DE1873602U - FLOTATION MACHINE. - Google Patents

Description

Flotation machine

The innovation relates to a flotation machine., which is used in particular to remove printing ink from waste paper. The known machines of this type are used to carry out a flotation cell, preferably a so-called "stirred cell" is used. They are agitator cells known, which are divided into a stirring chamber and an adjacent foam chamber. The one in the stirring chamber arranged stirrer (impeller) brings the gray matter in such a violent movement that from the space above the material surface Air is carried away and whipped by the impeller in the gray matter. The aerated gray matter then passes through slits into the foam chamber, in which the air bubbles contaminated with the impurities rise upwards and by means of a Stripping device are removed. It is also known in such a device, the stirring chamber and the Foam chambers on top of each other instead of next to each other and separated from each other by a calming grid. There are also agitator cells are known that consist of a single Chamber exist, in which so the stirring chamber and the foam chamber are united. Accepts and foam flow together via an overflow into a calming chamber, which the same width as the stirring and foam chambers and from which the accept and the foam are discharged separately will. What all cells have in common is that the foam rising upwards over the entire width of the foam chamber or the stirring and foam chamber or the calming chamber means a stripping device is removed.

According to the innovation, the foam decrease will be improved proposed that the flotation cell at least in the height range of the overflow in its width in the direction of the Overflow or the like / decreasing to train.

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Due to this shape of the flotation cell according to the innovation, a Current generated. Which the foam with an opposite to the known Flotation cells moved at increased speed towards the overflow. The foam is thus removed relatively quickly, so that the decomposition of the foam, which often takes place quickly, does not occur at all or only to a very small extent can.

Furthermore, the overflow, which is narrow in comparison to the known flotation cells, results in a substantial increase in the height of the foam layer with a roughly constant height of a certain transition layer of foam and accepted material. Since the height of the upper layer of accept that is expediently always removed with the removal of the foam can also remain the same, the amount of accept removed with the ejection is significantly lower than in the case of the known flotation cells. The individual layers are shown in FIG. J5, the foam layer being denoted by a, the discharge by b and the accept by c. Since the overflow width can be significantly restricted depending on the type of material to be floated, preferably to a quarter to a half of the chamber width, the amounts of fibers carried away when processing fibrous suspensions in the foam are accordingly limited to 25 to 50 % of the amount carried away in known flotation machines. Another advantage of the new device is that the fiber content in the foam itself decreases with increasing height of the foam layer, thus further reducing the amount of fiber removed with the foam.

According to a further suggestion of the innovation, the arrangement is made so that the width of the flotation cell at least partially steadily decreases. This creates dead spaces, which are places without material movement, and detachment phenomena, which cause circular movements, are avoided in the flotation cell and have a particularly good separating effect and foam removal

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achieved. It has been recognized as very useful., The The width of the overflow should be about a quarter to a half of the greatest width of the flotation cell.

It is also particularly advantageous for the separate discharge of foam and accepted material from the flotation cell, if - according to another suggestion of the innovation - the in Direction of flow of the foam running side walls of the calming chamber at least immediately before the overflow are arranged parallel to each other.

The process for the accepts from the agitator cell is placed in the upper area of the same. As a result, when the agitation moves through the agitator cell of There is enough time from bottom to top for the flotation process so that the dirt-laden foam adheres can accumulate on the surface of the suspension.

The foam can be discharged through the overflow either exclusively or with the aid of a rotatable stored, single or multi-blade stripping device. This scraper is above the overflow Lind although appropriately arranged so that their axis of rotation upstream of the overflow. Thus, the wiping device - according to a further idea of the innovation with Advantageously arranged above the outlet opening leading to the accept chamber in the bottom of the calming chamber. Because this The outlet opening is expediently placed directly upstream of the face of the overflow in order to prevent that the flow approaching this outlet opening from the agitator cell carries with it foam into the accept chamber.

In addition - in further training of the innovation at the edge of the overflow a baffle projecting obliquely downward into the calming chamber is arranged, around a particularly to achieve good separation of foam and accepts upstream of the overflow or the opening leading to the accepts chamber.

_ 4 ^s

An embodiment of the innovation is in Drawing shown on a single flotation cell. In general, several such flotation cells become one Flotation machine interconnected.

Fig. 1 shows a side view with

removed front side wall,

Fig. 2 is a plan view of the cell and

3 shows the side view of the overflow section with substance and foam accumulation on an enlarged scale compared to FIG. 1.

The flotation cell shown has an agitator cell 1 which is essentially delimited by two side walls 2 and 3 running parallel to one another and the two end walls 2.6 and 27. Adjoining this agitator cell 1 is the calming chamber 14, which has only a fraction of the height and width of the agitator cell 1. The calming chamber 14 is laterally bounded by an extension 30 of the side wall 2 and a wall 6 running parallel to it. The transition between the wide agitator cell 1 and the narrow calming chamber 14 is formed by the inclined wall 4, which is connected to the walls 2 and 6. Between the agitator cell 1 and the calming chamber 14 there is a retaining wall 7 which is guided in the inclined wall 4 and the side wall 3 of the agitator cell 1 at the points 8 and 9, respectively. In the exemplary embodiment shown, the retaining wall 7 extends to the bottom of the calming chamber 14. The overflow 5 is arranged at the narrow end of the calming chamber 14.

The calming chamber 14 is connected to the accepts chamber 10 via an opening 11 arranged in its bottom. This accepts chamber 10 is essentially through the side wall β of the calming chamber, the inclined wall 4, by a Extension 32 of the "side wall 2 and the end wall 33 are formed. In the accept chamber 10, a discharge opening 12 with a connected line 13 is arranged, which the accept via an in the walls 4 and 32 at 35 and 36 guided baffle 3 ^ flows.

In the agitator row 1 there is arranged an impeller 15 which is driven via a shaft 16 by an electric motor 17 attached to the bracket yj. Gray material is fed to the impeller via line 18 and air via line 19. The air is very finely divided and evenly distributed in the gray matter by the impeller 15 and a fine distributor 20 surrounding the impeller.

On the air bubbles finely distributed in the gray matter., the printing ink particles contained in the gray matter are deposited at. These air bubbles together with the accumulated printing ink particles rise due to their buoyancy in the gray matter. It thus arises in the agitator cell 1 on the surface of the suspension a foam layer. Foam and Acceptable Material for Hessen together over the retaining wall 7 in. the calming chamber 14. The Accept flows through the outlet opening 11 from the calming chamber 14 into the accept chamber 10, from which it flows via the pipeline 13 is deducted. The one on the surface of the suspension Foam is removed by means of a rotatably mounted scraper device. The multiple scrapers attached to a shaft 22 21 on? Jeistj stripped from the surface of the suspension and conveyed via the overflow 5 into a drain line 23. The stripping device xcLrd from a motor, not shown driven. In order to achieve a particularly favorable sehumid drainage, the width 24 of the overflow 5 is in this exemplary embodiment about a third of the greatest width 25 of the agitator cell 1. For particularly good removal of the foam, the Overflow 5 with a baffle 28 projecting obliquely downward into the calming chamber 14 counter to the direction of flow Mistake.

Heidenheim., April 22, 1963
DrBi / EBi.

Claims (4)

A 2453 protection claims 1. Flotation milling machine for removing impurities from pulp floods, in particular for removing printing ink from waste paper, with at least one from an agitator cell and the flotation cell that is connected to it, on one side of which an overflow or the like. is provided for draining the foam, characterized in that the Flotation cell (1,14) or the like at least in the height range of the overflow (5). in width in the direction of the overflow (5) or the like. too decreases. 2. Flotation machine according to claim 1, characterized in that the width of the flotation cell (1.14) at least partially decreases steadily. 5 · Flotation machine according to claim 1 or 2, characterized in, that the width (24) of the overflow (5) is about a quarter to a half of the greatest width (25) of the flotation cell (1.14). 4. characterized flotation machine according to any one of claims 1 to 5> that the running in the flow direction of the foam side walls (50.6) of the settling chamber (14) are at least immediately before the overflow (5) parallel to each other. 5 · Flotation machine according to one of claims 1 to 4, characterized characterized in that above the outlet opening (11) from the calming chamber (14) a rotatably mounted, single or multi-blade Stripping device (21,22) is arranged for removing the foam. ö. Flotation machine according to one of claims 1 to 5j thereby characterized in that at the edge of the overflow (5) a guide plate protruding obliquely downward into the calming chamber (14) (28) is arranged. 7 '. Flotation cell according to one of Claims 1 to 6, characterized in that the material outlet (29) from the chamber (l) is arranged in the upper area of the same. Heidenheim, April 22nd, 196 ;? Ai, _{Disse (B65 Description M s} ^ _a ^ * «f - ^^ - * ^^ « _S , n ₀ solder in unsprüngfioh Un ^ an ob. Dia ™ ^ rech ***, l ^ V ^ ZZZZ"«**" * - ^AV ** ^A SL »MMM.