjusting member (s). with a threaded spool corresponding to the external thread of the members (14,24) to which said rod (14,24) is threaded. 25 Apparatus according to one of the preceding claims, characterized in that at least one annular flange (17) is fastened in the axial direction to the inner surface of the roll flange (11) in the axial direction, on which the rod (s) (14) are rotatably supported. 30 Apparatus according to claim 4, characterized in that the length of the rods (14) is selected to extend from the end flange (12) of the roll to an annular flange (17) in the central region of the roll (10) arranged to prevent axial misalignment of the rods (14). 35 its transfer. 8 81660 Apparatus according to one of Claims 1 to 4, characterized in that the length of the rod (s) (14) is chosen so as to extend beyond the axial length of the roll (10) from one end flange (12) to the other end flange. 5 Apparatus according to any one of the preceding claims, characterized in that the flat balancing weights (16) are arranged on the inner surface of the roll shell (11) so that when the rods (14) are rotated they slide along said inner surface of the roll shell (11). 10 7 81660 Apparatus according to one of the preceding claims, characterized in that the outer side of the balance support weights (16) is designed to be curved so that their curvature substantially corresponds to the curvature of the inner surface of the roll shell. 15 Apparatus according to one of Claims 1 to 3 or 6, characterized in that the rod (s) (24) and the balancing weight (s) (26) are arranged inside the tube (s) (28) extending substantially over the axial length of the roll (20). , in respect of which the rotation of the balancing weight (s) (26) is prevented. Apparatus according to claim 9, characterized in that the tubes (28) are arranged substantially attached to the inner surface of the roll shell (21) so that the equalizing weights (26) rest on the inner surface of the roll shell 25 (21) via said tubes (28). Apparatus according to claim 9, characterized in that the tubes (28) are open on their side facing the inner surface of the roll shell (21) and are arranged substantially attached to the inner surface of the roll shell (21) so that the flat balancing weights (26) rest on open tubes (28). from the sides directly to the inner surface of the roll shell (21). Apparatus according to one of the preceding claims, characterized in that the control cells (14, 24) and the even balancing weights (16, 26) 35 are arranged at a phase angle of 90 ° with respect to the central axis of the roll (10, 20). 9 "'9 81 660