DE19601029C2 - Process and device for processing waste - Google Patents

Description

The invention relates on the one hand to a method for processing waste, in particular residual and / or domestic waste, with a pre-shredding of the waste for Formation of a uniform material flow, magnetic separation of FE Metal parts, a suction of light fraction parts, a sieving, a Nachzer reduction of waste and separation into coarse and fine fraction parts as well as a The coarse and fine fraction parts are fed to separate containers and on the other hand, to an apparatus for performing the method.

Unless waste is already pre-sorted by the producer according to its material properties in order to ensure easy recycling of the materials is a subsequent sorting, in particular of residual or household waste into usable materials lien only with difficulty and with disproportionately high costs.

According to the current state of the art, the rest or house is divided garbage into usable materials either by pre-sorting or by intervention from Hand, which takes a considerable amount of time.

DE 31 05 597 C2 is a method and a device of the above  Art to take. In the known method, the iron parts are removed Waste fed to a first fractionation unit, in which a fine through a vibrating screen fraction, through a suction unit directed onto the top of the vibrating screen, a first specific light coarse fraction and one that does not pass through the sieve or because of their weight, the first, specifically heavy, coarse fraction that cannot be extracted is produced. The specific light coarse fraction as well as the specific heavy fraction are then fed to separate shredding units. The procedure is complex and requires at least two secondary comminution to carry it out units.

DE 24 49 689 C3 describes a method for the notation of municipalities and businesses described garbage. It is provided that after magnetic deposition There is a rough crushing of scrap components and the roughly crushed ones Waste components with a horizontally directed air flow Separate waste components of different weights. Subsequently the separated fractions are subsequently or finely comminuted in redesigned ones Units. In this process, too, there is first a step after the rough crushing Division into different fractions, which are then individual re-shreds tion units are supplied. To separate the waste components are complex Process steps are necessary and at least to carry out the process two post-shredding units required for the respective fractions.

The present invention has for its object a method for working up of waste, in particular residual and / or household waste, and a device for Implementation of the procedure to provide waste as possible without Sort pre-sorting or interventions by hand into recyclable fractions that are used for Example can flow into material flows that already exist in landfills.

According to the invention, the object is achieved in the generic method by  that the waste is first fractionally re-shredded after magnetic separation and then the sieving of the fractionally re-shredded waste and the Aspiration of light fractions takes place.

The procedure according to the invention enables a quick and safe division which enables waste in material flows of recyclable material parts without time-consuming pre-sorting or interventions have to be carried out by hand.

Through the preliminary or coarse shredding of the waste, for example, the Waste plastic bags torn open and on the other hand the waste itself Roughly crushed formation of a uniform material flow. From the so prepared Material flow makes it easy to find FE metal parts by magnetic deposition discard. By re-shredding the remaining waste in One step in the process is suctioning off light fraction parts or sieving in coarse and fine fractions.

In particular, it is envisaged that a fractionator in the secondary shredding of the waste comminution of mixed materials contained in the waste depending on their physics properties such as plasticity, elasticity, tear resistance and brittleness he follows. This ensures that especially brittle materials are severely crushed become. Materials such as plastic films, paper and textile waste, on the other hand, are used in the Post-crushing only coarse, d. H. torn into suction parts so that they are at the outlet a shredder such as shredders can be extracted as a light fraction. As Shredder is particularly suitable for such a construction as this WO 95/08425 A1 can be found, to which reference is expressly made.

A special procedure provides that the organic / biogenic fraction is set in the coarse fraction over the mesh size of the screening device. It is thereby achieved that the coarse fraction is essentially difficult to extract  organic parts such as wood or biogenic materials that are suitable for suitable for composting or fermentation.

Another particular advantage of the procedure according to the invention is that mention that no waste water is generated during the processing of the waste and that the method does not exceed sound emissions of, for example, 100 dBA be.

A device for processing waste, in particular residual and / or Domestic waste, according to the preamble of claim 5, is characterized in that the waste from the first shredder The second shredder can be fed to the second shredder via the conveyor belt Shredder upstream of the magnetic separator and the sieving device and the Suction device is subordinate and that the FE metal parts, light fraction parts and coarse and fine fraction fractions via transport devices separate containers are feedable. In particular, the segregated portions over at least two Transport devices such as conveyor belts are fed to separate containers.

By arranging the magnetic separator in front of the second shredder, it becomes relieved of the crushing of metallic parts. Larger FE-Me can also be used Capture tall parts more easily with the magnetic separator.

It is also provided that the suction device with a first pipe a material separator arranged above a container is connected and that the Material separator in turn via a throttle valve and a second pipe device is connected to the suction device.

After a training to be highlighted, it is proposed that the suction direction is coupled to the second shredder for the extraction of fine dust and that the suction device has a fine dust repellency. This ins  special dust emissions avoided during the fine comminution of the waste.

In an advantageous embodiment, it is provided that the screening device Has vibrating table with a sieve, the mesh size is freely selectable. By varying the mesh size, the organic / biogenic fraction in the Fine fraction depleted and transferred to the coarse fraction. Of course, one Vibrating table also by other separating devices such as a vibration sieve to be replaced.  

The follows Description of the drawing gene to be taken embodiment.

Show it:

Fig. 1 is a process diagram of a residual / domestic waste processing and

Fig. 2 is a schematic arrangement of device components.

In Fig. 1, a process scheme or concept of residual / domestic waste processing is shown in principle. Thus, waste 10 such as residual or domestic waste is fed to a shredder 12 smaller than shredder and, after comminution, is passed on to a sorting device 14 described in more detail below. In the sorting device 14 , the residual / domestic waste is divided according to the invention into different material flows 16 , 18 , 20 , 22 .

A distinction can be made in particular

• a light fraction 16 , consisting essentially of plastic, paper and textiles,
• a metal fraction 18 , essentially consisting of FE metal components,
• - A coarse fraction 20 , which is composed essentially of organic parts such as wood and biogenic materials that are difficult to extract and
• - A fine fraction 22 , which has predominantly mineral components such as glass and ceramic.

The substances or material streams 16 , 18 , 20 , 22 thus separated can be thermally or materially recycled, com posted or deposited and fermented, depending on their physical and chemical material properties.

FIG. 2 shows a schematic arrangement of a device 24 for processing residual / domestic waste. The device 24 essentially consists of the pre-shredder 12 and the sorting device 14 .

The residual / domestic waste 10 is fed via a hopper 26 to the pre-shredder such as shredder 12 , which, for. B. is driven by a hydraulic motor. The pre-shredder 12 has, among other things, the tasks that envelop the residual / domestic waste, tear open the plastic bags and enable a uniform material flow. The residual / domestic waste 10 to be shredded in the shredder 12 is successively drawn downwards by pairs of oppositely running, interlocking strong teeth within a housing of the shredder. The crushing effect of the strong teeth or protrusions such as knives or blades are arranged on a pair of shafts. Of course, several pairs of shafts can also be provided, so that the material is subjected to several comminution stages. It is provided that the shafts of each pair have different rotational speeds. The shafts are supported on both sides and are preferably driven separately from one another by hydraulic motors, so that, in the case of a pair of shafts, one shaft rotates at a different speed from the other.

The residual / domestic waste 10 is drawn downwards by the pre-shredder 12 to an opening 28 , the residual / domestic waste 10 being successively shredded into smaller parts by the residual / domestic waste being sheared apart by the interlocking strong teeth.

A transport device, such as a conveyor belt 30, is arranged below the opening 28 of the pre-shredder 12 , by means of which the shredded waste is transported in the direction of an arrow 32 to a second shredder or re-shredder 34 . The secondary shredder 34 is preferably also a shredder.

A magnetic separator 36 runs between the pre-shredder 12 and the post-shredder 34 above the conveyor belt 30 for separating FE metal parts from the shredded waste. The magnetic separator 36 has an overband magnet 38 running transversely to the conveyor belt 30, which takes up the metal fraction 18 in the form of FE metal parts from the comminuted waste and transports it in the direction of the arrow 40 into a collecting container 42 .

A subsequent comminution or fractional comminution of the remaining residual / domestic waste takes place in the shredder 34 . In particular, mixed materials are shredded depending on their physical properties such as plasticity, elasticity, tear resistance and brittleness.

The shredder 34 can consist of a rotor with the rows of blades projecting generally radially outward. The rotor is surrounded by a housing with generally inwardly directed rows of knives as a stator. The rotor and stator blades are staggered, with one or more rotor blades running between adjacent stator blades. The fractional shredding is done by interaction of the waste materials with the knife rows of the rotor and the stator. The stator can be moved hydraulically for cleaning purposes. The rotor can be driven on both sides via V-belts and a hydraulic motor.

The material leaving the shredder 34 passes into a screening device 44 , in which the coarse fraction 20 and fine fraction 22 are generated. The plastic films, paper and textile waste contained in the residual / domestic waste are only roughly torn in the shredder 34 and can be sucked out of the coarse fraction 20 at the outlet 46 of the shredder 34 via a suction device 48 as a light fraction 16 .

The light fraction 16 is fed to a collecting container 54 via a pipeline 50 and a material separator 52 . The material separator 52 is in turn connected to the suction device 48 or the shredder 34 for air recirculation via a throttle valve 56 and a further pipeline 58 . In order to prevent dust emissions, the suction device can have a fine dust separator 56 .

Due to the high energy content of the light fraction 16 , this can optionally be used thermally in granular form as a substitute fuel. If the proportion of plastic is high, recycling as a mixed plastic fraction is also conceivable.

As mentioned, the non-extractable material leaving the shredder 34 is separated into a coarse fraction 20 and a fine fraction 22 via a sieving device 44 . For this purpose, the screening device 44 has a vibrating table 60 with a screen 62 , the mesh size of which can be freely adjusted. As a result, the separation limit between coarse and fine fractions can largely be freely selected.

The fine fraction 22 preferably contains the mineral components of the residual / domestic waste, since brittle materials are severely shredded in the shredder 34 . By varying the mesh size of the sieve 62 , the organic / biogenic fraction in the fine fraction is depleted and transferred to the coarse fraction. The coarse fraction 20 is composed essentially of organic parts which are difficult to extract, such as wood or biogenic materials, which are suitable for composting or fermentation.

The coarse fraction 20 is fed via a conveyor belt 64 in the direction of an arrow 66 to a collecting container 68 . The fine fraction 22 is likewise fed via a conveyor belt 70 in the direction of an arrow 72 to a collecting container 74 .

The method according to the invention thus enables waste to be processed different, reusable material flows, without a pre-sorting or a Hand grips into the waste stream are necessary. A particular advantage is that further emphasize that the processing is purely mechanical, so that none Wastewater is generated. It should also be mentioned that the maximum sound immission, for example, with hard materials in the waste, does not exceed 100 dBA. The The odor emissions that occur correspond to those of normal residual / domestic waste.

It goes without saying that the method according to the invention and the device for the through implementation of the process is not limited to the processing of residual / domestic waste. The The above description only represents a particularly preferred exemplary embodiment.

Claims (9)

1.Process for the processing of waste, in particular residual and / or domestic waste, whereby a pre-shredding of the waste to form a uniform material flow, a magnetic separation of FE metal components, a suction extraction of light fraction components, a sieving, a secondary shredding of the waste and one Separation into coarse and fine fraction parts and a feed of the coarse and fine fraction parts to separate containers is carried out, characterized in that the waste is first fractionally shredded after magnetic separation and then the sieving of the fractionally re-shredded waste and the suction of light fraction parts takes place. 2. The method according to claim 1, characterized in that Mixed materials depending on their physical substance properties, such as plasticity, Elasticity, tear resistance and brittleness are crushed. 3. The method according to claim 1 or 2, characterized, that materials such as plastic films, paper and textile waste into suction parts torn and that brittle materials such as glass or ceramics are crushed  become. 4. The method according to one or more of the preceding claims, characterized, that organic / biogenic fractions of the coarse fraction over the mesh size of the Screening device can be set. 5.Device for processing waste, in particular residual and / or domestic waste, with a first shredder, the starting materials of which can be fed to a magnetic separator via a transport device for separating ferrous metal components from the shredded waste, and with a second shredder, one Suction device for separating light fractions and a sieving device for separating coarse and fine fractions, characterized in that the waste ( 10 ) from the first shredder ( 12 ) via the conveyor belt ( 30 ) can be fed to the second shredder ( 34 ) that the second shredder ( 34 ) the magnetic separator ( 36 ) upstream and the sieve device ( 44 ) and the suction device ( 48 ) and the FE metal parts ( 18 ), light fraction parts ( 16 ) and coarse and fine fraction parts via transport devices ( 38 , 50 , 64 , 70 ) separate containers ( 42 , 54 , 68 , 74 ) are audible. 6. The device according to claim 5, characterized in that the suction device ( 48 ) via a first pipe ( 50 ) with a arranged above a container ( 54 ) like containers arranged material separator ( 52 ) and that the material separator ( 52 ) in turn on a throttle valve ( 56 ) and a second pipe ( 58 ) is connected to the suction device ( 48 ). 7. The device according to one or more of claims 5 to 6, characterized in that the suction device ( 48 ) is connected to the second shredder ( 34 ) for suction of fine dust. 8. The device according to one or more of claims 5 to 7, characterized in that the suction device ( 48 ) has a fine dust separator. 9. The device according to one or more of claims 5 to 8, characterized in that the screening device ( 44 ) has a vibrating table ( 60 ) with a screen ( 62 ), the mesh size of which can be freely selected.