DE1207777B - Process for granulating mineral feed additives - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: A 23 k

German class: 53 g-4/04

Number: 1207 777

File number: T19147IV a / 53 g

Filing date: October 17, 1960

Opening day: December 23, 1965

The livestock breeds bred for maximum performance require mineral supplements Feed ration so that your health is preserved and your cultivated output volume is exhausted can. This mineral supplement is achieved through mineral feedstuffs for their production statutory provisions exist. The law distinguishes between mineral feedstuffs Mineral mixtures that are used for mixing, e.g. B. in concentrated feed, and mineral feed that is fed directly to livestock. The procedure described below is applicable to Mineral mixtures and mineral feed. In the following, the process is exemplified using mineral feed explained.

The mineral feed produced today is essentially a mixture of phosphates (bone fodder meal, di- and tricalcium phosphate, disodium phosphate), calcium carbonate, magnesium and aluminum compounds and trace element salts. They contain between 12 and 30% total P ₂ O ₅ . Micro components are vitamins and other active ingredients or spices. The individual components of this mineral feed have completely different physical and chemical properties, so that these mixtures not only tend to separate, but are also much more difficult to convert into granular form than homogeneously composed single salts, double salts or similar compounds, especially fertilizer salts, mixed fertilizers and the like The previous mineral feeds and mineral mixes also have the disadvantage that they are dusty or do not flow sufficiently. On the one hand, dust is a nuisance in the production of compound feed. On the other hand, the animals refuse such dusty mineral feed if it is presented to them unmixed.

It has therefore been proposed to replace the bone fodder meal with other phosphorus carriers. You then get an almost dust-free, but too fine-grained one in storage and transport facilities too Product that is prone to congestion and bridging.

It has also been sought in various ways, the fine structure of the mineral feed in one to convert homogeneous coarse structure, whereby one the homogeneity both in terms of proportionately To achieve distribution of the value-determining ingredients as well as in terms of grain size sought.

For example, the mineral feed has been mixed with suitable organic carriers, e.g. B. oat hull bran, wheat bran or grass meal, and then after the addition of binding substances such as molasses, method for granulating mineral
Complementary feed

Applicant:

Tranatogen-Werk Jakob Schwarzkopf K. G.,

Elmshorn (Holst.) - Sparrieshoop

Named as inventor:

Dr. Dietmar Dressler, Elmshorn (Holst.)

Corn residues or water, shaped into cylindrical pressed pieces in suitable matrices. Is the proportion of organic substances usually almost 50% of the total mass. This product can can no longer be called pure mineral feed.

If, on the other hand, you want to press molding pure mineral feed or mineral mixtures by pressing achieve great technical difficulties. It's hardly possible to get the mix so dry to hold, as it would be necessary for a trouble-free production. It is true that the product is somewhat damp for pressing use less pressure, but crusts quickly form on particularly stressed machine parts, which lead to disruptions in production and rapid wear and tear on the machines.

Another possibility to arrive at a homogeneous coarse structure is to use reactive Solutions to separate pure or mixed crystals, as it is known in the fertilizer industry is. However, this path is not viable for mineral feed, because its components are a reaction in the sense of a Crystallization are not capable. Added to this is the fact that those achieved in the manufacture of fertilizers Crystals from post-treatment by shaping machine parts such as sieve matrices, granulating drums etc., or require powdering.

According to the invention it is proposed to use the so-called "build-up granulation" in order to automatically to achieve a homogeneous coarse structure of the mineral feedstuffs. Under build-up granulation one understands an automatic pressureless granulate formation in the moving material which can be granulated. Capillary effects and crystal bridges are seen as forces that form granules. The required upper

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The surface tension that causes the agglomeration of fine bonds or salts is deposited by the others particles leading to larger granules are caused by mixing components, even if they are reactive Adding a certain amount of moisture to the sluggish, such as calcium carbonate or bolus alba, or moved dry material won. But if they are hostile to granulation, like cattle salt. There arise the same-

Fine particles not in a very thin layer of S moderate, rounded granules.

are wrapped in an aqueous film, the subject of the present invention is thus There is a risk that the material will be physically a process for granulating mineral additives plastically deformed by chemical effects. feed, according to which dry mixes too

One has in the granulation of mineral feed purposes suitable mineral substances that Feed experimentally granulating drums or plates contain between 1 and 5% magnesium oxide, with used. In most cases, however, you had to use a relatively large amount of a concentrated solution of magnesium chloride Water as a binder, added at least about a quarter and then intensively through a third of the given dry mix, to be worked, with a sparingly soluble settling. Soft granules of very high impact were created from magnesium oxychloride, which is known as different grain sizes, which are dried 15 binding substance to the particles of the mineral mixture had to and got a little firmer. Individual granules were created, cemented to which individual lots can be found Undersized and oversized grain. It was only seldom possible to build up granules automatically, after the The flow of material and the addition of moisture so ab- Reaction with an abrasion-resistant, mineral agree that the given dry material is known coat of CaO, MgO or their has been completely converted into granules. Often coated with phosphates and then dried remained with a large part of the mineral mix.

Grain formation. According to a further embodiment of the softening, the existing ones were also used Granules partially pulverized again. After driving the invention are in the granulation The known processes do not result in any satisfactory mineral feedstuffs as binders Results. 25 droxyde, oxides, chlorides, sulfates, silicates and / or

According to the invention, a build-up granulation is proposed - phosphates of magnesium, calcium or aluminum, The controllable and adjustable chemical miniums as solid or dissolved compounds Has reactions as a basis and is always well repro- duced.

is ducible. The above-described surface forces used to encase the granules are not sufficient to bring together the different substances according to further embodiments of the loaned mixture parts to form homogeneous granules suitable for feeding purposes. Through suitable or flavorings, colorings, vitamins, other measures that can be controlled and regulated contain active ingredients and / or pharmaceuticals,
must, the formation of the nucleus and the total granulation must be enforced in the form of the binding substance, the effective weighting of the indifferent constituents of the mineral-soluble compounds, in such quantities. If, as the experiments add to the mineral feed, that they have proven 5 to 10% of the total, make up more than a hundred total mineral feed in 1 kg of mass. As with a thousand uniform, precisely defined kernels in the same non-granulated mixture, the time together can arise, the initially granulating, as well as the type and amount of the basic mixture, which is unfriendly to the value determination, have enough traps in the initial mixture. The competition for this offer does not lead to free choice. If the binding substance used is only for total granulation of the total mixture, but according to the invention phosphates or magnesium compounds are also used for the formation of surprisingly uniform fertilizers, that is to say salts which are also used as shaped granules; For example, more than 50% of the individual components in mineral feed additives are in the range of 1 to 3 mm grain size. 45 find uses that are necessary and well-resorbed

The method of the invention causes complex to be admitted, so is the physiological value of the granulated Compound mineral mixtures to form stable, mixture just as high as that of a powder homogeneous To build up granules. Due to deep, but dust nuisance and processing fend Wetting with a suitable solution will eliminate difficulties.

triggered a chemical reaction that leads to the formation 50 The inventive formation of the binding sub-

from small granulate cores. At these cores punching serving compounds or salts within

which are still in a single-grain structure - a largely indifferent base mass is required

borrowed mixture components. a certain amount of free water. The grain size

The granulate cores are created with the help of a fall is dependent on this, it increases with the added one treatment reaction that occurs in the intensely moving material. Will one through the respective runs. One of the precipitation partners is located as a fixed material property-related maximum exceeded substance in the basic mixture, the other dissolved in the th, the granules form plastic masses aqueous, liquid phase. Those in the dry ground together. The desired and mixed by others contained reactants can, for. B. drive spherical fine grains that cannot be obtained: Calcium or magnesium oxide, sodium phosphate, for example 1 to 3 mm in diameter, dephate or sodium sulfate. The granules are formed and are available in high yield if their build-up is slow when one takes place on the intensely agitated basic mixture; the most favorable one required for this Acts solution that z. B. Magnesium chloride, Magne water or amount of solution must experimentally ersiumsulfat, Calcium chloride or water glass contains: be averaged. In general, the core needs it magnesium hy- 65 formation develops two thirds of the total granulation time as binding substances, hydroxide, magnesium oxychloride, calcium hydroxide, CaI- Only at the end of this period is the onset of struccium oxychloride, Calcium sulphate, magnesium or calcium change in the mixture can be recognized. The ancium phosphate or silicate. At the precipitated displacement of the indifferent basic components goes

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then proceed quickly. A few examples explain this loosely and homogeneously applied. After gentler Procedure: Drying were in the granular mineral feed

Trial 1 25.2% total P ₂ O ₅ and 242,000 IU per kilogram

_viti ^ ₅₂₀ q ₀ jg _{Viti D d 65} vitiE

A mixture consisting of 50 kg of dipicalcium-5 was determined. The vitamin D ₃ content was unchanged after 3 months, phosphate, 15 kg cattle salt, 20 kg calcium carbonate, the vitamin A content showed a slight decrease of 14 kg bolus alba and 1 kg of trace element salts.

Iron, manganese, copper, cobalt and iodine, further experiments were carried out,

with vigorous stirring with 25 kg of a solution for precise knowledge of the formation of the binding 6 kg of magnesium chloride (MgCl ₂ -OH ₂ O) 3 kg of maio substances and the coating of the finished granular magnesium sulfate (MgSO ₄ · 7H ₂ O) and 16 kg of water were unable to recover. As connections are next to the sets. The above-mentioned soft magnesium phosphate, apatite and aluminum granules of various sizes were formed. Precipitated minium phosphate and calcium silicate are suitable as binding substances. The magnesium hydroxide and carbonate. Here, too, binding substance is created by the reaction

15 of two ionizable compounds, e.g. B. by the experiment I exposure to an aluminum sulfate solution in the

The base mix described above was made up of crystalline disodium base mix according to the invention 3 kg of magnesium oxide added. By phosphate.

The action of the 25 kg magnesium salt solution from 6 kg The coating of the finished granules with

Magnesium chloride (MgCl ₂ · 6H ₂ O) 3 kg of magnesium flavors or active ingredients is best added to sulphate (MgSO ₄ · 7H ₂ O) and 16 kg of water are created together with a carrier that is still fine-grained, even granules. Only about 10% fresh granules react and an oversize and undersize was sieved out. After detaching, firmly adhering peel becomes. Calcium oxide, removal of about 5% water by drying the magnesium oxide or phosphate are such reactive granules. Solid granules are the result, without abrasion. In it z. B. embedded and easy to chew. The binding substance made from mag- are: isolated or in a natural association benesium oxychloride causes the production of essential oils, sweeteners or bitter substances, more stable granulates than those in experiment 1; the granular trace elements, vitamins, antibiotics and also late in the total mixture are therefore of uniform pharmaceuticals. The flavoring substances are generally grain size and firmer. The total P ₂ O ₅ content of the 30 mean lower concentrations needed if this mixture was 16.5% · ^{can only be distributed} over the surface. Regarding

In terms of the stability of organic active ingredients, this trial 3 run is particularly advantageous. You don't need that

The basic mixture used in experiment 2 can actually take part in the entire granulation process. They are yeasted with 26 kg of magnesium chloride solution (10 kg of the magnesium chloride solution used in particular for forming granules - MgCl ₂ · 6H ₂ O and 16 kg of water). The water produced was kept away. A gentle, medium-sized granulate. If the additive was dried to 27 kg, there is no disadvantage for its physiologically important ingredients in an equal-percentage magnesium chloride solution. The so obtained chemically increases, so in addition to the desired larger homogeneous granules and also in the grain size distribution some large moist lumps were formed. 40 is largely uniform, dimensionally stable granules

Can even be transported without drying. The getrock-Versucn 4 _Nete granules can be packed without abrasion and

A mixture consisting of 40 kg dicalcium move, it is of high strength and flows without phosphate, 25 kg cattle salt, 29 kg calcium carbonate, congestion. On the other hand, it is easy to crush 5 kg of sodium sulphate and 1 kg of trace element salts in the mouth of the animals so that they are completely absorbed with 19 kg of calcium chloride solution (7 kg of minerals are guaranteed by the animals CaCl ₂ · 6H ₂ O + 12 kg of water) intensely stirred. will. Since the process allows for a loss-free granulate formation with only a little oversize and undersize grain, as far as possible, mineral feed additives can dry with the same properties as those in 50 without any major difficulties in a granular test 2 mentioned. The total P ₂ O ₅ content was converted into form. The process is subject to defined reaction laws to a level of 12.7%; it can be carried out industrially

Control trial 5. The final product has a clearly circumscribed one

bene composition.

A mixture consisting of 60 kg of dicalcium phosphate, 10 kg of tricalcium phosphate, 8 kg of disodium, apart from removing dust, phosphate, 15 kg of cattle salt, 6 kg of calcium carbonate and in the following: During production 1 kg of trace element salts of ready-made feed, 12 kg of the granules can be _{mixed in intensively with a mechanical dosing calcium chloride solution (2.5 kg CaCl 2} · 6H ₂ O + 9.5 kg without water stagnation). Occur by the binding substance 60 in the flow of material. The granular mass flows calcium phosphate formed fine even better. A segregation of the granules over granules. After the end of the granulate formation, individual components have been fed into the still running granulating device 3 kg Ma-. The same applies to the packaging of the magnesium oxide, the 30 million international granulated mineral feed using automatic units (IU) vitamin A, 6 million IU vitamin D ₃ 65 matic packaging equipment. In contrast to and 10,000 mg vitamin E, each as a dry concentrate powdery mixture, the bulk density is the one contained. The magnesium oxide was constant in granulated mineral feed. In addition, together with the vitamins from the granules, smaller packaging items can be used with the same filling weight.

container can be selected. These take up less space during transport and storage. They are also easier to use.

On the farm it is customary not to weigh the daily ration of mineral feed, but to weigh it with one Take the vessel, the content of which has been determined, from the original packaging. This dimension of the Daily ration is facilitated by the constant bulk weight of the granulated mineral feed, while In the case of powdered mineral feed, greater deviations due to storage of different densities in the Vessel and segregation of the mass occur frequently.

Claims (4)

Patent claims: 1. A process for granulating mineral Beifuttermittel, characterized in that the dry mixes for animal feed suitable mineral substances that contain ° / ₀ Magnesium oxide 1 to 5, mixed with a concentrated solution of magnesium chloride and be secured thereto by intensive work in the terminal, wherein a poorly soluble Magnesium oxychloride precipitates, which as a binding substance cement the particles of the mineral mixture into individual granules, on which individual granules build up automatically, which are coated with an abrasion-resistant, mineral coat of CaO, MgO or their phosphates known per se and then dried after the reaction has ended. 2. The method according to claim 1, characterized in that the formation of the binding substance in the dry mineral mixture hydroxides, sulphates, silicates and / or phosphates of magnesium as Solid compounds or compounds dissolved in water are used. 3. The method according to claim 1, characterized in that the formation of the binding substance in the Mineral mixture hydroxides, oxides, chlorides, sulfates, silicates and / or phosphates of calcium and / or aluminum as solid compounds or compounds dissolved in water are used. 4. Process according to Claims 1 to 3, characterized in that the used for wrapping Substances odorous and / or flavoring substances, colorants, vitamins, other active substances and / or Pharmaceuticals are added. Considered publications:
German patent specifications No. 603 480, 721 581,
837104,665 693,667 545;
German interpretative document No. 1 043 354;
Austrian Patent No. 96 042;
French Patent No. 1130 027;
British Patent No. 841 058;
U.S. Patent No. 2,599,436.