EP2218508A1 - Grinding device - Google Patents

Abstract

The device has a material receiving unit filled with a grinding material, a dwell pressing device with a dwell-pressing unit and a drive unit. The dwell-pressing unit is pivoted around an axle such that the grinding material is pressed at a rotor. The dwell-pressing unit completely stays in a region at the material receiving unit, and includes convex or concave curved dwell-pressing surface. The dwell-pressing unit is pivoted to a wall of the material receiving unit, where the rotor includes a rotor axle that is arranged parallel to an operated shaft.

Description

Field of the invention

The present invention relates to a comminution device for comminuting material, in particular in the form of waste products, and more particularly to a comminuting device having an urging device.

State of the art

Commercial waste, industrial waste, household waste, etc., e.g. (Hard) plastic, textiles, composites, rubber or waste wood (such as pallets and chipboard), require crushing before their final disposal or in particular before returning to the recycling cycle. For comminution, single or multi-shaft shredders are known in the prior art, which are fed, for example, by wheel loaders, forklifts or conveyor belts via a hopper for material feed.

A central element of a conventional crusher is a rotor unit comprising a rotor provided with tacks or knives, e.g. B. can be provided with concave ground Rundschneidkronen equipped. The knives are attached, for example, by screwing on knife carriers, which are welded in knife pockets or z. B. can be screwed, which are milled into the rotor. The comminution of the discontinued material occurs between the blades rotating with the rotor and stationary ones, i. non-rotating counter knives (stator knives, scraper combs).

The discontinued material can be pressed by an example load-dependent controlled Nachdrückeinrichtung in the direction of the rotating rotor. After crushing between the rotating knives and the counter knives, the material is passed through a sieve device, which reduces the crushing factor according to the Sieve size determined, discharged and conveyed by means of a conveyor belt, a screw conveyor, a chain conveyor or an extraction system, etc.

Particularly in the case of waste products of low specific gravity or also in the case of waste products which are to be bulked, the pressing of the material to be comminuted towards the rotor for comminution is essential or at least for a commercial efficiency with regard to the throughput rate.

In the prior art ( DE 40 26 795 C3 ) a drawer pusher (slide) is known for a residual wood crusher comprising a ram which in turn comprises a press plate which presses the scrap wood horizontally or at a finite angle to the horizontal of the overall structure towards the rotor. Such a drawer pusher is installed mounted within the crushing device on guides. These guides, however, necessarily pollute in the course of the crushing operation, whereby a perfect comminution operation can be disturbed. In addition, the drawer pusher increases the space requirement of the crushing device.

In an alternative embodiment, the pusher is pivotally installed and not completely integrated in the task and crushing space of the crushing device, but has a guided through an opening of the hopper wall pressure plate, which is movable parallel to the rotor (see AT 402 804 B ). Even with this design, the space requirement is disadvantageously relatively high. In addition, the sealing of the guided through the breakthrough contact pressure element is problematic, since even if the pressure plate is guided guide-free to the pressure of the same, waste products reach the edges of the opening and so can greatly impede the Nachdrückvorgang.

It is thus an object of the present invention, in view of the above problems, to provide an improved crushing device with a pushing device which is as small as possible in space and whose reliability and operating efficiency are not or at least less known than in the prior art a hindrance of the Nachdrückvorgangs is affected by shredding waste products.

description

As mentioned above, pusher devices can be differentiated into those in which a push pusher performs a linear sliding movement, and those which move the material to be milled to the rotor by a pivoting movement. The present invention relates to an improved Nachdrückeinrichtung with a Nachdrücker the pivotal type.

• einen Materialaufnahmeraum, in den das zu zerkleinernde Material einfüllbar ist;
• einen Rotor; und
• eine Nachdrückeinrichtung mit einem Nachdrücker und einer Antriebseinrichtung für den Nachdrücker, wobei der Nachdrücker derart um eine Achse schwenkbar ist, dass er das zu zerkleinernde Material zum Rotor drückt, und wobei der Nachdrücker im Betrieb (also wenn er insbesondere während der Zerkleinerung des Materials von der Antriebseinrichtung der Nachdrückeinrichtung angetrieben wird) vollständig im Materialaufnahmeraum verbleibt.

The above object is achieved by a comminution device according to claim 1, that is to say a comminution device for comminuting material, which comprises:

• a material receiving space into which the material to be shredded can be filled;
• a rotor; and
• a Nachdrückeinrichtung with a Nachdrücker and a drive device for the Nachdrücker, wherein the Nachdrücker is pivotable about an axis such that it presses the material to be crushed to the rotor, and wherein the Nachdrücker in operation (ie, in particular during the crushing of the material of the Drive device of the Nachdrückeinrichtung is driven) completely in the material receiving space remains.

This crushing device thus comprises a Nachrückeinrichtung whose Nachdrücker is completely installed in the material receiving space of the crushing device. This means, in particular, that the overpressure, which is in direct contact with the material to be pressed against the rotor via an impression surface during the pivoting movement, is not pivoted outwardly or outwardly beyond the material receiving space of the comminuting device, but completely within the comminuting operation This material receiving space (the funnel space) remains and thus allows a substantially closed construction of the crushing device without faulty incident by waste products to be shredded, such as on guide rails or at sealing points of housing openings.

It is understood that the material receiving space represents the at least partially defined by walls interior of the crushing device, in which the material to be crushed is introduced and within which the follower pushes this material towards the rotor. This interior space can be such a space, which can be enlarged or enlarged by structures of any kind, for example funnel-shaped structures for material application. In particular, the material receiving space is to be distinguished from the outer space of a crushing device, in which a Nachdrücker of the prior art, as shown in the AT 402 804 B is pivoted out of the crushing device to press in opposite direction pivotal movement of the material to the rotor.

The direction of rotation of the pivoting movement of the pusher is advantageously opposite to the direction of rotation of the rotor in order to ensure a particularly efficient pressing of the material to be comminuted on the rotor provided with knives or nippers.

The crushing device may generally comprise a feed opening for the material feed and a discharge opening provided with a screen for discharging the crushed material, and further comprising a first conveyor for conveying a material stream to be processed into the material receiving space of the crushing device, and second conveyor, which is provided for conveying the output from the crushing material components, the crushing device downstream. The material to be shredded may in particular be wood, plastic or textile waste products or other industrial, agricultural and household waste.

In particular, the drive means of the push-in device may comprise a drivable shaft which extends partly within the material receiving space and at which the push-pull is completely fixed within the material receiving space. The drivable shaft of the pressing device can be rotatably mounted, for example, in one or two walls, which partially define the material receiving space.

The drivable shaft may be arranged parallel to the rotor axis. A rotation of the driven shaft thus leads to a pivoting movement of the pusher in a certain angular range (see also below description of the FIG. 1 ).

The driven shaft may be connected to drive with a lever mechanism as part of the drive means outside the material receiving space of the crushing device. The fact that the lever mechanism is mounted outside of the material receiving space, it is not affected by the material to be crushed, which could interfere with a corresponding linkage or even partially blocked if it were installed within the material receiving space.

According to a further development, the comminution device according to the invention may furthermore and also outside the material receiving space comprise a hydraulic cylinder or pneumatic cylinder, which is connected to the lever mechanism and is designed to drive the axle via the lever mechanism. Such cylinders provide reliable, relatively inexpensive and easy to maintain or exchangeable drive means. Alternatively, at least one motor drive, in particular a servo motor or a torque motor, may be provided for driving the axle.

The Nachdrückfläche the Nachdrückers can be pivotable in any operating condition without contact with any of the material receiving space at least partially defining walls with the Nachdrücker. In particular, no guides (guide rails) must be provided in the interior of the material receiving space (funnel space) of the comminution device, via which the pressing surface would contact one of the walls along which the overpressure would have to move and which would inevitably become soiled during operation proper work of Nachdrückeinrichtung would be hindered. The pressing surface can therefore exert a force on the material in contact with the material to be comminuted, in particular without guidance.

According to an advantageous development, the force on the pressing surface perpendicular or substantially perpendicular or at a small angle (about 10 ° to 20 °) to the rotor axis and along the pivoting movement of the material to be crushed be exercised. In an exemplary embodiment, the pressing surface is not formed continuously flat, but has a concave or convex surface relative to the material to be pressed to the rotor in order to press this efficiently to the rotor. As used herein, the term push face refers generally to a surface of the push button which, in use, contacts the material and serves to transmit force corresponding to the torque of the driven shaft to that material.

The crushing device according to the invention may further be configured such that the pusher is at least partially pivotable out of the material receiving space of the comminution device in a maintenance state which is different from each operating state of the operation of the pusher. While in each operating state (that is, during the crushing of the material to be shredded), the pusher always remains completely installed in the material accommodating space of the crushing device (that is, it remains completely in the material accommodating space for each panning state during the crushing operation), it may be advantageous for maintenance purposes to pivot the pusher out of the material receiving space so that a serviceman has easy access to it without having to go into the comminution device.

In the maintenance state, the pusher can be pivoted out of the material receiving space of the comminuting device such that the poppet surface is partially or outside the material receiving space in this maintenance state. Since this is subject by the contact with the material to be crushed and the power transmission to this by the pivoting movement of particular wear, so easy accessibility to this Nachrückfläche can be achieved for maintenance purposes.

Further features and exemplary embodiments of the present invention will be explained in more detail with reference to the drawing. It is understood that the embodiments do not exhaust the scope of the present invention. It is further understood that some or all of the features described below may be combined with each other in other ways.

FIG. 1 FIG. 10 illustrates an example of a crushing device according to the present invention, which comprises a pusher completely installed in the material receiving space of the crushing device.

As in FIG. 1 As shown in FIG. 1, an exemplary vertical crusher in accordance with the present invention includes a rotor for crushing garbage material in cooperation with fixed counter knives fixedly secured to the crusher housing on both sides of the rotor. The shredded material is discharged through a sieve device mounted below the rotor and extending between the counter knives.

A fully built in the material receiving space of the crusher pushes in operation abandoned waste material by pivoting movements against the rotating rotor. Two operating states of the pusher are in FIG. 1 shown by solid or dashed outlines thereof. In the example shown, the pusher has a material which is to be pressed towards the rotor in relation to a concave pressing surface a.

The range of angles between an operating condition in which the piercing surface is furthest from the rotor and that closest to the rotor is less than 90 °, for example less than 80 ° or less than 70 °. According to the invention, in each of these operating states of the crusher or the post-processor, the crusher remains completely in the material receiving space of the crusher.

The pusher is driven by a shaft on which it is supported to the pivoting movement for pressing the crushing material. The shaft is, for example, with a mounted outside of the material receiving space lever mechanism, which in turn is driven by a hydraulic or pneumatic cylinder (see dotted outline in FIG FIG. 1 ), or with similar systems that provide the torque required for operation on the shaft.

The waste material to be shredded is pressed against the rotor by the pusher, where it is effectively crushed and finally discharged through the screening device.

It is understood that the comminuting device according to the invention comprises both single-shaft and multi-shaft shredders and in particular vertical shredders. Likewise, the crushing device according to the invention comprises Einwellengrobzerkleinerer, which can be preferably used for pre-crushing unsorted material.

Claims (11)

A shredding device for shredding material, comprising: a material receiving space into which the material to be shredded can be filled; a rotor; and a Nachdrückeinrichtung with a Nachdrücker and a drive device for the Nachdrücker, wherein the Nachdrücker is pivotable about an axis such that it presses the material to be crushed to the rotor, and wherein the Nachdrücker remains in operation completely in the material receiving space. The crushing device of claim 1, wherein the material receiving space is bounded on at least one side by walls and the pusher includes an impression surface by which it pushes the material to be shredded to the rotor, and wherein the pusher without contact of the impression surface with one of the walls of Material receiving space is pivotable. The crushing apparatus according to claim 1 or 2, wherein the rotor comprises a rotor axis, and the pressing surface in contact with the material guides a force on the material substantially perpendicular to the rotor axis. The crushing device according to one of the preceding claims, in which the pressing surface is concave or convexly curved The crushing device according to any one of the preceding claims, wherein the pusher is completely mounted within the material receiving space on a drivable shaft. The crushing device according to claim 5, wherein the drivable shaft is arranged parallel to the rotor axis. The crushing device according to claim 5 or 6, wherein the drivable shaft is connected for driving with a lever mechanism outside the material receiving space. The crushing device according to claim 7, further comprising a hydraulic cylinder or pneumatic cylinder connected to the lever mechanism and adapted to drive the axle via the lever mechanism. The crushing device according to claim 7, further comprising at least one motor drive, in particular a servomotor or a torque motor, which is connected to the lever mechanism and is adapted to drive the axle via the lever mechanism. The crushing device according to one of the preceding claims, in which the pusher is at least partially pivotable out of the material receiving space of the crushing device in a maintenance condition. The crushing apparatus according to claim 10, wherein in the maintenance condition, the pusher is pivotable out of the material accommodating space of the crushing apparatus such that the nipping surface is outside the material accommodating space in this maintenance condition.

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