DE869806C - Rotating, ring-shaped digestion chamber for the production of superphosphate or the like. - Google Patents

Description

Rotating, ring-shaped digestion chamber for the production of superphosphate or the like. For the production of superphosphate, double superphosphate or the like Substances are already provided for digestion chambers consisting of two concentric cylinders are formed, of which one rotates and the other is fixed. The one below an optionally rotating base and closed at the top by a lid Space between the inner cylinder and the wall of the outer cylinder is through divided a radial or inclined wall, and it is on one side of the wall a feeding device and on the other a cutting and discharge device . Arranged for the unlocked goods. The chamber is operated in such a way that that a sector that on one side by the radial or inclined end wall and on the other hand is limited by already solidified material, with a mixture of rock phosphate and sulfuric acid or the like. Is filled. Once the mixture has hardened, so either the radial wall with the inner cylinder or the outer cylinder jacket rotated with the ground until a. Sufficient space between the phosphate block and formed radial wall. This space is then again filled with a mixture of rock phosphate, sulfuric acid and sulfuric acid Od. Like. Filled, and the operation is continued in the same way. While the rotation takes place on the side of the phosphate block facing away from the radial wall the discharge of the unlocked goods in front of you. Instead of a sentence, the rotation also take place constantly.

The method has the disadvantage that a. relatively great effort necessary to rotate the moving parts of the digestion chamber is: '- Also The freshly solidified Phösphäf does not always come off well and evenly relative to it moving walls of the digestion chamber.

The invention eliminates the disadvantages of the known device avoided. It consists in. - there the. .Distance between inner and outer cylinder in the part of the digestion chamber filled with the phosphate or the like from the radial one Wall up to the discharge device or a piece of this distance constantly or increases intermittently.

It has been shown that a safer by this simple measure and reliable operation of the digestion chamber with the lowest possible energy consumption and that, at the same time, good ventilation of the goods to be treated is achieved will.

In the drawing the device according to the invention is for example and shown schematically.

Fig. I and 2 show an arrangement in which the desired change in distance between the inner cylinder and the wall of the outer by continuous change the wall thickness of the inner cylinder is caused; happens according to Fig. 3 the decrease in the wall thickness of the inner cylinder gradually; in Fig. d. is a Embodiment shown in which the wall thickness of the outer cylinder. mantels is sized accordingly; --- Figs. 5- and 6 show an embodiment with a special design of the chamber floor.

In the embodiment according to Fig: i and 2 there is the digestion chamber from an outer rotatable cylinder jacket i with a bottom and a vertical, inner one fixed cylinder 2 ,. Under the bottom of the rotatable part there is a Track ring that runs on a roller structure 3. The drive of the rotatable outer cylinder takes place by means of gear q., whose pinion is in a Gear rim engages on the circumference of the chamber. The gap between the inner fixed Part and the rotatable part of the chamber bottom is sealed by a stuffing box 5. At the top, the chamber is closed by a fixed cover 6 through which the, inlet supports 7 passed through for the task of the material to be unlocked is. A serves as a seal between the cover 6 and the outer cylinder i. Immersion closure g. The cut out of the opened goods is done with the Cutting device consisting of two vertical: shafts 9 with rollers or sprockets consists, over which the cutting knife io, which is on the belts or chains i i are attached, moved _-, verden. The cutting device is driven by means of gear 12, which is arranged on a fixed cross member above the cover. In order to avoid their evasion when cutting, the - = chains' nzw. Tapes i r secured by pressure rollers 13. The chains or belts are tensioned ..by means of tensioning rollers or tensioning rollers 14. The cut material is held by the knives the shortest way to the outlet opening in the bottom of the fixed cylinder transported and discharged through a vertical chute 15.

The fixed inner cylinder 2 has different wall thicknesses, and although the greatest wall thickness is in the zone of the feed opening for the to be unlocked Material placed and the smallest wall thickness at the point where the cutting device starts. A wall 16 is attached to the stationary inner cylinder, which closes the feed zone from the cutting device. The bottom of the movable outer cylinder can move under the wall 16 therethrough. As a building material for the chamber can be iron and / or reinforced concrete or similar building materials used.

Of course, other embodiments of the device according to FIG -the invention possible, e.g. B. the outer cylinder i can be fixed to the ground and the inner cylinder with the wall 16 and the cutting machine 9 is made rotatable be.

During the digestion, the raw phosphate flour mixed with sulfuric acid, this is advantageous for a pre-digestion in a mixing device upstream of the chamber has experienced, given up through one or more inlets of the chamber ceiling, during this the chamber turns slowly. The time required for the digestion is usually several, e.g. B. 4 to 6 hours, it is for the different Different types of phosphates.

The material to be broken down gradually solidifies or solidifies in the chamber during the digestion; it experiences a certain loss in the process.

The inventive design of the fixed inner cylinder in such a way that its wall thickness from the wall 16 all around to z. B. about the cutting device 9 gradually or intermittently decreases, the friction that the chamber contents now becomes experiences during the rotary movement of the outer cylinder, limited to a minimum and the detachment of the treated material during its solidification and change in volume relieved by the chamber wall moved relative to it, so that the expenditure of energy to rotate the moving chamber parts is significantly reduced. The fast and safe detachment of the treated material from the chamber wall also favors the Ventilation and drying of the goods.

The opened good, which stands almost like a block, becomes to the extent that it is due to the rotation of the chamber in front of the cutting device is guided, crushed by this and discharged from the chamber by the shortest route. Instead of those shown in the drawing, others can also use. confessed Scraping or cutting devices can be used. But the first one has the special one Advantage of the smallest space requirement and the best space utilization, which is the economy of the plant increased. According to the embodiment shown in Fig. 3 According to the invention, the wall thickness of the inner cylinder 2 decreases intermittently. The heels may have shapes other than those shown in the illustration. Through the heels on the one hand better ventilation is achieved, on the other hand it becomes detached the mass of the chamber walls is even further relieved.

In the further embodiment of the invention, which can be seen from Fig..I is, is the Aufsc'hlußkammer, the rest of the details in the described Can be designed in a manner analogous to the inner cylinder 2, so that too on the outside of the chamber the contents of the chamber increase during its solidification detaches a solid mass from the chamber wall. So it is also here in the cross section the circle corresponding to the outside is eccentric to that which is the inside of the Represents outer wall. The ventilation and drying of the chamber contents and the suction the digestion gases are thereby further improved.

For example, a guide wall 17 is provided starting from the wall 16, the outside of which runs parallel to the chamber circumference and which is shaped so that it has the greatest wall thickness on the wall 16. Your wall thickness either increases constantly or in sections, e.g. B. analogous to Fig. 3, in the direction of movement of the goods to the cutting device down. The guide wall 17 can end where the material has already become sufficiently firm is.

It is not necessary for the chamber floor to be flat. As shown in Figs. 5 and 6, it can also run in the shape of a channel.

Has from both the inner and outer walls of the chamber so the chamber floor has a downward slope. Between the inclined parts of the A gap expediently remains at the bottom, which is closed off by the metal sheets 17 and 18 is. The sheet 17, which from the wall 16 in the direction of the path of the goods through the The chamber extends to a point where the material has already solidified and is roof-shaped formed, while the sheet 18, which covers the remaining part of the gap, flat is. Through the roof-shaped sheet 17, the material is designed during solidification so that it reaches the cutting device on its way through the chamber, without touching the plate 18. Accordingly, there is also no friction between the goods and the flat sheet metal 18 is present, which still requires the force to move the chamber further lowers. In the area of the cutting device, there is a discharge opening in the gap 15 intended for the shredded material.

Claims (3)

PATENT CLAIMS i. Rotating, ring-shaped digestion chamber for production Of superphosphate od. The like. In which the inner cylindrical chamber wall relative to outer is rotatable, characterized in that the width of the on-circuit mass filled on circuit space in the direction from the wall (16) to the cutting device increases steadily or intermittently. 2. Device according to claim i, characterized in that that the change in the inner chamber width is caused by the strength of the inner chamber wall and possibly also or or that of the outer or one on the outer chamber wall arranged baffle (17) in the direction of the wall (16) decreases through the space filled with digestion material to the cutting device, the inner cylindrical chamber wall and optionally the outer one or the inner surface of the baffle is eccentric to the axis of rotation of the chamber. 3. Device according to claims i and 2, characterized in that the cutting device lies in the widest part of the chamber and consists of two vertical shafts with rollers or There is sprockets over which the cutting knife-carrying belts or chains to run. .I. Device according to claims i to 3, characterized in that the The bottom of the chamber is trough-shaped and that the gap between the inner and the outer inclined part of the chamber bottom on the route from the material feed to the solidification zone through a roof-shaped one and on the further route through a flat element, e.g. B. sheet metal is complete.