DE19918774A1 - Arrangement for forming monolayer from continuously delivered thick film material flow has conveyor belt cascade with at least two consecutive acceleration belts in delivery direction - Google Patents

Abstract

The arrangement has a conveyor belt system that accelerates and extends the delivered material flow with a conveyor belt cascade with at least two consecutive acceleration belts (6,7) in the delivery direction (2). The conveyor belt cascade is associated with a supplying device in the form of a vibrating conveyor channel (19) delivering a flow of material of thickness of the order of 7 cm.

Description

The invention relates to an arrangement for forming a foreign object detection monolayer from a continuous fed thick-layered material stream of low density with the supplied conveyor belt conveyor accelerating and stretching the material flow.

In the sense of the invention, a "monolayer" is a relatively thin layer Material fleece, ideally a predominantly isolated, d. H. single layer adjacent components of a conveyed good and possible foreign to understand composite material flow, its undesirable Components are clearly recognizable and selectable.

Under a "thick layer material flow" is one of the desired flow rate per unit of time correspondingly more compact, from multiple superimposed Be components of the material to be conveyed, possibly including foreign bodies to understand set bulk flow.

Under a "low density material flow" with mate relevant for the production rial properties of the goods to be conveyed, for example a food product to understand its specific lightweight, i.e. product components that nen - based on their weight - have relatively high air resistance.

Such product components are, for example, leaf-shaped, such as leaf tobacco or Spinach; furthermore fragments of leaves or leaf-shaped components, such as tobacco strips and lettuce leaves, as well as stems or stem-shaped beings components, such as tobacco ribs and green beans, and also tufts or shrub-like products, such as fresh thyme.

Products of the type mentioned, in particular food products  special quality requirements with regard to the purity requirement. This applies in particular to tobacco, which is a processing process up to confectionery tion of rod-shaped end products in the form of cigarettes, filter cigarettes and the like goes through. Experience has shown that tobacco contains foreign components of the un various types. It is desirable to remove these foreign bodies as early as possible to be sorted out in order to avoid disturbances in the processing as well as quality impairments exclude the end product.

In particular leaf tobacco or stripped leaf tobacco in the form of so-called "Strips", which in shape and size may be very different from other components resemble, makes special demands of a technical kind with regard to a clear identification of such foreign bodies in the moving tobacco flow.

A device of the type described in the opening paragraph is disclosed in US Pat. No. 5,558,199 known.

The invention is based, with at least equally good, object if necessary, better sorting result that is funded per unit of time and on Increase the amount of foreign material monitored material.

This object is achieved in that the conveyor belts track one of at least two successive in the conveying direction existing tapes cascade.

Around the belt cascade with the conveyed material in the loosened state and to supply in the desired amount, it is further proposed that the belt cascade with a feed conveyor in the form of the material to be conveyed a layer thickness in the order of approximately 7 cm derrinne is assigned.

In order to keep the passage as short as possible for a given material throughput quantity To operate the running route as effectively as possible, it is further suggested that  in the case of two successive acceleration bands - in relation to the Conveying direction - upstream acceleration belt with one of the levitation speed of the conveyed material approximate speed in a size order of 2.5 to 3.5 m / sec can be driven.

A shortening of the funding route or a minimum number of funding levels also achieved in that the first acceleration band downstream downstream acceleration band a synchronously moving upper band is arranged, which together converges in the conveying direction, laterally ge form a closed delivery channel, with the upstream Be acceleration band and the downstream acceleration band with one of the like speed ratio are drivable that one on the current upward acceleration band forming layer thickness of the material flow on the downstream acceleration band to an order of magnitude of approx. Half is reduced. As a result of this between upper and lower bands All of the products and other pro Products that take up a large volume with a low weight can be transported quickly be animals.

The feed conveyor and the belt cascade expediently form an essentially horizontally oriented transport route.

The effectiveness of the belt cascade is essentially determined by the material being conveyed accelerating delivery channel of the downstream funding determined. Whose Air flow or lateral air closure is achieved in a simple manner by that the delivery channel is limited by lateral angle plates, on their horizonta len legs the upper belt is dragged along and their vertical Legs are provided with sealing lips contacting the acceleration band.

The advantage achieved by the invention is that by a more effective stu acceleration of the material flow, the layer thickness of which progressed in this way  wise is reduced that a uniform layer without an essential layer differences in thickness is achieved. This is a very good efficiency the foreign body detection and rejection device even at a high level Throughput rate of the material flow rate guaranteed.

The invention is described below with reference to an off in the drawing management example explained in more detail.

Here show:

Fig. 1 shows a conveyor for removing foreign bodies from a tobacco stream in side view

FIG. 2 shows a cross section through an acceleration belt section along the section line AA according to FIG. 1.

Referring to FIG. 1 a Foreign body 1 is - related to the conveying Rich device (arrow 2) of a tobacco stream 3 - arranged upstream of upstream one as bands cascade 4 ausgebil finished conveyor belts train, consisting of two in the conveying direction (arrow 2) consecutive acceleration belts 6 and 7, of which the First acceleration belt 6 can be driven at a speed of approximately 2.5 to 3.5 m / sec approximating the floating speed of the tobacco, depending on the type and nature of the components to be conveyed (strips, ribs, sheet material). The preferred transport speed is approx. 2.7 m / sec approximating an average hovering speed of approx. 3 m / sec.

The second acceleration belt 7 of the belt cascade 4 is assigned a synchronous mitlau fendes upper belt 8 , which together form a converging in the conveying direction (arrow 2 ) or narrowing to a mouthpiece 12 formed by two deflecting rollers 9 and 11 conveyor channel 13 .

The conveying channel 13 is shown in FIG. Closed laterally by two angle plates 14 and 16. 2, wherein the conveying channel 13 defining the lower strand of the upper belt 8 on the horizontal legs of angle sheets 14, 16 is long out grinding ent and the vertical leg of the angular plates 14, 16 are each provided with a sealing lip 17 contacting the upper run of the acceleration belt 7 delimiting the conveying channel 13 , the contacting outside of which has a felt pad.

The bands cascade 4 is - related to the conveying direction (arrow 2) -, associated upstream of an infeed conveyor 18 in the present embodiment in the form of a vibrating conveyor 19, wherein the cascade bands 4 and the vibrating conveyor extend horizontally 19th

The foreign body separator 1 consists of known laser detectors 21 for scanning the tobacco stream 3 , a color-coordinated tobacco reference drum 22 , an integrated in the foreign body separator 1 integrated, not shown image processing processor for detecting and determining the position of foreign bodies 23 and blow-out nozzles 24 for selecting the foreign bodies 23 . With 26 a funding for receiving and removing the foreign bodies freed from tobacco flow 3 and 27 with a funding for catching and removing the sorted foreign bodies 23 is designated.

The operation of the arrangement is based on a throughput of about ten tons of tobacco cascade designed per hour, whereby all conveying elements are perpendicular to the plane of the drawing over a width of approx. Extend 1.6 m.

A continuous stream of tobacco is supplied with a layer thickness of about 7 cm on the vibrating conveyor trough 19 at about 0.4 m / sec and transferred to the first acceleration belt 6 . Its speed of approx. 2.7 m / sec reduces the layer thickness of the tobacco flow to approx. 2 cm. When the tobacco is thrown onto the subsequent acceleration belt 7 , which runs at approximately 5.7 m / sec, this layer thickness is halved again. This is achieved by the ambient air entrained when the tobacco enters the feed channel 13 , which creates an additional ventilation effect, which accelerates entrainment and thus straightening the tobacco flow at a relatively high belt speed of about 5.7, which can be set above the floating speed of the tobacco m / sec causes.

The reduced to a relatively thin tobacco layer and evenly spread tobacco monolayer happens after dropping off the acceleration band 7, the laser detectors 21 , which react across the full width perpendicular to the plane of the drawing on foreign objects 23 and emit corresponding signals. Through the signaling of very specific detectors 21 , the image processing processor also recognizes the respective position of the foreign bodies 23 within the tobacco stream 3 and controls the corresponding blow-out nozzles 24 to selectively separate out the recognized foreign bodies 23 . The tobacco leaves blown out at the same time, especially with relatively small foreign bodies 23, are then sorted out and returned to the processing process.

In the event of a possible intended further increase in the conveying capacity, the belt cascade 4 could possibly be supplemented by an additional belt section corresponding to the acceleration belt 7 .

Claims (7)

1. Arrangement for forming a foreign matter detection and separating device passing monolayer from a continuously supplied thick-layered material flow of low density, with an accelerating and stretching the supplied material flow conveyor belt web, characterized in that the conveyor belt web one of at least two in the conveying direction (arrow 2 ) successive acceleration bands ( 6 , 7 ) existing band cascade ( 4 ). 2. Arrangement according to claim 1, characterized in that the Bänderkas kade ( 4 ) is assigned a loading conveyor ( 18 ) in the form of a conveying material with a layer thickness in the order of approximately 7 cm feeding vibrating conveyor trough ( 19 ). 3. Arrangement according to claim 1 or 2, characterized in that in two successive acceleration belts ( 6 , 7 ) - based on the För derrichtung - upstream acceleration belt ( 6 ) with a speed of the material close to Schwebege speed of the conveyed material in an order of magnitude of approx 2.5 to 3.5 m / sec can be driven. 4. Arrangement according to one of claims 1 to 3, characterized in that the first acceleration belt ( 6 ) downstream downstream acceleration belt ( 7 ) is assigned a synchronously moving upper belt ( 8 ) which converge together in the conveying direction (arrow 2 ) , laterally closed För derkanal ( 13 ) form. 5. Arrangement according to one of claims 1 to 4, characterized in that the upstream acceleration band ( 6 ) and the downstream acceleration band ( 7 ) can be driven with such a speed ratio that a layer thickness of the material stream forming on the upstream acceleration band ( 6 ) on the downstream acceleration band ( 7 ) is reduced to an order of magnitude of approximately half. 6. Arrangement according to claim 2, characterized in that the feed conveyor ( 18 ) and the belt cascade ( 4 ) form a substantially horizontally oriented transport route. 7. Arrangement according to claim 4, characterized in that the conveying channel ( 13 ) is limited by lateral angle plates ( 14 , 16 ), on the horizontal legs of which the upper belt ( 8 ) is guided along and the vertical legs of which contact the acceleration belt ( 7 ) Sealing lips ( 17 ) are hen.