DE2432494A1 - Plastics waste disintegrator with vertical axis rotor - has pref. helical deflector blades fixed to wall above rotor - Google Patents

Abstract

A disintegrator for plastics waste, esp sheets and blow-mouldings, comprises an upright vessel contg. a revolving beater or rotor in its lower part and stationary blades or projections extendng radially inwards from the vessel wall near to the rotor; oen or more inwardly oriented deflector surfaces are fitted to the inner wall of the vessel above the plane of the rotor, to deflect matl. downwards onto the rotor. Pref. each deflector surface is inlined downwards in the direction of rotation (counter-clockwise as viewed from above in the appts. shown) at 35-55 degrees tp the vessel axis. Each surface pref. projects inwards towards the axis at right angles to the vessel wall, its inner radial edge running parallel to the vessel wall; in partic. it may be constructed of an angle-iron section. The lower end is pref. 10-30 mm above the cutting edge of the rotor. As viewed in plan, the total projected length of all the deflector surfaces amts. to about one quarter of the circumference of the vessel. The leading edge of each, i.e., the upper edge, may have a cutback shape to provide a gradual lead-in for the matl.

Description

Device for converting plastic waste into granules The invention relates to a device according to the preamble of claim 1 Devices are known from DT-AS 1 679 834 and DT-PS 2 005 360 and under The name "Zerglomat" (WzO) or "Wasch Zerglomat" was introduced in specialist circles.

The waste material is processed for the purpose of a rotating impact shredding tool Thrown uncomminuted into the container, whereby the crushing work begins.

If necessary, a washing process is running at the same time. The waste is heated during the comminution and is agglomerated, compacted and, if necessary, by means of a refrigerant injected into the container is cooled.

During the shredding work, an evenly flaked one is created Debris that circulates in the container. This movement is created by the superposition of a rotary movement of the waste material due to the rotation of Impact comminution tool with an orbital movement with respect to a longitudinal plane through the container (vertical plane). The orbital movement comes through it comes about that the impact crusher, the waste material from a radially inner Position radially outwards, that it has reached the inner wall of the container, is pushed upwards and at a certain height of the inner wall of the container, the amount of waste and the speed of rotation of the impact shredding tool depends, is conveyed radially inwards and downwards, where it is again from the rotating Impact crushing tool is detected. This creates an even cycle in the form of a swirl sink, as it is already known from mixers.

As the waste material heats up, they are already partially sticking However, the flakes agglomerated into clods and lumps. This will make the Movement of the waste material described above for the shredding phase and thus also hindered the uniformity of the further heating of the waste material and even disturbed. The initially rotationally symmetrical intake vortex depression of the material forms namely to a parabolic surface of revolution and even to a radial above inwardly protruding annular bead.

These phenomena have the consequence that the waste on the inner wall of the container rises higher than usual, while at this point the Waste material has such a cross-sectional shape that the waste material is irregular falls to the lower center of the container. In special cases, e.g. when there is a lot Adding waste material can even lead to the formation of such a large bead of material come that it extends to the axis of the container. This means that the bead of material growing towards the center from all directions, colliding in the center and sticking together. This leads to the temporary falling off of large pieces of bead, which is a significant disruption of the process, and possibly even to a stable bridge or dome formation, which leads to the impact grinding tool running empty.

The invention is based on the object of specifying a measure with which the above-described disturbing phenomenon of uneven dropping of material lumps on the impact shredding tool, in particular the formation of bulges, is prevented. This task is solved by the measure according to the indicator of claim 1. This measure prevents from the outset that the conveying path of the Material on the inner wall of the container runs highly undisturbed. That on the container wall pushed up On the contrary, according to the invention, material becomes timely deflected radially inward, so that thereby the ideal circulatory movement over the entire working phase of the device and also in the case of one that is above the norm Supply of waste is guaranteed.

The subclaims have individual measures for the subject intensify the desired effect.

The invention is shown in the drawing using an exemplary embodiment shown. They show: FIG. 1 a device in a partial longitudinal section and FIG. 2 shows a cross section according to the line II-II in FIG.

A cylindrical container 13 rests on a base frame 1 in which a drive motor 2 is arranged axially adjustable in the direction a-b. Its hub 3 extends through a seal 14 and the container base 12 into the interior of the container.

One attached to the hub 3 and, when the device is in operation, in the direction of the arrow 20 revolving impact comminuting tool 4 has impact bars 5, which are fastened by means of clamping plates 6.

About the same height as the rotating impact shredding tool 4 are on the circumference of the cylindrical part of the container 13 fixed comminuting organs 8 provided in the form of plates or pins. They can be adjusted radially in the direction c-d and can be locked in the desired position by a terminal strip 7.

In the container lid 10 is an optionally closable filling opening 11 provided, the diameter of which must not exceed a certain amount in order to those thrown up by the impact during crushing and agglomeration To prevent waste plastic parts from exiting. An outlet 9 is on the cylindrical part of the container 13 is provided directly above the container bottom 12. He is through a flap 18 closable. For the addition of liquid for cooling are im Container lid 10 several nozzles 15 attached. Other nozzles 19 for blowing a cooling gas are provided in the container bottom 12.

An outlet is used to draw off the vapors during the cooling process 16, to which a fan can be connected. To observe the agglomeration process serves a thermometer 17, which is attached so that it is immersed in the material filling. By means of this thermometer, the injection can be carried out after the agglomeration process has ended of liquid and / or the injection of cooling gas can be triggered automatically.

On the wall of the container 13, as can be seen in particular from FIG. two together about a quarter of the circumference of the container 13 in their length SXweisbleche 21 and 22 fastened by means of screws 23. They consist of L-shaped Profile rods, which twist helically with the free leg upwards and Attached at an angle of about 400 in the direction of rotation according to arrow 20 inclined downwards are. This results in a with its lower end 25 about 20 courage above the Blow bar 5 lying deflection surface 24, which serves to remove the heated and agglomerating, first on the inner wall of the container 13 pushed up waste material from the inner wall to solve and redirect to the radial center of the container 13 The inclined arrangement the deflector plate allows in addition to the procedural advantage in a simple manner a height adjustment of the same using the existing holes for the screws 23 without the multiple arrangement of holes in the container must be provided.

In FIG. 2, a variant is shown on the deflector plate 22 insofar as its region which is located closest in the direction of rotation according to arrow 20r has a transition edge 26 extending from the inner wall of the container 13. In denied cases Such a shaping of the deflecting surfaces 24 allows the device to work more evenly.

Claims (8)

Claims 1. Device for transferring plastic waste, in particular of foils and blown parts, in a free-flowing granulate, with an inlet and a standing container having an outlet in its lower region rotatable - impact crushing tool for crushing, heating and agglomerating of the waste material is arranged, with the waste material on the container wall in the region of the driving impact arms of the impact comminution tool the waste material inhibiting counter tools are provided, characterized by one or more on the inner wall of the container (13) above the impact crushing tool (4) attached, from this after inwardly directed deflection surfaces (24). 2. Apparatus according to claim 1, characterized in that the deflection surface (24) in the direction of rotation (arrow 20) of the impact comminution tool (4) downwards is arranged inclined, preferably at an angle of about 35 to 55 ° to Container axis. 3. Apparatus according to claim 1 or 2, characterized in that the deflection surface (24) is arranged at right angles to the inner wall of the container (13). 4. Device according to one of claims 1 to 3, characterized in that that the radially inner edge of the deflecting surface (24) is parallel to the inner wall of the container (13) runs. 5. Apparatus according to claim 3 and 4 e, characterized in that the deflection surface (24) part of a helically twisted profile bar is, in particular an L-profile bar (deflector plate 21,22). 6. Apparatus according to claim 2 or claim 2 and one of the Claims 3 to 5, characterized in that the lower end (25) of the deflection surface (24) 10 to 30 mm above the height of the cutting element (blow bar 5) of the impact comminution tool (4) is arranged. 7. Device according to one of claims 1 to 6, characterized in that that the projection of the length of the single deflection surface or all deflection surfaces (24) together on a horizontal plane about a quarter of the circumference of the container (13). 8. Device according to one of claims 1 to 7, characterized in that that - seen in the direction of rotation (arrow 20) of the impact comminuting tool (4) - the closest area of the deflecting surface (deflector plate 22) one from the inner wall of the container (13) has outgoing over transition edge (26).