DE202012013122U1 - Device for separating a heterogeneous material stream into at least two material fractions - Google Patents

Abstract

Device (1) for separating a primarily heterogeneous material flow (3) in a housing (2), with at least one adjustable gas injection nozzle (5) and at least one gas material extraction device (6), and at least one apex shaft (7), the at least one Gas material extraction device (6) is arranged above the at least one apex shaft (7).

Description

The present invention relates to a device for separating a heterogeneous material flow in at least two material fractions, in particular with a system whose gas flows for the separation of the individual material fractions are adjustable within a housing.

Such plants are from the DE 299 19 773 U1 known in the art. This document is to remove a device for separating recyclable waste material, in which at the end of a conveyor belt there is arranged a so-called air classifier, which consists essentially of a closed housing, to which both a Lufteinblasdüse as well as a suction line is connected. In this case, the Lufteinblasdüse is oriented so that the air stream exiting from it inflates the material lying on the conveyor belt, whereby the light large-scale material parts are whirled up and taken from the suction and a housing with a so-called cellular wheel for depositing the light-weight sheet-like parts are supplied ,

Furthermore, from the DE 20 2008 001 933 U1 In the prior art, a device has become known, which consists essentially of a transport device, at whose end a viewing drum is arranged, whose axis of rotation extends transversely to the transport direction. Here, an air blowing device is arranged below the transport device between the end of the transport device and the viewing drum, which penetrates the falling material flow and thus entrains at least the light fractions of the material flow. The residual fraction of the material stream is then divided into medium and heavy materials, with the medium-weight materials land on the surface of the screening drum and be further transported away. As a result of the air flow flowing out of the air injection device, the light and medium material fractions are passed through a flow channel, at the end of which a collecting device is arranged, whereby the material flow is divided into heavy, medium and light material fractions.

A disadvantage of the devices and methods become known in the prior art, on the one hand, the relatively low separability of the systems between heavy, medium light fractions of the material flow and on the other hand, it is considered disadvantageous that the construction and constructions of such systems are relatively bulky form to the individual active elements for the separation of the material flow to be effective at all.

More similar waste separation plants have become known in the art, in which several viewing drums are arranged one behind the other, whereby the entire system is disproportionately long in length and a clean separation in light, medium and heavy fractions fraction is unsatisfactory.

Therefore, it is an object of the present invention to provide a device capable of sorting a heterogeneous material stream, typically from waste management, into at least two sub-fractions of different densities with a high degree of separation in a housing of relatively small geometrical extent.

This object is achieved with the characterizing features of the main claims. Other features essential to the invention can be found in the dependent claims.

According to the invention, the device for separating a primarily heterogeneous material flow in a housing, with at least one adjustable Gaseinblasdüse and at least one gas material removal device, and at least one apex wave, wherein the at least one gas material removal device is disposed above the at least one apex shaft.

The method according to which the device according to the invention for separating a heterogeneous material flow works in at least three material fractions of different specific weights within a relatively small housing is characterized in that a gas injection nozzle adjustable in at least two directions is arranged in the housing in the region of the material inlet of the material flow whose gas flow penetrates at least a partial fraction of the material flow and further transports at least two partial fractions in the interior of the housing, wherein at least one gas material outlet device is arranged above at least one apex shaft, from which the light partial fractions of the material flow are removed from the housing.

It is advantageous that, in addition to the at least one gas material removal device, a second gas extraction device is arranged above the at least one apex shaft, which separates the remainder of the gas flow from the housing 2 sucks.

It is advantageous that a second gas extraction device is arranged above the inlet region of the material flow in the housing.

Furthermore, it is advantageous that the adjustable Gaseinblasdüse is arranged below the end of a conveyor adjustable so that the Gas stream from the Gaseinblasdüse penetrates at least a partial fraction of the heterogeneous material flow and blowing at least a partial fraction in the direction above the apex wave.

A further advantage is the fact that an adjustable baffle element is arranged in the area of the first gas extraction device, which is impacted by the gas material flow.

It is also advantageous that the apex shaft is arranged horizontally and vertically adjustable.

Furthermore, it is advantageous that at least one collecting means is arranged below the housing.

A major advantage is to make the apex of a non-magnetic material, for example, a stainless steel.

It is also advantageous that with the crest wave arranged in the interior of the housing intermediate heavy fraction fractions are separated.

In the following, the invention will be explained in detail with reference to drawings. It shows

1 a schematic perspective view of a plant for the separation of a material flow ( 3 ) with at least two material fractions with a conveying agent ( 4 ) and at least two gas extraction devices ( 6 . 9 ) on a housing ( 2 );

2 a schematic representation of a device according to the invention ( 1 ) in a housing ( 2 ), to which a gas inlet nozzle ( 5 ) and two gas extraction devices ( 6 . 9 ) are arranged, and the material flow ( 3 ) by means of a conveyor ( 4 ) the housing ( 2 ) is supplied.

In 1 is a schematic perspective view of a system with a device according to the invention 1 in a housing 2 shown. The primarily heterogeneous material flow 3 typically has at least two fractions of a material mixture, as typically occurs in waste management. The case 2 comes with a grant 4 a primarily heterogeneous material stream 3 through a housing opening 8th fed. The end 4 ' of the subsidy 4 protrudes slightly into the interior of the housing and can be adjusted by suitable means so that between the end 4 ' of the subsidy 4 and a crest shaft disposed inside the housing 7 enough space for the almost vertically falling heavy transported material fractions from the material flow 3 is available for further processing. The housing 2 has at least one access panel 10 on, which can also be designed as a viewing window. At the top of the case 2 are at least two gas extraction devices 6 . 9 arranged, which are able to suck the necessary adjustable amount of gas to separate the individual fractions. The two gas extraction devices 6 . 9 extend over the entire width of the housing 2 , The function of the individual gas extraction devices will be explained in more detail below. Below the end 4 ' of the subsidy 4 in the lower part of the housing 2 is a gas injection nozzle 6 arranged, the adjustable and controllable amount of gas necessary for separating the individual material fractions into the housing 2 blows into it. The gas injection nozzle 5 extends in the present embodiment over the entire width of the conveyor 4 to achieve a balanced efficiency of injected gas flow. Below the case 2 are at least two guide plates 19 . 19 ' arranged to the already separated fractions each in designated containers or other funding 15 . 16 (not shown here). For setting the peak wave described below 7 is on the side of the housing 2 an actuator 18 arranged along a rail 20 is conducted within certain limits.

The 2 shows a schematic side view of a device according to the invention 1 in a housing 2 , in which various structural components are arranged. The case 2 comes with a grant 4 a primarily heterogeneous material stream 3 which, according to its specific densities, must be separated into light, medium and heavy material fractions. Upon entry of the heterogeneous material stream 3 about the funding 4 in the case 2 fall due to gravity at the end 4 ' of the subsidy 4 the heavy fraction fractions 12 of the heterogeneous stream of material almost vertically, so that thereby already this fraction fraction 12 is separated as heavy cargo. It penetrates from the Gaseinblasdüse 5 outgoing, adjustable in its amount gas flow 11 the subsidy 4 falling down material flow 3 and tears at least two sub-fractions 13 . 14 with, so that at least these two sub-fractions are transported within the housing by the resulting total flow, approximately in the direction just above the visual wave 7 , which may be formed as a closed at the end faces rotating drum, wherein the volume within the viewing drum 7 would be divided into a vacuum as well as a pressure range. The gas injection nozzle 5 is pivotally adjustable in all directions, so that different directions can be set for different heterogeneous material flows. Thus, the different sub-fractions 13 . 14 directed in a predetermined direction, whereby an optimal separation of the individual material fractions in serious 12 and moderate 13 and easy 14 Materials is made possible. This is due to the separation effect of the crest wave 7 the intermediate fractions 14 separated and fed to a conveyor not shown here. This separation process occurs because the moderately heavy parts of the fraction generally have a smaller surface area and, therefore, more of the gravity and possibly the possible suction power of the crown drum 7 to be detected by the gas flow. The vertex drum 7 is adjustable in its position within the housing in any direction, in particular in its horizontal and vertical position. After the separation process into medium heavy 14 and easy 13 Subfractions, however, these are due to the gas flow 11 carried along and bounce on a guide element 17 inside the case 2 is arranged adjustable. In the area of the impact point 18 the mainly light 13 and moderate 14 Fractions on the impact element 17 , is above the impact point 18 a gas material outlet device 6 arranged a portion of the injected gas volumes along with the light ones 13 Extracts materials that slowed down in this suction first and then the swirling light fractions 13 entrained and through the gas extraction device 6 be dissipated. Also above the end 4 ' of the subsidy 4 , as well as above the crest wave 7 is in addition to the first gas extraction device 6 a second gas suction device 9 on the housing 2 arranged, which serves mainly, the trajectory of the gas flows within the housing 2 to form, so that results in a wave-shaped total gas flow, in which the medium-heavy 14 and light material fractions. By adjusting and regulating the ratios of the individual suction rates of the suction devices 6 . 9 the degree of separation of the individual material fractions is set significantly. In the present embodiment, the second gas suction device 9 in the same plane as the first gas vent 6 on the housing 2 arranged, but this is not mandatory for the function of the total flow. The second gas extraction device 9 not only affects the resulting total flow within the housing 2 but not the rest of the gas flow from the housing 2 on. Due to the multiple separation processes within the housing 2 Thus, a degree of separation of high purity for large light weight material fractions 13 from about 90 to 100%.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 29919773 U1 [0002]
• DE 202008001933 U1 [0003]

Claims (9)

Contraption ( 1 ) for the separation of a primarily heterogeneous material stream ( 3 ) in a housing ( 2 ), with at least one adjustable gas injection nozzle ( 5 ) and at least one gas material removal device ( 6 ), and at least one crest wave ( 7 ), wherein the at least one gas material removal device ( 6 ) above the at least one apex wave ( 7 ) is arranged. Apparatus according to claim 1, characterized in that in addition to the at least one gas material removal device ( 6 ) a second gas extraction device ( 9 ) above the at least one apex wave ( 7 ) which is the remainder of the gas flow from the housing 2 sucks. Apparatus according to claim 1, characterized in that the second gas extraction device ( 9 ) above the inlet region of the material flow ( 3 ) in the housing ( 2 ) is arranged. Apparatus according to claim 1, characterized in that the adjustable gas injection nozzle ( 5 ) below the end ( 4 ' ) of a subsidy ( 4 ) is arranged so that the gas stream ( 11 ) at least one sub-fraction ( 12 ) of the heterogeneous material stream ( 3 ) penetrates and at least two sub-fractions ( 13 . 14 ) in the direction above the crest wave ( 7 ) blows. Apparatus according to claim 1, characterized in that in the region of the first gas-material extraction device ( 6 ) an adjustable baffle element ( 17 ) is arranged. Device according to one of the preceding claims, characterized in that the apex wave ( 7 ) is arranged horizontally and vertically adjustable. Device according to one of the preceding claims, characterized in that below the housing ( 2 ) at least one receiving means ( 15 . 16 ) is arranged. Device according to one of the preceding claims, characterized in that the apex wave ( 7 ) is made of a non-magnetic material, for example a stainless steel. Device for separating a heterogeneous material stream ( 3 ) in at least three material fractions ( 12 . 13 . 14 ) of different specific gravity within a housing ( 2 ), with at least one gas injection nozzle ( 5 ) in the region of the material inlet of the material flow ( 3 ) in the housing ( 2 ), characterized in that the gas flow ( 11 ) from the gas injection nozzle ( 5 ) at least one sub-fraction ( 12 ) of the material flow ( 3 ) penetrates and at least two sub-fractions ( 13 . 14 ) inside the housing ( 2 ) and above at least one apex wave ( 7 ) at least one gas material removal device ( 6 ) is arranged.

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