FI93806B - Equipment for adjusting the track clearances of the track - Google Patents

Description

9X806

EQUIPMENT FOR ADJUSTING THE TRACK ROLLING SPACES - APPARATUR FÖR JUSTERING AV VALSAVSTÄND I EN VALSENHET

The present invention relates to an apparatus for adjusting the roll clearances of a track, which track consists of two or more parallel, substantially parallel rollers, the apparatus comprising movable roller bearing housings on a guide body which are compressed by a flexible member, e.g. a spring, a pneumatic cylinder or the like in connection with the bearing housings, adjusting surfaces are arranged so that the adjusting surfaces of two adjacent bearing housings form a gap in which a roller clearance adjusting member in contact with the adjusting surfaces is arranged.

15

Fibers, for example wood chips, can be classified, i.e. fractionated, into different fractions by means of rotating, textured rolls, which form a so-called roll.

20 Rollers are used, for example, in the particle board industry in loading screens and spreading heads for spreading machines. In addition to the fractionating effect of the track, its scattering effect is also utilized in the scattering effect.

A fractionation roll, such as that disclosed, for example, in FI patent application 914515, consists of a plurality of parallel rolls, substantially parallel to one another, from the gaps between which the material falls down. The material to be classified is fed to the beginning of the track. The rotating rollers 30 transport material on the roller towards the end.

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The classification takes place in such a way that substantially the finest fraction falls from the slots at the beginning of the track and the grain size of the material falling through the slots increases towards the end of the track. An over-coarse fraction with a thickness greater than the maximum roll clearance is obtained as an overhang at the end. In a typical application, the gaps between the rollers 2 93806 are adjusted so as to grow towards the end of the roll.

Due to the optimal operation of the roller, it must be possible to adjust the roller clearances quickly, if necessary also when the rollers rotate. Adjustability is needed, for example, when the quality of the material fed to the track changes, the grain size ratios or the feeding capacity change. Modern continuous processes and comprehensive process management systems require fast adjustment of 10 hardware.

The object of the invention is to provide an apparatus with which such a fast and accurate adjustment can be easily carried out. The invention is characterized in that each adjusting member 15 is movable into and out of the slot by a transfer device or the like, and that each adjusting member creates a wedge effect with the respective adjusting surfaces in the gap so that as the adjusting member moves deeper into the gap the wedge force forces the gap larger and -20 When the adjusting member is in the opposite direction, the gap decreases.

A preferred embodiment of the invention is characterized in that each adjusting member extends into the gap formed by the adjusting surfaces from below, and in that the adjusting members are wedge-shaped so that their upper end is narrower than the lower end.

Another preferred embodiment of the invention is characterized in that each adjusting member is articulated to an elongate adjusting beam at both ends of the rollers which is substantially perpendicular to the axial direction of the rollers.

Yet another preferred embodiment of the invention is characterized in that the adjusting beams can be moved in the vertical direction by means of one or more lifting devices or the like articulated to them.

3 93806

In the following, the invention will be explained in detail by means of a preferred exemplary embodiment with reference to the accompanying drawings, in which Figure 1 shows schematically and from a side view a prior art chip used for chipping chips.

Figure 2 shows a side view of a track with a roll-10 clearance adjustment according to the invention.

Figure 3 is an end sectional view of the roll bearing point and roll clearance adjustment mechanism.

15 Sirottelubunkkerista particle mat 1 will annostelukuljetinta 2 along the rake reel 3 dispensing the roll set, which is composed of parallel, rotating rollers 4. The rollers slots have slots through which the chips fall from the scattering belt conveyor-Melle 5 which moves in the direction of the arrow and to carry formed-20 tuneen non-6 continues to be pressed chip board . Such a track is known from FI patent application 914515, which also describes in more detail the roller clearances and their effects on the chip mat 6 formed on the spreading belt conveyor 5, so we will not go into this structure in more detail in this connection.

Figure 2 shows a track equipped with a roller clearance adjustment mechanism according to the invention. In it, the rollers 4 are mounted on bearing housings 30 8 which move along the guide body 7 (Fig. 3). Between the adjusting surfaces of the adjacent bearing housings 8 there are adjusting members 11 extending from below the size of the gap formed by the adjusting surfaces 10 and wedge-shaped so that their upper end is narrower than the lower end, the adjusting surfaces of the adjusting members 11 contacting the adjusting surfaces. by law, it is possible for the adjusting members to enter the slots 4 93806 from a direction other than the bottom, e.g. from the top, in which case their wedge is also the opposite. In theory, the wedge can also enter the gap, e.g. in the direction of the roll axes.

In this exemplary embodiment, the adjusting members 11 are articulated at one end to an elongate adjusting beam 12 substantially perpendicular to the common axial direction of the rollers.

The ends of the adjusting bar 12 are supported and guided, for example, by means of guides 13 and guide wheels 14. The adjustment bar can be raised and lowered by means of screw jacks 15 and 16. Their lifting screws are connected by intermediate rods 17 to the adjusting beam 12. The hoisting devices 15, 16, for example screw hoists, are two for each adjusting beam 12 so that one lifting device 15 acts on one end of the adjusting beam and the other lifting device 16 on the other end of the adjusting beam. is available independently of other lifting equipment. It will be apparent to those skilled in the art that the hoisting device may be a suitable actuator other than a screw hoist.

The primary side of the lifts 15, 16 is connected by means of balance axes 18 to the corresponding lifts 25 on the other side of the track. In this way, a simultaneous and equal adjustment operation can be performed on both sides of the track, since the screwdrivers operate in synchronism.

If the adjusting beam 12 of Fig. 1 is raised, the bearing housings 8 will move away from each other due to the wedge-shaped nature of the adjusting members 11 and the roller clearances will increase. Namely, by pushing between the bearing housings, the adjusting members push the housings apart via the adjusting surfaces 10.

35 The spring 18 tends to press the bearing housings 8 against each other. As the te slots increase, the spring compresses accordingly. The last bearing housing 19 is fixed in receiving the spring force transmitted by the bearing housings. If the adjustment bar 12 is lowered, n _ 93806 5 the roller clearances decrease. In this case, the coil spring lengthens holding the bearing surfaces 10 of the bearing housings against the adjusting members 11 and, as said, the roller clearances are reduced. It will be apparent to one skilled in the art that the spring 18 may be replaced by another resilient member 5, such as a pneumatic cylinder.

The rotational movement of the fractionation rollers is transmitted from one roll to another by means of toothed belts 20, pulleys 21 and folding wheels 22. In connection with the adjustment of the clearances, the belt tensioner 24 provided with the spring 23 adjusts the belt tension of the belt drive to correspond to the new wheelbases of the rollers. It is clear to a person skilled in the art that the rollers can also be rotated, for example by means of a chain drive, and that the spring 23 can be replaced by, for example, a compressed air cylinder.

By means of the screws 25 and nuts 26 at the other end of the adjusting members 11, an individual initial clearance can be adjusted for each roll clearance, whereby the adjusting members are more or less pushed between the adjusting surfaces 10.

20 The adjustment operation can be either symmetrical or asymmetrical. In symmetrical control, the adjusting bar 12 is raised or lowered equally from each end, whereby all roller clearances increase or decrease equally.

25

In asymmetrical adjustment, one end of the adjustment bar is raised or lowered more than the other end. In this case, the clearances of the head that is moved the most change the most. For example, assume that prior to adjustment, all roll clearances 30 are equal and it is desired to change the roll clearances so that they increase evenly toward the end of the roll. In this case, the end of the adjusting bar is suitably lifted by the lifter 16 suitably more than the beginning.

It is clear to a person skilled in the art that the lifts 15 and 16 can be equipped with motors or similar actuators and, if necessary, with displacement measuring sensors, so that it is possible to carry out remote control.

Claims (6)

93806 An apparatus for adjusting the roll clearances of a track, the roll consisting of two or more parallel, substantially parallel rollers, the apparatus comprising roller bearing housings (8) movable on the guide body (7) and pressed together by a resilient member, e.g. a spring (18). ), by means of a pneumatic cylinder or the like and having bearing surfaces (10) in connection with the bearing housings (8) so that the adjusting surfaces of two adjacent bearing housings form a gap in which a roller clearance adjusting member (11) in contact with the adjusting surfaces is arranged. each adjusting member (11) 15 is movable into and out of the slot by a transfer device (15, 16) or the like, and that each adjusting member creates a wedge effect with corresponding adjustment surfaces in the gap adjusted so that as the adjusting member moves deeper into the gap the wedge effect forces the gap larger, and only a-20 when the control member is moved in the opposite direction, the gap decreases. Apparatus according to claim 1, characterized in that each adjusting member (11) extends into the gap formed by the adjusting surfaces (10) from below, and that. . . the adjusting members are wedge-shaped so that their upper end is narrower than the lower end. Apparatus according to claim 1 or 2, characterized in that each adjusting member (11) is articulated to an elongate adjusting beam (12) at both ends of the rollers which is substantially perpendicular to the axial direction of the rollers. Apparatus according to Claim 3, characterized in that the adjusting beams (12) can be moved in the vertical direction by means of one or more lifting devices (15, 16) or the like connected to them. Apparatus according to Claim 3 or 4, characterized in that there are two lifting devices (15, 16), for example screw jacks, for each adjusting beam (12), so that one lifting device (15) acts on one end of the adjusting beam and the other lifting device (16). to the other end of the adjustment bar, and that each lifting device is available independently of the other lifting devices. Apparatus according to one of Claims 1 to 5, characterized in that the adjustment of the roller clearances can be carried out remotely. • ·. . · Β 93806