EP1151799A1 - Cutter drum - Google Patents

Abstract

The roller (10) has a large number of shallow circumferential ridges and grooves with a 45 degrees flank angle. Square passages (36) debouching in the flanks of the ridges and grooves lead to the central bore through which the fines and comminuted material are taken away. The square cutters have two sides projecting just outside the circumference of one of the roller ridges, and face V-shaped grooves (16). Each square cutter is held in place by a screw passing through a central bore. The roller works in conjunction with a knife (56) with a jagged edge.

Description

The invention relates to a comminution roller according to the preamble of claim 1.

Known crushing rollers of this type are components of crushing machines with which waste, e.g. Wood waste to be crushed. This is what is to be shredded Material between the knife edges and an am Firmly attach the frame of the shredder Counter knife crushed. Known shredding rollers have a closed outer surface. Shredded material must first be between the knife edges and run through the counter knife so that it is in a collecting space arranged under the shredding roller can be caught and carried away. This limits the throughput.

It is therefore the object of the present invention a shredding roller of the type mentioned to develop such that shredded material more efficiently is fed to the collecting room.

This object is achieved by a Comminution roller with those mentioned in claim 1 Characteristics.

Due to the large number of openings in the jacket the shredding roller can shredded material get inside the roller core of the shredding roller, from where it is through an outlet opening of the shredding roller can be transported away. By the size of the Through openings is also a size requirement the separated portions of the shredded material possible, i.e. the shredding roller works at the same time as a sieve, which if necessary the crushing roller surrounding sieve is added. Have its screen openings different size and / or geometry than the jacket openings, can one with the crushing roller according to the invention equipped crusher two provide different fractions of comminuted goods.

Is the inner cavity of the roll core according to claim 2 is conical, the pumping through the through openings crushed into the inside of the roller core Material for the outlet opening by gravity emotional.

A comparable gravitational influence for conveying crushed Material from the cavity of the roll core results from the design of the shredding roller according to claim 3.

To ensure the clearest possible width of the outlet opening of the roller core, the roller core can be formed according to claim 4. One axial end of the The roller core is then free of a bearing and can be one have a large outlet opening.

A conveyor according to claim 5 causes or supports the conveying of shredded material the roller core, provided that conveying from the roller core by feeding crushed material or gravity not enough.

The conveyor according to claim 6 has a high Efficiency and is simple.

The conveyor according to claim 7 is the geometric Conditions in the roller core well adapted.

A screw conveyor adapts to changes in cross section inside the roller core.

The arrangement of the screw conveyor leads to claim 9 to a relative movement of the screw conveyor relative to the inner surface of the roll core. This relative movement increases the funding efficiency again.

Due to the design of the shredding roller according to Claim 10 is a single conveyor Convey shredded material from the shredding roller not only within the roll core but also through the hollow stub shaft, which in this case is the Represents outlet opening guaranteed. The outlet opening can then be made with a smaller diameter, so that the hollow stub shaft can be easily stored can.

An arrangement of the knife edges according to claim 11 leads to a shredding machine with high throughput, because of the interaction of knife edges and Counter knife shredded goods immediately through the openings can happen.

Worn knife edges can according to the design be exchanged according to claim 12.

The invention based on exemplary embodiments explained in more detail with reference to the drawing.

Figur 1:

eine schematische Aufsicht auf ein Zerkleinerungswerk für Holzabfälle;

Figur 2:

einen transversalen Schnitt durch eine Zerkleinerungswalze des in Figur 1 gezeigten Zerkleinerungswerks in der Mittelebene einer Umfangsrippe der Zerkleinerungswalze (längs der Schnittlinie II-II von Figur 1);

Figur 3:

einen Schnitt längs der Achse der Zerkleinerungswalze von Figur 1 längs der Schnittlinie III-III von Figur 1;

Figur 4:

eine zur Figur 3 ähnliche Ansicht einer alternativen Ausführungsform der Zerkleinerungswalze;

Figur 5:

eine vergrößerte schematische Aufsicht auf einen Teil der abgewickelten inneren Mantelfläche der Zerkleinerungswalze von Figur 4;

Figuren 6 bis 8

zur Figur 3 bzw. 4 ähnliche Ansichten alternativer Ausführungsformen der Zerkleinerungswalze; und

Figuren 9 und 10

transversale Schnitte durch weiter abgewandelte Zerkleinerungswalzen.

In this show:

Figure 1:

a schematic plan view of a shredding plant for wood waste;

Figure 2:

a transverse section through a shredding roller of the shredding unit shown in Figure 1 in the central plane of a circumferential rib of the shredding roller (along the section line II-II of Figure 1);

Figure 3:

a section along the axis of the comminution roller of Figure 1 along the section line III-III of Figure 1;

Figure 4:

a view similar to Figure 3 of an alternative embodiment of the shredding roller;

Figure 5:

an enlarged schematic plan view of a portion of the developed inner surface of the comminution roller of Figure 4;

Figures 6 to 8

3 and 4 similar views of alternative embodiments of the shredding roller; and

Figures 9 and 10

transverse cuts through further modified shredding rollers.

In the drawing there is a comminution roller with a total of 10 referred to, to which a roller core 12 belongs. This has a plurality of circumferential axial successive circumferential ribs 16, each triangular Cross-section.

In the circumferential ribs 16 are diametrically opposite Points each milled knife receptacles 18. The Knife receptacles 18 of adjacent circumferential ribs 16 offset in the angular direction, in the embodiment considered here by 30 °, in practice by a smaller one Angles, e.g. 15 ° offset. As from Figures 1 and 2 can be seen, the bottom of the knife receptacles 18 runs over a little over half a secant of the circular Cross-sectional contour of the comminution roller 12. Behind the secant section is in the bottom of the knife holder 18 in the circumferential ribs 16 each have a threaded bore 20 provided.

In front of the formed by the bottom of the knife holder 18 in essential radially extending step sits in each case Knife body 22 with a through hole 24. Through the latter extends a threaded bolt 26 which in the Threaded bore 20 runs. In practice, the knife holder 18 initially completely through the roller core 12 are milled through and the threaded bore 20th contained material then in the left in Figure 2 top or bottom right end of the knife holder be welded in.

The roller core 12 has two lateral shaft ends 28, 29 which run in bearings 30, which in frame plates 32nd attached to a machine frame of the shredding machine are. On the stub shown on the right 29 sits a pulley 34 over which a not shown belt runs, which is also not one reproduced drive motor is driven.

From Figures 1 to 3 it can be seen that the Roll core 12 of the crushing roller 10 is hollow and in its jacket region 35 has a plurality of radially extending Passage openings 36 with a square cross section which has the outer space that the roll core 12 surrounds, connect to the interior 38 of the roller core. Each circumferential rib 16 has eight pairs of through openings 36 on. In the area of the knife holders 18 as well the knife body 22, the circumferential ribs 16 are full Material; So there are no openings here intended.

Also the two shaft ends 28, 29 of the roller core 12 are hollow. During the stub shaft 29 from the pulley 34 axially completed, creates the stub shaft 28 a connection via an outlet opening 39 to the outside.

In the interior 38 of the roller core 12 is a conveyor 40 provided (see Figure 3), the one in Figure 3 counter-clockwise rotating conveyor belt 42, which has two deflection rollers 44, 46 running. The latter are only one in the drawing schematically indicated conveyor frame 48 worn the connected to the machine frame of the shredding machine is.

Under the discharge end of the conveyor belt 42, which by the Extending through outlet opening 39 is a discharge funnel 50 arranged. Its discharge opening 52 is located above another conveyor belt 54 another one otherwise Not shown conveyor.

The shredding roller 10 works with a frame-fixed Counter knife 56 together, which a variety of adjacent triangular knife sections 58 (see FIG. 1). The edges of the knife sections 58 are such that the Cutting edges of the knife body 22 under a small Distance a can walk past them.

The comminution roller 10 works as follows:

Material to be shredded, e.g. Wood waste, become the Comminution roller 10 fed from above. The above the pulley 34 driven and rotating crushing roller 10 crushes what is to be crushed Material between the knife bodies 22 and the counter knife 56. This is during the shredding process shredded material on the one hand through the gap between the knife bodies 22 or the circumferential ribs 16 and the Counter knife 56 pushed through and later by means of a not shown in the drawing, the coaxial is attached below the shredding roller 12, sieved and carried away by a conveyor, not shown. On the other hand, shredded material also collects at and above the level of the counter knife 56 at or is from the shredding roller 12 on the underneath arranged coaxial sieve (not shown) in the storage container pushed back for material to be shredded.

On the top of the shredding roller 12 running Lumps of material that are small enough fall through Passage openings 36 into the interior 38 of the shredding roller 10. The passage openings 36 act as sieve openings. Behind the openings 36 the chunks either fall directly onto the conveyor belt 42 or become during the rotational movement of the shredding roller 10 entrained by the jacket region 35 of the roller core 12 and then dropped on the conveyor belt 42. With the Conveyor belt 42 then passes the material through the outlet opening 39 promoted and falls into the delivery funnel 50, the the shredded material through the discharge opening 52 to the Collective conveyor 54 delivers.

Further embodiments of the shredding machine will now be described with reference to Figures 4 to 10. Components, which correspond to those which are based on the Figures 1 to 3 have already been described with provided the same reference number and not again explained in detail.

In the embodiment of Figures 4 and 5, the Roll core 12 in the area of the through openings 36 a radial expansion 60 of the interior 38. Only in Areas 62 of the roller core 12, which the knife body 22 or surrounding the knife receptacles 18 is the roller core 12 further, analogous to the embodiment of the figures 1 to 3, made of solid material.

As can be seen in particular from FIG. 5, the the inner lateral surface of a section of the roll core 12 is developed, the solid material area runs 62 due to that described in connection with FIG. 1 Angular misalignment of the knife receptacles 18 helical and at the same time forms a funding spiral. Where the Extension 60 of the interior 38 on the outlet side Stub shaft 28 adjoins, is located in the interior 38 Level 63 (see Fig. 4).

Shredded material that passes through the openings 36 enters the interior 38 of the roller core 12 is under the influence of gravity through the Rotation of the roller core 12 with the to the roller axis inclined boundary surfaces of the solid material area 62 axially conveyed towards the outlet opening 39. This will be a material used to convey shredded material coming from the interior 38 by the belt conveyor 40 Receive funding.

In the embodiment of the roller core shown in FIG. 6 12 is the interior 38 with a screw conveyor 64 provided the support function of the in this case belt conveyor not provided. A core section 65 of the screw conveyor 64 is non-rotatable with the Machine frame (not shown) connected.

Material is crushed by means of the screw conveyor 64 in the interior 38 of the roller core 12 in the direction of the arrow Outlet opening 39 of the roller core 12 promoted and falls from a discharge end 66 of the screw conveyor 64, accordingly reducing the diameter of the interior 38 reduced in diameter in the area of the outlet opening 39 is in the discharge funnel 50. In addition, the Screw conveyor 64 made of elastic material and itself thereby to the level 63 and to contour changes of the Adjust the inner surface of the roller core 12.

In the embodiment according to FIG. 7, the inner surface has of the roller core 12 in the form of a truncated cone, which opens towards the discharge opening 39. The arrangement of the knife body 22, the knife receptacles 38 and the passage openings 36 corresponds to that of the embodiment, which was described in Figures 1 to 3. Corresponding to the taper of the interior 38 of the roller core 12 has the stub shaft facing the discharge funnel 28 a larger diameter than that of Pulley 34 facing stub shaft 28.

Material used during the shredding with the shredding roller 12 through the passage openings 16 in the Interior 38 falls, is under the influence of gravity and the rotation of the crushing roller 12 in the direction the outlet opening 39 promoted.

Figure 8 shows a roller core 12, which is only a stub shaft 28 has. This is the pulley 34 adjacent and by two axially spaced apart Bearings 30 ', 30' ', bearing 30' being a fixed bearing and the bearing 30 '' is a floating bearing.

At the opposite end of the pulley 34 the roller core 12 is not stored. That end with the Outlet opening 39 through an opening 68 of the outlet side Frame plate 32 passes through, has a clear width, which corresponds to that of extension 60. This The outlet opening 39 is in turn one that is not shown in FIG Assigned funnel.

Since the interior 38 of the roller core 12 of Figure 8 in the neighborhood of the outlet opening 39 as opposed to Embodiment of Figure 4 has no step, can be crushed Material solely because of the screw shape the extension 60 promoted towards the delivery funnel become. On a belt conveyor (compare figure 4) can be omitted.

Alternatively or in addition to the described embodiments can the shredding roller compared to the Be inclined towards the outlet opening, so that thereby a promotion of crushed material in Interior of the shredding roller to the outlet opening alone is given by the influence of gravity.

In the case of those shown in cross section in FIGS. 9 and 10 Comminution rollers 12 are the knife bodies 22 arranged directly at the passage openings 36 and limit their opening width.

The knife body 22 are in the embodiment of FIG Figure 9 in knife receptacles 18 and are in the latter radially extending screws 70 screwed. there attack the latter through through holes (not shown) the knife body run, in blind thread (not shown) in the knife receptacles 18.

In the exemplary embodiment in FIG. 10, the jacket region 35 of the crushing roller 12 bent outwards Tongues 72 on. On the inner end faces 74 of the tongues 72, which is a continuation of the inner lateral surface of the Sheath area 35 represent, knife body 22 with Screws 70 screwed on. The latter run through Through holes (not shown) of the inner End faces and engage in a blind thread (not shown) the knife body 22.

Claims (12)

Comminution roller (10) with a roller core (12) and with a plurality of knife edges (22) carried by the roller core (12), characterized in that the roller core (12) has an axial cavity (38) that the jacket (35 ) of the roller core (12) a plurality of passage openings (36) for crushed material is provided, and that at least one outlet opening (39) for crushed material is provided in at least one axial end region of the roller core (12). Shredding roller according to claim 1, characterized in that the at least one outlet opening (39) for material to be shredded is provided at a single end region (28) of the roller core (12) and at least a portion of the cavity (38) of the roller core (12) is open this end region (28) expanded to conical. Comminution roller according to Claim 1, characterized in that the longitudinal axis of the roller core (12) is inclined to the horizontal, that is to say it slopes away towards the outlet opening (39). Comminution roller according to one of the preceding claims, characterized in that an axial / radial bearing device (30 ', 30'') of the roller core (12) is provided at a single axial end region (29) of the roller core (12). Comminution roller according to one of the preceding claims, characterized in that a conveyor device (40, 54; 60) for conveying comminuted material from the cavity to the outlet opening (39) is arranged in the cavity (38). Comminution roller according to Claim 5, characterized in that the conveyor device comprises a belt conveyor (40) with a conveyor belt (42) and two deflection rollers (44, 46), the end of the feed in the cavity (38) of the roller core (12) and the discharge end outside the roller core (12) is arranged. Comminution roller according to claim 5 or 6, characterized in that the conveyor device has a screw conveyor (64, 66) which extends into the cavity (38) of the roller core (12). Comminution roller according to claim 7, characterized in that the screw conveyor (64) is elastic at least in one section. Comminution roller according to claim 7 or 8, characterized in that the screw conveyor (64) is arranged fixed in space. Comminution roller according to one of claims 7 to 9, characterized in that at least one axial end region of the roller core (12), which has a hollow stub shaft (28), has a smaller diameter than a central region (65) of the roller core (12) and that The discharge end of the screw conveyor (64) extends through the hollow stub shaft (28). Comminution roller according to one of the preceding claims, characterized in that the knife edges (22) are arranged at the passage openings (36). Comminution roller according to one of the preceding claims, characterized in that the knife edges (22) are designed as exchangeable knives.

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