DE612756C - Device for the transfer of fine, moist salts, in particular fertilizer salts, into small spherical aggregates - Google Patents

Description

Device for transferring fine, moist salts, in particular Fertilizing salts, in small spherical aggregates The agglomeration of water-insoluble Salts, ore dust and the like to form spherical structures are often used in practice. One works here according to part of the known agglomeration process with dry, dust-fine material into which one can put water or weak solutions of crystalline water Injected salts in droplet form.

In the known working methods, the dry material sucks the water on, whereby the drop shape of the water is retained.

This is then obtained through careful drying previously dust-fine material is known to be more or less large spherical Agglomerates of considerable strength. The transfer of this way of working As is also known, water-soluble salts already present difficulties. Especially if you want to create small pearls, the fine ones make it easy Water droplets moisten the whole salt without letting it clump together.

Furthermore, there is the disadvantage that in most practical Cases two drying processes are required because the production of the salts is up done on wet roads; this is especially true for fertilizer salts, such as B.

Ammonium sulfate, ammonium chloride, potash fertilizer salts, potash nitrate and one Part of the phosphates.

In the usual manufacturing processes, these salts usually fall into in such a fine form that the dried salts can be thrown and stored are quite inadequate, so that the conversion into a coarser form is necessary, the pearl shape being particularly advantageous.

The present invention is now-a device for Conversion of fine, moist salts, especially fertilizer salts, into small spherical ones Units with which it is possible to share the above-mentioned disadvantages in agglomeration to eliminate salts. With the new device, the salts are also on easier and cheaper way to convert into the desired granular form. It namely, it was found that the salts at an appropriate moisture content when moving in a lying rotating cylinder by a suitable device can be broken up into small spheres or pearls. The device according to present invention therefore consists of a known rotating horizontal cylinder, which is characterized in that in its interior just above the deepest Point one in reverse Direction of rotating dividers e arranged The chopper according to the present invention can be made of a corrugated rotary Rollers whose direction of rotation is opposite to the direction of rotation of the cylinder are blocked. The roller is located just above the lowest point of the cylinder. The vastness of the Corrugation and the distance between the roller and the cylinder wall can vary as required Size of the agglomerate spheres can be different. So z. B. in the manufacture of Balls from 1 to 2 mm in diameter, the corrugation 3 mm and the distance of the roller from of the cylinder wall I mm. Instead of the corrugated roller, a spiked roller can also be used be arranged as a splitter in the cylinder. For the production of balls of I to 2 mm in diameter is the distance of the Stadhelspitzen and the height of the Spines approximately 2 to 2.5 mm, the distance of the tips from the cylinder approximately 1 mm. A good effect is also from one as a chopper inside the cylinder attached rotating brush, whose elastic bristles a particularly good division bring about, achieved. For the production of spheres from 1 to 2 mm in diameter the distance between the brush and the cylinder is approximately 2 mm. You give the cylinder a certain inclination, so you can with the device according to the present invention also work continuously, in such a way that on the one hand you get fresh food all the time introduces wet salt, while on the other side the small globules run out.

The material agglomerated with the apparatus of the invention is initially still soft, and you have to send it to the drying immediately. The drying goes well with drying belts on which the agglomerates in a thin layer be applied. Particularly good structures are obtained when the grains are dried Fabrics in the rotary kiln. Rolling while drying keeps the material even round, so that a very strong product is obtained. When using the According to a further embodiment, the agglomerating device can be used for drying in a rotary kiln of the present invention can also be incorporated directly into the drum. It happens this in such a way that the rotating cylinder, on the inner surface of which the rotating The roller or brush rotates, which is part of the drying drum itself. There is a transport of the not yet dried soft balls to the drying drum when using a If such a construction as shown in Fig. 3 is found, these are treated more gently, and being limited to one drive simplifies construction and operation. Even the agglomerating device built into the drying drum therefore has considerable To have advantages.

In Fig. I and 2 is an agglomerating device according to the previous one Invention shown schematically, in which a built-in rotary drum rotating Brush e in the opposite direction to the direction of rotation of the drying drum emotional.

In Fig. 3 is a schematic of the union of agglomeration drums and drying drum shown. In the higher part of the b in a known manner slightly inclined rotating drum b, c is the agglomeration device, in the present case consisting of a rotating brush, arranged, means which is deformed the moist salt entering at a j, passes into the dry part c and this in countercurrent to a stream of preheated air at d in dried State leaves.

The products obtained with the apparatus of the present invention consist of evenly shaped small beads of considerable strength, which are used directly for fertilization purposes and the like without special inspection can and have a particularly good throwing power and storage stability have. There is also a particular advance of the device according to the invention also in the fact that only one drying process is required.

Embodiments I. 50 kg of potassium chloride, moistened with 150/0 water are fed continuously into a rapidly rotating drum.

In this there is an oppositely rotating brush that for the production of spheres from 1 to 2 mm in diameter using a suitable device is set at a distance of about 2 mm from the cylinder and the solid salt, divided by the rotating movement, converted into balls of the desired size. The spherical material obtained in this way is then placed in a drying drum dried in countercurrent. 42 kg of granular potassium chloride are obtained.

2. A mixture of 227 parts wet potassium nitrate with about 10 % adhering water, such as when obtained from aqueous solutions by crystallization accrues, and r oo parts of dry diammonium phosphate is in an agglomeration drum, which, as shown in Fig. 3, is combined with a drying drum, agglomerated and leaves the drum in countercurrent to a stream of air preheated to 100O d.

Claims (2)

P A T E N T A N S P R Ü C H E: 1. Device for transferring fine, moist salts, especially fertilizer salts, in small spherical aggregates, consisting of a rotating horizontal cylinder, characterized in that im Inside the cylinder, just above the lowest point, a rotating in the opposite direction Divider (e) is arranged. 2. Apparatus according to claim I, characterized in that the cylinder is directly combined with a drying cylinder.