DE4413288C2 - Device for the selection of rubble - Google Patents

Description

The invention relates to a device for the selection of Building rubble with a conveyor for feeding the separating material on an i.w. horizontal vibration channel and with a downstream air classifier to separate out Lightweight fabrics that collect organs for each other Connect separated substances.

In such devices, the air classifier has the task Light materials, for example paper, plastic parts, Remnants of material made of polystyrene, wood or the like, from the heavier ones Separate minerals. Because, especially with building rubble, the The proportion of heavy substances is relatively large this at the end of the conveyor in front of the air outlet of the Air classifier a relatively thick, uninterrupted Layer that the blowing out of the light substances through the Windsifter disabled.

DE 37 08 180 A1 describes a device at the beginning Outlined design described and shown. Be at this the substances intended for reprocessing via a Conveyor belt placed on a vibrating screen where there is already one Division into four fractions with different ones Size classes are done. The first fraction with the smallest Particle is already falling down over the vibrating screen while the other three fractions in three side by side Outlet channels, in which they initially slant downwards and then fall onto horizontal sections of the channels. The horizontal sections of the channels, again as  Vibratory conveyors are trained, lead the coarser fractions in three view chamber shafts, where blow-out nozzles E.g. Wood or plastic, through an opening in each blow so-called relaxation chamber. In this fall the Contamination through a lower discharge opening Conveyor belt.

In this known system, the conveyor belt Subordinate vibrating sieve the task, the material in fraction to divide them up, which then lead - diagonally downwards Channels - fall again on vibratory conveyors to then over an inclined surface in the area of the blow-out nozzles reach. Apart from the fact that the design effort at Device with a vibrating screen and three vibrating conveyors is considerable, they are in every viewing bay provided exhaust nozzles unable to get out of the sliding material the lighter impurities to blow out properly. The reason for this is too see that from the horizontal channel sections sliding fabrics form a layer that looks like a impenetrable curtain slides down in front of the exhaust nozzles and their openings clogged with time.

Similar difficulties are also with the Waste sorting device to be expected according to EP 0 303 034 A2. Here will the material is fed on two conveyor belts, between which a blow opening should ensure that the material moves and roughly segregate. That gets behind the second conveyor belt Material in a chute with a screen through which Blow out light and flat objects through the blown air and to promote against a vacuum screen drum. Here too the garbage falls off the conveyor belt in the form of a dense, impenetrable curtain down the screen wall so that it failed to completely counter the lighter components To blow the sieve drum.  

In the DE brochure "Sorting plant for recyclables from the" Greens Ton "with the help of the LINDEMANN separating device" is a Conveyor with a comb-like end, not further explained shown, which lies over a turntable, the body-shaped Separate parts from flat materials.

The invention has for its object a device for To make available a with little constructive effort complete separation of the light materials from the heavier fabrics.

In a device of the type specified, this task solved according to the invention in that of the in the conveying direction protrude the front end of the vibrating trough fingers that one Form a comb that lies above that in a vertical plane Air outlet of the air classifier lies.

This solution has the significant advantage that this too selecting material after loosening on the - single - Vibration trough not as an impenetrable curtain in front of the Air outlet of the air classifier falls down or slides down, but at the end of the vibrating channel through the Comb is divided into two fractions, the two of each other spaced layers before the air classifier air outlet falling off. That way, those in the two Fractions of existing light materials are blown out even better will. In practice, it turned out that in the end the selection achieved a degree of purification of more than 90% can be.

It is advantageous if the fingers of the comb are one have a mutual distance of about 50 mm. In this case consists of the first layer falling through the comb heavier objects with a thickness up to 50 mmm, while the second layer of larger ones that runs over the ridge Objects. The one made in this way  Fractionation allows very good air passage for one complete separation of the light materials.

The one opposite the air outlet of the air classifier Collection organ can be used as diagonally upward transport Vacuum conveyor belt to be formed on which the secreted Light fabrics are held. This vacuum conveyor belt can be a downstream conveyor belt on which the Light substances are released from the vacuum conveyor belt.

Between the air classifier and the vacuum conveyor belt is after a development of the invention, a conveyor belt for the Removal of the substances separated from the light materials arranged that under the vacuum conveyor and the Air classifier lies and the materials cross to the conveying direction of Vacuum conveyor removed.

According to a further feature of the invention that is Vacuum conveyor downstream feeder belt in one Air calming zone, the cross section of which in the conveying direction increases. Above this air calming zone there is an exhaust ventilation be attached with dust filter.

The invention is based on an embodiment explained, which is shown in the drawing. Show it:

Fig. 1 shows a schematic longitudinal section through a device according to the invention and

FIG. 2 is a top view of the device of FIG. 1.

The essential parts of the device for selecting building rubble shown in the figures are accommodated in a housing 10 . The material to be separated is transported into the housing 10 via a conveyor device 12 designed as a belt conveyor, where it falls on a vibrating trough 14 which is driven by an engine, not shown, with an unbalance exciter 16 . The front end of the vibrating trough 14 is designed as a comb 18 , which consists of a row of fingers 20 arranged parallel to one another, which are at a mutual distance of approximately 50 mm.

As indicated in FIG. 1, the comb 18 at the end of the vibrating channel 14 divides the material to be separated into two fractions 22 and 24 , of which the first fraction 22 consists of substances that are smaller than the distance between the fingers 20 , while the second fraction 24 are larger size fabrics that pass over the comb 18 . The two fractions 22 and 24 form two curtain-like layers which fall down in front of the air outlet 26 of an air classifier 28 lying in a vertical plane on a conveyor belt 30 which is arranged under the housing 10 . The conveyor belt 30 transports the heavier materials transversely to the conveying direction of a downstream vacuum conveyor belt 32 . This consists of an endless belt with a sieve-like perforation, which runs over a vacuum chamber which is connected to a vacuum generator.

The air classifier 28 has a blower 34 known per se, the suction connection piece (not shown further) of which can be connected to the vacuum chamber of the vacuum conveyor belt 32 . The blown air at the air outlet 26 of the air classifier 28 blows out the light materials 36 from the two fractions 22 and 24 falling down in front of the air outlet 26 , as a result of which they are held on the vacuum conveyor belt 32 and transported obliquely upwards. At the upper end of the vacuum conveyor belt 32 , the light materials 36 fall onto a take-off conveyor belt 38 , which is located in an air calming zone 40 . This is formed by the fact that their cross section increases in the conveying direction of the take-off conveyor belt 36 , as a result of which a decreasing speed is achieved. A dust filter 42 is attached above the air calming zone 40 . The air flowing through this is discharged via an exhaust vent 44 in the upper part of the housing 10 , which is protected by a rain hood 46 .

The take-off conveyor belt 38 conveys the light materials 36 out of the housing 10 , where they are discharged downwards, for example into a collecting container of a standard design. The end of the discharge conveyor belt 38 protruding from the housing 10 is protected against rain by a covering 48 .

Claims (8)

1. Device for the selection of building rubble with a conveyor for feeding the material to be separated onto a substantially horizontal vibratory trough and with a downstream wind sifter for separating light materials, to which collecting organs for the separated substances are connected, characterized in that the in Conveying direction protrude the front end of the vibrating channel ( 14 ) fingers ( 20 ), which form a chimney, which lies above the air outlet ( 26 ) of the air classifier ( 28 ) lying in a vertical plane. 2. Device according to claim 1, characterized in that the fingers ( 20 ) have a mutual distance of about 50 mm. 3. Apparatus according to claim 1 or 2, characterized in that the air outlet ( 26 ) of the air classifier ( 28 ) opposite collecting member is designed as the light materials ( 36 ) obliquely upward transporting vacuum conveyor belt ( 32 ). 4. The device according to claim 3, characterized in that the vacuum conveyor belt ( 32 ) consists of a running over a vacuum chamber belt with air intake openings. 5. Apparatus according to claim 3 or 4, characterized in that between the wind sifter ( 28 ) and the vacuum conveyor belt ( 32 ) and below this a conveyor belt ( 30 ) for the removal of the separated from the light materials ( 36 ) is arranged, the conveying direction extends transversely to the conveying direction of the vacuum conveyor belt ( 32 ). 6. Device according to one of claims 3 to 5, characterized in that the vacuum conveyor belt ( 32 ) is followed by a discharge conveyor belt ( 38 ) for the light materials ( 36 ). 7. The device according to claim 6, characterized in that the discharge conveyor belt ( 38 ) lies in an air calming zone ( 40 ), the cross section of which increases in the conveying direction. 8. The device according to claim 7, characterized in that above the air calming zone ( 40 ), an exhaust vent ( 44 ) with a dust filter ( 42 ) is attached.