DE10234763A1 - Method of comminuting flexible bulk material involves precompressing material prior to cutting - Google Patents

Abstract

The method of comminuting bulk goods (2) has the material initially cut into large granules and then reprocessed to reduce the granule size. The bulk material is compressed (12) prior to comminuting (16) and held compressed prior to the second comminuting stage. The compressed bulk material can be reduced in width by multiple cutters spaced in the same plane. Claims include a comminuter using the method.

Description

The invention relates to a method and a device for crushing bulk material, the grain of which is highly flexible and its loose bulk up is compressible and that in a coarse grain of a device for Crushing bulk goods supplied by means of which the bulk material is converted into a finer grain. A generic device has at least one grinding agent for this purpose.

Inscribed in this document the term "bulk material" small-sized, loose, unwrapped Good. The smallest unit of bulk material is - independent of its shape or nature - as a "grain", one over one Variety of grains averaged Measure of Grain size named as "grain" of the bulk material. With "fill" is the location of the grains bulk goods described to each other.

For example, a bulk material is in a generic method a lot of collected film waste, especially those made of plastic. The individual pieces of film - for example Shopping bags, pieces of blister packs or large format Bubble wrap - will according to the above Definition as grains designated. Another example of a bulk material in the above sense is collected autumn leaves, like it is in recurring Rhythm in large Amounts. The individual leaves are here as grains named. In a loose fill these bulk goods are formed - favored by the leaf shape of the individual grains and their irregular arrangement to each other - air-filled cavities, their Volume the volume of the grains even far exceeds. The grain in the bulk materials mentioned by way of example is highly flexible: it sets its deformation - buckling, folding or compression in the direction of expansion - no significant resistance opposite. Such a loose fill is already under comparative low pressure highly compressible, provided the air escapes from the trained cavities and from the volume of the bed allows overall is.

Generic methods and devices for crushing bulk goods are used, for example, to process collected film waste for thermal purposes Recycling in industrial incinerators. The crushing of the foil pieces to a defined grain size is a necessary requirement for this use. On the one hand are large format pieces highly convective due to the leaf shape Effects exposed, making the location of the combustion unpredictable is. On the other hand, only the cut edges of the film pieces stand for the necessary Oxygenation in proportion surface required for the burned material. Already a few millimeters from the edges is spaced evenly and full Combustion in the usual in industrial furnaces Temperatures in favor of one - from energetic establish unwanted - annealing not achieved more.

Generic methods are generally known and devices essentially based on smashing, tearing or Cutting the individual grains of the bulk goods should work towards. For example, hammer mills are used that are in one cylindrical Drum a roller rotating in the axial direction of the drum with articulated attached to these hammers exhibit. The bulk material is fed to the drum the individual grains are crushed between the wall of the drum and the hammers and smash and the pieces through the sieve-shaped wall removed from the drum.

A device is also known the one in an equally cylindrical drum one in the axial direction the drum rotating drum with essentially in the axial direction extending, radially projecting cutting edges. The individual grains are cut from these cutting edges on counter cutting edges, which also are arranged radially protruding in the wall of the drum. Also here the wall of the drum is made sieve-shaped, the hole size of the sieve determines the grain size of the bulk material generated in the device.

The known method and device has in common that the one you want finer grain of bulk is not generated specifically. The grains in the process become - regardless of theirs current size - completely by accident Crushing agents are exposed and fall below the Hole size of the sieve-shaped wall taken. The residence time of a grain in the process is therefore only to determine statistically, the performance of the device is not exactly adjustable.

It is also disadvantageous the high expenditure on equipment, the required size of the known Devices and - in particular in hammer mills - the significant Noise and the wear of the Shredder to look at. It is also an adjustment the performance of the known devices essentially only by to achieve an adjustment of the rotational speed of the roller. In the described device with cutting edges on the roller is however with an increase the speed of work - or at "overloading" the drum - a regular increase of graining effects on the walls of the drum and among themselves and thus an increase in Observe working temperature, which in extreme cases is not too negligible fire hazard represents.

task

The invention is based on the object to provide a method and a device for comminuting bulk material, which enables the bulk material to be comminuted to a defined grain size with as little scatter as possible with little outlay on equipment.

solution

Based on the known methods solved this problem according to the invention in that the bed before the crushing and compresses the bulk material in this state by cutting is transferred into the finer grain. A device according to the invention is in addition to the generic features of the known devices, characterized in that the grinding means is a cutting tool to which the bulk material can be fed in compressed bulk and by means of which can be converted into the finer grit by cutting.

In a compressed bed the bulk density across from a loose fill on the one hand increased globally, on the other hand locally homogenized. The bulk material can be in this state processed like a solid material: through homogenization is opposite the known processes clearly reduce the size of the bulk material easier to control and control due to the increased density is a dodging of the bulk material difficult when the grinding agent is engaged.

The cutting method used according to the invention allow at least one sharp edge on a cut surface defined separation of a "piece" from the compressed bed. In particular, both the use of Cutting knives, as well as shearing processes with counter cutting to understand. The "piece size" becomes smaller than the grain of the fed bulk, the individual grain of the compressed bulk material is cut up and thus a finer grain generated. The finer grain is compressed by choosing the feed rate bulk on the one hand and the cutting frequency on the other hand can be set particularly easily.

The method according to the invention is special advantageous for crushing sheet-like bulk material, the grain of which in one Dimension has only a very small extent, can be used. Such bulk goods are, in particular, sorted plastic film waste. Controlled shredding such leaf-shaped Bulk goods in bulk fill is practically impossible. With the method according to the invention on the other hand, almost any is desired granulation achievable. So can also leaf-shaped Bulk goods in particular for the thermal recovery.

The cutting tool used has more advantageous Show several cutting edges, each with a small width, the spaced apart from one another in the sectional plane lying in the compressed bed intervention. The length that of the bulk material cut pieces is then essentially in the direction of the cutting edges Limited length. If adjacent cutting edges are also in the cutting direction staggered, so is the engagement of the cutting tool in the bulk material generated shock significantly mitigated. This measure diminishes the mechanical shock and vibration loading of the cutting tool and all associated Components, especially storage and connecting elements and thus on the one hand the requirements to be placed on these components, on the other hand but also immediately the noise development operational. The cutting tool comes in a device according to the invention therefore preferably one rasp - one Tool with a variety of narrower, behind in the cutting direction and cutting edges arranged next to each other - for use.

Alternatively, instead of several Cutting edges with a small width also use an over the entire cutting surface running cutting edge possible. Continuous cutting edges are basically in terms of manufacture and maintenance to be regarded as advantageous. With an unfavorable design or location of the bulk goods but the formation of cut pieces is possible, their Length the Width of the cut area reached or - at Folds in the clippings - even clearly exceeds. The cutting tool in a device according to the invention is then, for example a single or a plurality of shear blades arranged one behind the other. The above-described mechanical relief of the device according to the invention when using across the entire cut surface running shear knives reached when this compared to the Cutting direction are inclined.

The method according to the invention is preferred designed in such a way that the bulk material of the device in bulk fill supplied becomes. The process is then without intermediate storage, for example or treatment immediately after sorting the bulk used. But also intermediate stored or transported bulk goods in any Pack sizes and - can shape isolated using commonly known devices and be fed to the method according to the invention without further processing. The device of the invention the bulk material then in bulk more common in the specialist Way, for example, by belt conveyors or slides fed.

The device expediently has a Compression means by means of which the bulk material is compressible and on the bulk of which emerges can be fed directly to the cutting tool.

Are preferred within the framework of regular automated processes in industrial furnaces use continuous processes. This is advantageously achieved by means of a device according to the invention if a loose bed of the bulk material is fed into a funnel narrowing in the conveying direction. The bed emerging in strand form at the outlet of the funnel is then compressed with respect to the incoming bulk goods. This effect is favored if the funnel is arranged vertically with the outlet pointing downwards. The weight of the tracking bulk material then compresses the underlying bed. The walls of the funnel advantageously have a perforation which allows the air stored in the loose bed to escape.

A discontinuous one Compression means can be, for example, a laterally limited compression chamber that can be filled with loose bulk goods. Reaches the fill level a predetermined level, the supply is interrupted and the bulk material of a first stamp fed, for example, from above and at the end of the compression by means of a second stamp advanced in the direction of the cutting tool.

The compression effect is still significantly increased by a grant, by means of which the bulk material conveyable into the compression medium is. The funding preferably has in a device according to the invention at least one across the conveying direction rotating roller. Becomes bulk goods on the top surface the roller, so it is due to adhesive forces on this area moved in the circumferential direction of the roller. By using multiple, each other on the bulk flow across from lying and / or in the conveying direction This effect is in turn arranged behind rollers increased. Alternatively, you can both effects - the Compression and promoting of the bulk material - in which Known to those skilled in the art by using a worm gear be achieved.

A device according to the invention can the bulk material alternatively in an already compressed state - as a bale or as an endless one Strand formed - fed. The device according to the invention then only has to or provide holding means that prevent the bulk material from evading Prevent the cutting tool from engaging.

The distribution of a method according to the invention achievable grain sizes can homogenized particularly advantageously by a downstream sorting become. Different grain sizes can be used, for example, in a manner known to those skilled in the art by grids with different perforations or by centrifuges be separated. The method according to the invention allows unproblematic the repatriation of insufficiently shredded bulk material in front of the cutting tool.

embodiment

In order to explain the invention, an exemplary embodiment is shown below in a schematic representation. The figure shows a device according to the invention 1 for crushing bulk goods 2 , The bulk material 2 is a mixture of plastic film pieces, not shown individually, as it is provided in similarly not shown bale-shaped containers by recycling companies after a rough sorting of packaging waste for thermal recycling as the main fuel for industrial furnaces. The size of the film pieces is in the range between a few square centimeters and several square meters, their thickness varies between a few hundredths and several tenths of a millimeter.

The bulk goods delivered in containers 2 is isolated in a manner not shown but familiar to the person skilled in the art and by means of a rotating conveyor belt 3 with horizontal conveying direction 4 the device 1 in loose fill 5 with a medium dumping height 6 fed. To the device 1 The bulk goods are protected from damage 2 on the conveyor belt 3 under a metal detector 7 passed through. When a metallic foreign body, not shown, is detected by a signal from the metal detector 7 the drive of the conveyor belt, not shown 3 decommissioned, allowing manual removal of the foreign body.

The device 1 points to the conveyor belt 3 then one against the conveying direction 4 open inlet 8th with a substantially rectangular cross-section. A funnel-shaped guide plate 9 ensures that even pieces of film that are well above the mean dumping height 6 protrude, safely into the inlet opening 8th be performed.

Behind the inlet opening 8th is a grant 10 in the form of two opposing, counter-rotating, profiled rollers 11 arranged by means of which the bulk material 2 into a compression medium 12 in the form of a funnel-shaped channel 13 to be led. Through this channel 13 - supported by the funding 10 - becomes the bulk material 2 continuously compressed and pressed into strand form. To block the compression medium 12 the top wall should be avoided 14 of the channel 13 resiliently mounted upwards in a manner not shown. In this way, pieces of film that offer a higher resistance to their compression can also be used by the compression means 12 are promoted through.

That from the compression medium 12 in compressed bed 15 Bulky bulk material leaving almost no air pockets 2 is applied directly to the grinding medium 16 guided. The grinding agent 16 is one around a horizontal axis 17 rotating cylindrical rasp 18 made up of each other, not shown individually pelt coarse circular saw blades with set teeth.

The grinding agent 16 is inside a box-shaped housing 19 arranged that at its bottom 20 a horizontal grid 21 having. The hole size of the grid 21 corresponds to the maximum allowable grain size with the device 1 should be generated. The above and below the grid 21 Grains are deposited in a manner not shown by a return air stream 22 the device again 1 or through an outlet air stream 23 fed directly to an incinerator, not shown.

The device shown 1 allows the bulk material to be shredded with little expenditure on equipment and low energy consumption 2 to a defined grain size from about 0.1 to several millimeters. The scatter of the grain size is extremely small. Due to the simple structure, a combination of several devices is possible 1 to supply an industrial incinerator with fuel. If a line fails - for example due to the detection of a metallic foreign body in the bulk material 2 - The supply can be ensured by temporarily increasing the performance of the remaining lines.

Increasing the performance of the device 1 In contrast to the known devices, there is also no problem in wide areas: the throughput of the device 1 is the rasp even at low speeds 18 comparatively high. The performance is at the device 1 rather by the performance of the compression medium 12 than the grinding agent 16 limited. The device is of a similar design 1 can also be used to shred non-film-shaped plastics, paper, cardboard or wood.

Because the device 1 has only a limited number of moving parts, both wear and maintenance are very low. If individual saw blades are damaged or worn, they can simply be replaced or re-sharpened. The circular saw blades used are also a mass product that represents only a small cost factor.

l.

contraption

Second

bulk

Third

conveyor belt

4th

conveying direction

5th

loose fill

6th

middle dumping height

7th

metal detector

8th.

inlet port

9th

guide plate

10th

funding

11th

roller

12th

compression means

13th

channel

14th

upper wall

15th

compressed fill

16th

crushing means

17th

axis

18th

grater

19th

casing

20th

ground

21st

grid

22nd

Return air flow

23rd

Outlet air flow

Claims (10)

Process for crushing bulk material, the grain of which is highly flexible and its loose bulk up is compressible and that in a coarse grain of a device for Crushing bulk goods supplied by means of which the bulk material is converted into a finer grain, characterized in that the bed compresses before crushing and the bulk material is converted into the finer grain in this state by cutting. Method according to the preceding claim, characterized in that that the compressed bulk material is cut by means of several small width cutting edges, spaced apart from each other in the cutting plane lie. Method according to one of the preceding claims, characterized in that that the bulk material the device in bulk supplied becomes. Method according to one of the preceding claims, characterized in that that the fill continuously pressed into strand form and cut in this state becomes. Method according to one of the preceding claims, characterized in that that the bulk produced after crushing is sorted according to the grain size becomes. Contraption ( 1 ) for crushing bulk material ( 2 ), whose grain is highly flexible and whose loose fill ( 5 ) is highly compressible, whereby the bulk material ( 2 ) the device ( 1 ) can be fed in a coarse grain size and by means of a grinding agent ( 16 ) can be converted into a finer grain size, characterized in that the grinding agent ( 16 ) is a cutting tool to which the bulk material ( 2 ) in compressed bed ( 15 ) can be fed and by means of which it can be converted into the finer grain by cutting. Contraption ( 1 ) according to the preceding claim, characterized in that the grinding means ( 16 ) a rasp ( 18 ) having. Contraption ( 1 ) according to one of the aforementioned device claims, characterized by a compression means ( 12 ), by means of which the bulk material ( 2 ) compressible and at the outlet the bulk material ( 2 ) directly to the grinding agent ( 16 ) can be fed. Contraption ( 1 ) according to the preceding claim, characterized by a funding ( 10 ), by means of which the bulk material ( 2 ) in the compression medium ( 12 ) is eligible. Contraption ( 1 ) according to the preceding claim, characterized in that the funding ( 10 ) at least one across the conveying direction ( 4 ) rotating roller ( 11 ) having.