NL8104963A - METHOD FOR SEPARATING PAPER FOILS FROM WASTE - Google Patents

Description

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Method for separating paper films from garbage.

The invention relates to a method for separating paper films from garbage, where the garbage is comminuted, sieved and sorted.

Methods of this type are known, for example, from German patent specification 2U.U9.689. After a coarse comminution, the coarsely comminuted garbage constituents are treated with an air stream, so that the garbage constituents are divided into different heavy fractions, and separated from each other, yielding a light fraction, which are essentially loose paper in sheet form, plastic films and contains light textile materials, a medium weight. from , . Fraction cardboard contains heavier plastics material parts, coarse textile materials and bundled or clumped paper bundles and the like and the heavy fractions contains residual parts of scrap, stones, wood, books and bundled paper and the like.

However, the yield of paper obtainable by such methods is not satisfactory. In addition, the paper fraction still contains numerous impurities, which are partly adhered to or developed by paper.

The invention is therefore based on the task of improving methods of the type discussed above in such a way that a higher yield and a greater purity of the fibrous substance component intended for papermaking further processing is obtained.

According to the invention, this task is solved by the features of claim 1.

According to the invention, the garbage is first subjected to a rough reduction. As already noted, such a process extensively preserves the natural distinguishing features of the individual garbage components and facilitates separation. In this coarse comminution, which preferably takes place by a cutting process, a broad grain size band of the refuse components is generally obtained. In particular flat materials such as paper and films are very little limited in at least one dimension. They are only caught very incompletely by the coarse crushing machines.

In the subsequent sieving, first the fine part, which is unimportant for the recovery of pepper and films, is separated from the reduced waste. This fine goods section is suitable for the preparation of compost.

The ordering process commonly used for separating paper and films from the garbage is determined by the density, grain size and shape of the particles. Simultaneous variation of the dispersity quantities of density and grain size deteriorates the separation sharpness. Since essentially the light garbage constituents of paper and films are flat and have a very small thickness, their shape promotes separation as a light fraction. It should therefore be strived for that paper and foils for the arrangement also have a uniform grain size and are present in flat form, that is to say not folded. Both objectives can be realized. through repeated size reduction processes. With the papers or waste that occur in the rubbish. films are mainly folded newspapers, office papers resp. shopping bags. If these parts are reduced to about the size of a hand, the major part of the separate paper or foil is present in flat form.

The coarse fraction of the first screen is therefore subjected to a second screen, the size of the screen holes of the second Screen being only 30 to 80% above that of the first screen. The sieving process of the second sieve, which therefore has a relatively narrow grain size band, takes place in a classifier.

Should the coarse fraction of the second sieves be completely returned to the shredder, a stronger shredding screen inlet for paper and films would be created.

According to the invention, therefore, an 8104963-1-3 light fraction is drawn off from this coarse fraction, for example with a stone detector known per se. The separation condition can be adjusted in such a way that only those components are extracted which would already enter the light fraction even when fed to the classifier. This greatly reduces the amount to be returned to the comminution. It is advantageous to perform the extraction of the light fraction already during the second sieving.

The suction process simultaneously loosens the light fraction, thereby facilitating subsequent separation of paper films. In order to strengthen the loosening, it is advantageous to separate the extracted light fraction from the transport air first behind the suction device.

When the material passes through the blower itself, for which a conventional hay blower is suitable, most of the folds are removed due to the strong shear flows in the air and the mechanical action of the blower blades.

The separation of the suction fraction into paper films preferably takes place immediately upon the separation of the light fraction from the transport air. It is also conceivable, however, that the light fraction together with the transport air is supplied to the classifier or that the light fraction is separated and fed to the classifier again for separation into paper and films.

If the paper separated from the refuse has to be fed to a paper-technical processing, it is advantageous to magnetically separate the ferro-magnetic scrap components again after comminution.

In refuse compositions with a large proportion of inert substances and organic waste, it is advantageous to separate these components with a drum screen before comminution.

In order to illustrate the invention, a preferred embodiment of the method for 8104963 τ - ** - k - separating paper films from garbage is described below with reference to a flow chart shown in the drawing.

The fresh garbage is continuously fed to a cutting roller reducer 1. It then arrives on a sieve 2, 5 which separates the fine part, mainly inert substances and organic waste.

The coarse fraction is fed to a second sieve 3. The fine portion of the second sieve is fed to a zig-zag classifier 5 which divides it into a light and heavy fraction. For example, the light fraction may consist of paper and films, while the heavy fraction is composed of wood, plastic parts, leather, fabric, etc. From the coarse fraction of the second sieves, the parts that can fly, mainly paper again, are extracted. and films, 15 separated and the rest is returned to the reducer 1.

8104963

Claims (6)

Method for separating paper and films from refuse, in particular household refuse, whereby the refuse is reduced, sieved and selected, characterized in that the refuse goes through the following process steps: a) a rough reduction of the refuse components while retaining of their natural distinguishing features; b) sieving a fine fraction containing essentially small inorganic parts and organic vegetable waste, as well as moist inferior paper; c) screening a coarse fraction, the lower limit of the grain size of which is only 30 to 80% above the upper limit of the grain size of the fine fraction screened in b) and which essentially consists of flat materials such as paper, cardboard, films, textiles and long parts such as sticks, etc .; d) aspirating the light components from the coarse fraction separated in step c), the light fraction containing essentially separate paper and films; E) returning the heavy constituents of the coarse fraction separated in step c) to the comminuting agent; f) separating the fine fraction obtained in step c) in a gas stream into at least two fractions of different density. 25 '2. Method according to claim 1, characterized in that the comminution takes place essentially by a cutting process. Method according to claim 1, characterized in that the light fraction extracted in step d) is first separated from the conveying air behind the suction device. 30 k. Method according to claim 1, characterized in that when the light fraction of stage d) is separated from the transport air, a division into a paper and foil fraction takes place. A method according to claim 1, characterized in that steps c) and d) run simultaneously. «8104963 - 6 - *. - - Method according to claim 1, characterized in that the light fraction of step d) is combined with the fine fraction of step c) and fed to the classifiers. Method according to claim 1, characterized in. 5 that the ferromagnetic scrap components for resp. be separated magnetically before and after the comminution. 8. A method according to claim 1, characterized in that the refuse is fed to a drum sieve for comminution, which essentially separates the inert and organic parts. 8104963