FI76829B - ANORDNING I STYCKETORVS / GRANULERINGSMASKIN. - Google Patents

Description

t 76829

Arrangement in peat / granulation machine

The invention relates to an arrangement for placing a rotating cutting blade in a peat / granulating machine substantially without backlash against a matrix plate or other nozzle member, the machine comprising a peat pulp press screw formed between the drive shaft end and the drive shaft end 10. By toothed joint is also meant here all kinds of wedge groove joints which are intended to allow axial movement between the connected shafts.

Current production methods for peat and pellets are based on drying the peat in the field from which 1¾ it has been extracted. The work steps have been combined so that the same machine simultaneously removes, cultivates and spreads the raw peat on the field. The machines are used to form a crude peat, which is intended to be applied as evenly as possible to the field. When the surface of the extrudates dries, it becomes hard and water-repellent. The entire production is dominated by the effort to efficiently dry the extrudates. Matrix plate-based shaping machines are mainly used to produce a compact smaller than normal lump peat size. Due to the smaller diameter of the compact, it dries faster than 2¾ normal lump peat. The typical diameter of peat extrudates is 50 ... 80 mm and that of pellets 10 ... 30 mm. The disadvantages of the known machines are the high power demand and the susceptibility to clogging of the holes.

In all known machines, the peat is pressed with 30 screws in the supply pipe to such a high pressure that it exudes through the nozzle members as a compact. The nozzle members can be, for example, holes in the matrix plate or transverse pipe nozzles connected to the cone of the peat machine. A cutting blade belonging to the screw rotates against the nozzle member, which may be either a separate blade welded to the end of the screw or only the sharpened end of the screw. The purpose of this is to cut any fiber bundles and wooden sticks that may be stuck in the nozzle opening into smaller pieces.

'2 76829 In practice, the axial alignment of the blade has been found to be an important factor in the reliable operation of the machine.

The blade must be substantially free of play against the matrix plate or the nozzle cone, respectively, in order to cut the fiber bundles in particular. When clearance begins to occur due to blade wear, the fibers do not cut across the edge of the opening, but the pulp begins to accumulate in the opening, eventually plugging it. In most cases, the user has not corrected the incorrect setting until most of the holes are clogged. In practice, up to several percent of the machine's output is lost, because correcting an incorrect setting has so far been a very big job. Namely, in the most commonly used piece peat machines, the machine has to be dismantled to a considerable extent, as the clearance is removed by an adapter ring placed between the press screw • S and the output shaft of the bevel gear rotating it. The thickness of this determines the axial position of the press screw and with it the blade.

A solution for removing the clearance is also known, in which the rest of the screw contained in the blade is arranged to be axially movable. A spring is provided to press this end, which thus constantly presses the blade against the matrix plate. In practice, however, no sufficiently rigid spring has been found which, when placed in a small space, would have pressed the blade sufficiently against the matrix plate.

The object of the present invention is to provide a solution for removing the clearance in a practical manner. The main features of the invention are set out in claim 1. The invention makes it possible to remove the clearance from outside the machine without dismantling the machine. According to the invention, the previously used adapter rings 30 are replaced by a controllable member, for example a hydraulic or mechanical gap adjusting member, which is connected to the drive member by a connecting member passed through a hollow axis line formed in either direction.

The connecting member can be arranged either, for example, to pass through the bevel gear 35 or, preferably according to claim 2, to pass through the screw tube. In this embodiment, the

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3 76329 The transmission force is transmitted, as in known machines, via an axial groove-toothed coupling, but the axial support takes place via a rod, the position of which with respect to the screw can be adjusted by means of a threaded connection. The actuator is typically a torque tool, for example a wrench for rotating the rod. The arrangement according to the invention requires that the shaft part carrying the blade be axially movable. This shaft part r can be formed by the whole press screw, a part thereof or only a short shaft part carrying the blade.

In the following, the invention will be illustrated with reference to the accompanying figures, which show some embodiments of the invention and an embodiment.

Figure 1 shows 15 return peat machines with disc washer and nozzle cone

Figure 2 shows a granulating machine with a disc mill and a matrix plate

Figure 3 shows an arrangement for controlling the axial position of the feed screw from outside the machine 20

The front part of the granulation machine according to Fig. 2 with disc mills is similar to that of the most commonly used peat machines. The nozzle cone of Figure 1 is most commonly used to squeeze peat mass through the nozzles.

25 In both types of machines, the cutting blade at the end of the feed screw is aimed to be placed without backlash either against the conical nozzle cone or against the die plate. In the machine according to Fig. 2, the disc mill raises the raw peat to a screw which presses it in the pipe 2 towards and through the matrix plate 1 30. The matrix plate 1 is firmly attached to the end of the screw tube 2, Figures 2 and 3. The end of the press screw 5 against the matrix plate also includes a cutting blade 4. For the center 14 of the screw 3 shaft 3, the matrix plate 1 has a guide hole in the middle. The matrix plate 1 has 28 holes which 35 form a peat mass bursting through into granules.

4 76329 i i

The clamping screw 5 is rotated by the bevel gear shaft 1 by means of an axial groove gear, i.e. a tooth connection 10 consisting of an outer gear ring 11 of the bevel gear shaft end 6 and an associated inner gear ring 12 instead of. This is connected to the press screw 5 by means of a threaded connection 13, whereby when turning the rod 8 the screw 5 and thus the blade 4 move in the desired direction 10 with the end 9 of the rod 8 resting on the shaft end 6. The threaded joint 13 is placed close to it. The rod 8 extends through the entire shaft 3 of the clamping screw 5. A rim 15 is formed at its end inside the hub 14, from which a wrench 16 used as a drive device is obtained.

In practice, the creation of a clearance is observed as the holes begin to become blocked. In this case, the drive is stopped briefly.

The pin 17 is removed, whereby the wrench 16 can be used to turn the rod 8, for example, half a turn in the direction tightening the blade 4? 0. The pin 8 locks the rod 8 in place again. As driving continues, the backlash-free blade 4 cuts off the blockages.

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Claims (3)

5 76829 'f An arrangement for placing a rotating cutting blade (4) in a peat or granulating machine substantially without backlash against a matrix plate (1) or other nozzle member, the machine comprising a peat pulp press screw (5) inserted in the feed pipe (2), said screw blade (4) (5) and / or the rotational force on the shaft (3) of the blade (4) is transmitted through a toothed joint (10) allowing axial movement 10 of the blade (4) formed between the drive shaft end (6) and the driven shaft end (7), characterized in that between the drive shaft end (6) and the end (7) of the drive shaft (3) there is a controllable setting member (9) for setting the axial distance, one of the three shafts (3) being hollow along its entire length including a connecting member (8) ) to a drive member (16) located or to be located outside the machine, located or to be located at one end (14) of this shaft (3). An arrangement according to claim 1 in a peat / granulation machine, wherein the rotation of the press screw (5) is arranged on the output shaft of the bevel gear by a toothed connection (10) comprising a gear ring (11) of the rotating shaft end (6) and the shaft of the rotatable press screw (5). (7) a toothed ring (12), of which one (11) is an outer ring and the other (12) an inner ring, respectively, characterized in that inside the hollow shaft (3) of the clamping screw (5) is connected to it at the end (6) of the drive shaft a support rod (9, 8) having one end (15) extending from the blade (4) side end (14) of the press screw (5) for pivoting from outside the press section. An arrangement according to claim 2, characterized in that the threaded connection (13) connecting the rod (9, 8) to the shaft (3) is at the end (7) on the rotary shaft side.