CZ303602B6 - Salt licks for environmental friendly agriculture and process for preparing thereof - Google Patents

Abstract

In the present invention, there is disclosed a premix comprising 0.001 to 38.0 percent by weight of sodium in the form of a chloride and/or 0.001 to 38.0 percent by weight of calcium in the form of a carbonate, and/or 0.001 to 28.0 percent by weight of magnesium in the form of a carbonate and/or 0.001 to 43.0 percent by weight of sodium in the form of a hydrogencarbonate and/or carbonate and/or 0.001 to 59.0 percent by weight of magnesium in the form of an oxide and/or mixtures thereof. There is also disclosed a process for preparing a salt or mineral lick wherein the preparation process is characterized in that a premix of either an instant salt and/or instant mineral lick is mixed with water in liquid and/or solid state to obtain a mixture, which is either tamped, and/or molded and/or cast, in dependence on consistency achieved, into a transportation and/or application package, and/or a mold, and/or to the point of application outdoor where it hardens creating thus a solid block of lick.

Description

Licks for organic farming and their production

Technical field

The subject of the invention is a composition and a process for the production of instant salt and mineral licks, salt and mineral licks and a process for the production of mineral feed supplements. The solution enables the production of a wide range of mineral supplements, such as sea, stone or vacuum salt licks, licks and supplementary feeds with controlled content of macro and micro-elements, licks with compact, porous or coarse grain structure, special licks with sulfur-containing buffering effect or mineral licks containing organic and vegetable substances. The solution is based on a combination of components that primarily meet the requirement for the final composition of a particular product, with their effect on cure speed, final hardness and licking strength manifested in the ability to bind water. By controlling the dosing and mixing of the components, the product of the desired chemical composition and physical properties is obtained. It also allows the production of licks and supplementary feeds without the use of commercially produced feed phosphates, which are limiting for greater production efficiency. The method of production represents the unification of technology and production equipment for all categories of licks and supplementary feed.

The new conception of instant lick composition simplifies its application in grazing cattle and sheep, game management in game parks, or in feeding wildlife. Licks are characterized by variability of composition and application, high concentration of active substances, resistance to weathering and meet the requirements for use in organic farming system.

BACKGROUND OF THE INVENTION

Salt and mineral licks and supplementary feed are categories of products that differ in composition, method of manufacture, production equipment used and performance characteristics. Salt licks are sodium chloride based products that contain only sodium from the macro-element group, or sodium in combination with micro-elements and a limited amount of basic macro-elements. For their production is used energy and investment-intensive technology of high pressure pressing of specially treated salt. The pressing technology does not allow the production of mineral licks with a higher proportion of macroelements and other additives, which have a deteriorating effect on the compressibility and thus on the resulting strength and resistance of the licks against unfavorable weather conditions. Of the application forms, salt licks are most commonly cylinder or cube blocks. Mineral licks have high proportions of basic macro and microelements. Products based on the use of molasses as a universal binder prevail, which cannot be applied in the form of a self-supporting block or instant. The existing solutions are based on raw materials that do not meet the criteria applied in the organic farming system. This places considerable demands on raw materials whose selection is limited by economic, technological requirements and applicable legislation. In particular, it concerns raw materials that have an influence on the hardening process and the resulting hardness and lick strength. In the category of salt and mineral licks is not yet known instant form, providing the possibility of simple application of licks in the field.

SUMMARY OF THE INVENTION

The object of the invention is a premix of a salt lick and / or mineral lick component and / or supplementary feed containing 0.001 to 38.0 wt. sodium in the form of chloride, and / or

0.001 to 38.0 wt. % calcium in the form of carbonate, and / or 0.001 to 28.0 wt. % magnesium in the form of carbonate, and / or 0.001 to 43.0 wt. % sodium in the form of bicarbonate and / or carbonate, and / or 0.001 to 59.0 wt. magnesium in the form of an oxide, and / or mixtures thereof.

- 1 GB 303602 B6

A preferred embodiment of the invention is a premix of instant salt and / or instant mineral lick, and / or salt and / or mineral lick, which further comprises 0.001 to 24.0 wt. phosphorus in the form of dihydrogen phosphatephenate and / or sodium hydrogen phosphate. Another preferred embodiment of the invention is a premix of instant salt and / or instant mineral lick, and / or salt and / or mineral lick, which further comprises 0.001 to 22.0 wt. % phosphorus in the form of dihydrogen phosphate and / or dibasic and / or calcium phosphate and / or mixtures thereof. Another preferred embodiment of the invention is a premix of instant salt and / or instant mineral lick, and / or salt and / or mineral lick, which further comprises 0.001 to 24.0 wt. % phosphorus in the form of sodium dihydrogen phosphate and / or hydrogen phosphate, and / or mixtures thereof, and 0.001 to 22.0 wt. % phosphorus in the form of dihydrogen phosphate and / or dibasic and / or calcium phosphate and / or mixtures thereof. Another preferred embodiment of the invention is an instant salt and / or linear lick premix, and / or salt and / or mineral lick premix, further comprising 0.001 to 27.0 wt. phosphorus in the form of dihydrogenphosphorate and / or ammonium hydrogenphosphate. Another preferred embodiment of the invention is an instant salt and / or instant mineral lick premix and / or salt and / or mineral lick premix, and / or a salt and / or mineral lick and premix component premix containing further from 0.001 to 20 % 0 wt. % magnesium in the form of sulfate, and / or 0.001 to 41.0 wt. % magnesium in the form of hydroxide, and / or 0.001 to 35.0 wt. magnesium in the form of a chelate and / or lactate and / or gluconate and / or a mixture thereof, and / or 0.001 to

21.0% by weight of calcium in the form of dolomitic limestone, and / or 0.001 to 54.0% by weight of calcium; % calcium in the form of hydroxide, and / or 0.001 to 71.0 wt. calcium in the form of oxide, and / or 0.001 to 35.0% by weight, calcium in the form of sulfate and / or chloride and / or chelate, and / or lactate and / or gluconate and / or mixtures thereof, and / or 0.001 to 32, 0 wt. % sodium in the form of sulfate, and / or 0.001 to 57.0 wt. % sodium in the form of hydroxide, and / or 0.001 to 60.0 wt. % of potassium in the form of carbonate and / or bicarbonate and / or hydroxide and / or sulfate and / or chloride and / or mixtures thereof, and / or 0.001 to 35.0 wt. % of chlorides in the form of magnesium chloride and / or in the form of hydrochloric acid and / or mixtures thereof, and / or 0.001 to 30.0 wt. % sulfur in the form of sulfur and / or sulfuric acid, and / or 0.001 to 20.0 wt. % phosphorus in the form of trihydrogen phosphoric acid, and / or 0.001 to 20.0 wt. % phosphorus in the form of potassium hydrogen phosphate and / or potassium hydrogen phosphate and / or magnesium phosphate and / or magnesium phosphate and / or magnesium calcium and / or sodium calcium and / or mixtures thereof, and / or 0.001 to 35.0 wt. % of iron in the form of carbonate and / or sulfate and / or oxide and / or mixtures thereof, and / or 0.001 to 35.0 wt. % iodate in the form of iodate and / or iodide and / or mixtures thereof, and / or 0.001 to 35.0 wt. % cobalt in the form of carbonate and / or sulfate and / or chelate and / or mixtures thereof, and / or 0.001 to 25.0 wt. % of copper in the form of carbonate and / or sulfate and / or oxide and / or chelate and / or mixtures thereof, and / or 0.001 to 35.0 wt. % manganese in the form of carbonate and / or sulfate and / or oxide and / or chelate and / or mixtures thereof, and / or 0.001 to 35.0 wt. % zinc in the form of carbonate and / or sulfate and / or chloride and / or oxide and / or chelate and / or mixtures thereof, and / or 0.001 to 35.0 wt. % molybdenum in the form of molybdate and / or chelate and / or mixtures thereof, and / or 0.001 to 35.0 wt. % selenium in the form of selenite and / or selenate and / or chelate and / or mixtures thereof, and / or 0.001 to 75.0 wt. sorbents and / or vehicles, such as calcium and / or soda lime and / or aluminum and / or soda and / or magnesium and / or clay calcium compounds and / or diatomaceous earth and / or silicic acid and / or aluminosilicate zeolite; / or activated clay and / or activated alumina and / or hydrotalcite and / or kaolinite and / or talc and / or bentonite and / or montmoronite and / or steatite and / or chlorite and / or vermiculite and / or illite and / or natrolite % and / or phonolite and / or sepiolite and / or perlite and / or mixtures thereof, and / or 0.0001 to 50.0 wt. additives such as microelement chelates and / or microelement proteinates and / or vitamins and / or flavoring and / or amino acids and / or complexing agents and / or medicaments and / or colorants and / or antioxidants and / or enzymes and / or yeast and / or bacteria and / or growth promoters and / or granulating additives and / or products containing organic substances such as molasses and / or yeast and / or plant extracts and / or malt flower and / or dried vegetables and / or their % of the mixture, and / or 0.001 to 50.0 wt. organic acids such as formic and / or acetic and / or propionic and / or methylpropionic and / or lactic and / or malic and / or sorbic and / or citric and / or tartaric and / or fumaric and / or stearic acids

% And / or mixtures thereof, and / or 0.001 to 50.0 wt. organic acid salts such as formates and / or acetates and / or diacetates and / or propionates and / or lactates and / or malts and / or sorbates and / or citrates and / or tartrates and / or fumarates and / or stearates and / or sodium and / or potassium and / or calcium and / or magnesium and / or ammonium and / or aluminum palmitates and / or mixtures thereof.

Another preferred embodiment of the invention is a premix of instant salt and / or instant mineral lick, and / or sodium and / or mineral lick, and / or a premix feed supplement containing 0.001 to 70.0 wt. free and / or chemically bound water.

io

An embodiment of a process for producing an instant salt and / or instant mineral lick premix and / or salt and / or mineral lick premix and / or a feed additive premix is to mix the individual components and / or the premix components with water and / or phosphoric acid and / or hydrochloric and / or sulfuric acid and / or mixtures thereof, and / or with the components present in the liquid state and / or mixtures thereof, and / or with solutions and / or suspensions of the components present in the solid state, and / or or mixtures thereof, and / or the individual components and / or premixes of the components are treated by spraying with water and / or spraying trihydrogenphosphoric acid and / or hydrochloric and / or sulfuric acid and / or mixtures thereof, and / or spraying components occurring in the liquid state and / or mixtures thereof, and / or by spraying solutions and / or by spraying suspensions of the components occurring in the solid state and / or mixtures thereof, to form an instant salt and / or instant mineral lick and / or supplementary feed which is filled into the shipping container and / or to form a mixture which is packed and / or pressed according to the consistency achieved and / or poured into the shipping and / or application the container, and / or the mold to cure and form a solid block of salt and / or mineral lick.

A preferred embodiment of the process for producing salt and / or mineral lick consists in mixing the premix of instant salt and / or instant mineral lick with water in a liquid and / or solid state to form a mixture which is packed and / or pressed according to the consistency achieved, and / or cast into a shipping and / or application container, and / or a mold, and / or into a field application site where it cures to form a solid lick block.

DETAILED DESCRIPTION OF THE INVENTION Example 1 2 3 4 5 6 7 8 folder name wt. % calcium carbonate - 6.4 - 8.5 15.0 - 13.0 - dolomitic limestone - - - 9.5 15.0 - - 14.3 magnesium oxide 1.5 2,0 5.5 7.0 9.4 10.0 5.0 5.4 sodium chloride 88.2 70.9 90.6 30.9 21.7 57.6 20.1 2.3 magnesium sulfate - - - - - - 15.8 - sodium dihydrogen phosphate 4.2 4.2 - 8.0 11.0 - 5.0 6.0 Calcium dihydrogen phosphate - 11.0 - - - 11.5 - - dicalcium phosphate - - - 9.0 - - 15.0 - Magnesium hydrogen phosphate - - - 4.0 7.0 - - - sodium bicarbonate - - - 2,0 - - - 45.0 premix of microelements 1.1 0.5 0.9 1.1 0.9 0.9 1.1 - Hydrochloric acid - - 3.0 - - - - - water 5.0 5.0 - 20.0 20.0 20.0 25.0 27.0

-3GB 303602 B6

Example 9 10 11 12 13 14 15 Dec 16 column_name ___ .. wt. % calcium carbonate 12.1 53 - - 9.8 313 3.0 5.5 dolomitic limestone - - - 4.1 29.4 19.7 10.0 29.5 sodium bicarbonate 93 1.9 6.0 - - - - - magnesium oxide 24.8 4.8 3.0 3.9 9.0 5.0 10.7 73 sodium chloride 26.0 76.6 80.9 80.0 213 8.5 37.0 14.8 sodium dihydrogen phosphate - - - - 10.0 12.5 - 8.0 Calcium dihydrogen phosphate - - - - 5.0 - - 83 dicalcium phosphate - - - 3.1 5.0 - 73 - ammonium dihydrogen phosphate - - - 3.0 - - 6.0 - magnesium phosphate - - - - 8.7 - - 4.0 premix of microelements 1.9 0.9 0.9 1.9 1.9 1.1 4.1 2.8 trihydrogenphosphoric acid 26.0 5.5 43 - - - - - bentonite - - - * - 2,0 - - water - 5.0 5.0 4.0 - 20.0 22.0 20.0

Example 17 Instant salt lick premix prepared by mixing 88.2 kg of sodium chloride, 1.5 kg of magnesium oxide, 4.2 kg of sodium dihydrogen phosphate and 1.1 kg of microelement premix, is mixed with 5.0 kg of water or snow to form a slightly moistened a mixture which is filled and packed into a mold, transport or application container, or applied directly in the field in a pasture or forest where it cures to form a solid salt lick block.

Example 18 A salt lysis premix prepared by mixing 88.2 kg of sodium chloride, 1.5 kg of magnesium oxide, and 1.1 kg of the microelement premix, is mixed with (or sprayed continuously) with a solution prepared by dissolving 4.2 kg of dihydrogen phosphate sodium in 5.0 kg of water to form a slightly moistened mixture that is filled and packed into a mold or shipping and application container where it cures to form a solid salt lick block.

Example 19 To a premix of the components prepared by mixing 60.6 kg of coarse rock or sea salt, 30.0 kg of vacuum salt, 5.5 kg of magnesium oxide and 0.9 kg of the microelement premix, 3.0 kg of acid are injected with continuous mixing. hydrochloric acid (32.0 wt.%) to form a wetted mixture that is filled and packed into a shipping and application container or mold where it cures to form a solid salt lick block.

Example 20 A premix of a component comprising 20.1 kg of sodium chloride, 5.0 kg of sodium dihydrogen phosphate, 5.0 kg of magnesium oxide, 15.0 kg of dibasic calcium phosphate,

13.0 kg of calcium carbonate and 1.1 kg of premix microelements are mixed with the suspension resulting from recrystallization of 15.8 kg of anhydrous magnesium sulfate in 25.0 kg of water to form a liquid mixture,

-460 303602 B6 which is filled into a shipping and application container or mold where it cures to form a solid block of mineral lick.

Example 21 To a premix of the components prepared by mixing 12.1 kg of calcium carbonate,

9.2 kg of sodium bicarbonate, 24.8 kg of magnesium oxide, 26.0 kg of sodium chloride and 1.9 g of the premix microelements are injected, while stirring continuously, with 26.0 kg of phosphoric acid (54.0% by weight P _2). O ₅ ) to form an instant mineral lick premix or mineral supplementary feed premix which is filled into shipping containers.

Example 22 To a premix of the components prepared by mixing 12.1 kg of calcium carbonate,

9.2 kg of sodium hydrogencarbonate, 26.0 kg of sodium chloride and 1.9 g of the premix of microelements are injected, while stirring continuously, with 26.0 kg of phosphoric acid (54.0% by weight of P ₂ O ₅ ) and subsequently introduced. 24.8 kg of magnesium oxide, to form an instant mineral lick premix or mineral supplementary feed premix which is filled into shipping containers.

EXAMPLE 23 To a premix of the components prepared by mixing 6.0 kg of sodium bicarbonate, 80.9 kg of vacuum salt, 3.0 kg of magnesium oxide and 0.9 kg of the microelement premix, 4.2 kg of phosphoric phosphoric acid (4.2 kg) are added under continuous stirring. % (P ₂ O ₅ ), to form an instant salt lick premix or a mineral supplementary feed premix which is filled into shipping containers.

EXAMPLE 24 95.0 kg of instant lick premix prepared according to Examples 21, 22 and 23 are mixed with 5.0 kg of water or snow to form a wetted mixture which is filled and packed into a transport and application container or mold, or applied in a pasture or in the woods, where it hardens and forms a solid block of lick.

Example 25 5.3 kg of calcium carbonate, 1.9 kg of sodium bicarbonate, 4.8 kg of magnesium oxide, 76.6 kg of vacuum salt, 0.9 kg of the micro35 element premix are introduced into a mixer and mixed into the premix of the components under continuous stirring. injects 5.5 kg of phosphoric acid (54.0 wt% P ₂ O ₅ ) diluted with 5.0 kg of water by spraying to form a moistened mixture which is filled and packed into a transport and application container or mold to cure and form a solid block of mineral lick.

Example 26 To a solution prepared by dissolving 1.9 kg of sodium bicarbonate in 5.0 kg of water, 5.5 kg of phosphoric phosphoric acid (54.0% by weight P ₂ O ₅ ) are added in portions while stirring, followed by mixing with the premix. a component comprising 5.3 kg of calcium carbonate, 4.8 kg of magnesium oxide, 76.6 kg of vacuum salt and 0.9 kg of a premix of microelements, to form a wetted mixture which is filled and packed into a shipping and application container or mold, where it hardens and forms a solid block of mineral lick.

Example 27 9.8 kg of calcium carbonate, 29.4 kg of dolomitic limestone, 9.0 kg of magnesium oxide, 21.2 kg of vacuum salt, 10.0 kg of sodium dihydrogen phosphate, 5.0 kg of calcium dihydrogen phosphate, are mixed in a mixer. 0 kg of dibasic calcium phosphate (or monodicalcium phosphate), 8.7 kg of magnesium phosphate and 1.9 kg of a premix of microelements to form a premix of an instant mineral lick.

-5GB 303602 B6

EXAMPLE 28 To a solution prepared by dissolving 10.0 kg of sodium dihydrogen phosphate in

28.2 kg of water are introduced with continuous mixing of a premix component containing 9.8 kg of calcium carbonate, 29.4 kg of dolomite limestone, 9.0 kg of magnesium oxide, 21.2 kg of vacuum salt, 5.0 kg of calcium dihydrogen phosphate , 5.0 kg of dibasic calcium phosphate (or monodicalcium phosphate), 8.7 kg of magnesium phosphate, and 1.9 kg of premix microelements. The mixture is agitated until carbon dioxide evolution ceases and is then filled into a container or mold where it cures to form a solid block of mineral lick.

EXAMPLE 29 To a solution prepared by dissolving 10.0 kg of sodium dihydrogen phosphate in

28.2 kg of water are added in rapid succession, regardless of the order of feed, 9.8 kg of calcium carbonate, 29.4 kg of dolomite limestone, 9.0 kg of magnesium oxide, 21.2 kg of vacuum salt, 5.0 kg calcium dihydrogen phosphate, 5.0 kg of calcium hydrogen phosphate (or monodicalcium phosphate), 8.7 kg of magnesium phosphate and 1.9 kg of a microelement premix to form a liquid mixture which, when carbon dioxide evolves, fills into a container or mold to cure and form a solid block of mineral lick.

Example 30 3.0 kg of calcium carbonate, 10.0 g of dolomitic limestone, 10.7 kg of magnesium oxide, 37.0 kg of vacuum salt, 6.0 kg of ammonium dihydrogen phosphate, 7.2 kg of calcium hydrogen phosphate, and 4 kg are mixed in a mixer. 1 kg of microelement premix to form an instant mineral lick premix.

Example 31 A solution prepared by dissolving 6.0 kg of ammonium dihydrogen phosphate in 22.0 kg of water is charged with a premix of a component containing 3.0 kg of calcium carbonate, 10.0 kg of dolomite limestone, 37.0 kg of vacuum salt, 7.2 kg dibasic calcium phosphate (or monodicalcium phosphate) and 4.1 kg of microelement premix followed by rapid addition of 10.7 kg of magnesium oxide to form a liquid mixture which, when carbon dioxide evolves, is filled into a container or mold where it cures and forms solid block of mineral lick.

Example 32 78.0 kg of instant mineral lick premix prepared according to Examples 21, 22, 27 or 30 are mixed with 22.0 kg of water to form a semi-liquid mixture which is filled into a container or mold where it hardens to form a solid mineral lick block. .

Claims (10)

40 PATENT CLAIMS A premix of components for licks and / or supplementary feedstuffs, characterized in that it comprises 0.001 to 38.0% by weight. % sodium in the form of chloride, and / or 0.001 to 38.0 wt. % calcium carbonate and / or 0.001 to 28.0 wt. % magnesium in the form of carbonate, and / or 0.001 to 43.0 wt. % sodium in the form of bicarbonate and / or carbonate, and / or 0.001 to 59.0 wt. magnesium in the form of an oxide, and / or mixtures thereof. The premix of claim 1, further comprising 0.001 to 24.0%. 50 wt. phosphorus in the form of dihydrogen phosphate and / or sodium hydrogen phosphate. 3. The premix of claim 1 further comprising 0.001 to 22.0 wt. % phosphorus in the form of dihydrogen phosphate and / or dibasic and / or calcium phosphate and / or mixtures thereof. -6GB 303602 B6 4. The premix of claim 1 further comprising 0.001 to 24.0 wt. % phosphorus in the form of dihydrogen phosphate and / or disodium hydrogen phosphate and 0.001 to 22.0 wt. % phosphorus in the form of dihydrogen phosphate and / or dibasic and / or calcium phosphate and / or mixtures thereof. The premix according to claims 1 and / or 2 and / or 3 and / or 4, characterized in that it further comprises 0.001 to 27.0 wt. phosphorus in the form of dihydrogen phosphate and / or ammonium hydrogen phosphate. io The premix of claims 1-5, further comprising 0.001 to 20.0 wt. % magnesium in the form of sulfate, and / or 0.001 to 41.0 wt. % magnesium in the form of hydroxide, and / or 0.001 to 35.0 wt. % magnesium in the form of a chelate and / or lactate and / or gluconate and / or a mixture thereof, and / or 0.001 to 21.0 wt. % calcium in the form of dolomitic limestone, and / or 0.001 to 54.0 wt. % calcium in the form of hydroxide, and / or 0.001 to 71.0 wt. % Of calcium in the oxide form, and / or 0.001 to 35.0 wt. % calcium in the form of sulfate and / or chloride and / or chelate and / or lactate and / or gluconate and / or mixtures thereof, and / or 0.001 to 32.0 wt. % sodium in the form of sulfate, and / or 0.001 to 57.0 wt. sodium in the form of hydroxide, and / or 0.001 to 60.0% by weight, potassium in the form of carbonate and / or bicarbonate and / or hydroxide and / or sulfate and / or chloride and / or mixtures thereof, and / or 0.001 to 35.0 % wt. % Of chlorides in the form of magnesium chloride and / or in the form of hydrochloric acid and / or mixtures thereof, and / or 0.001 to 30.0 wt. % sulfur in the form of sulfur and / or sulfuric acid, and / or 0.001 to 20.0 wt. % phosphorus in the form of trihydrogenphosphoric acid, and / or 0.001 to 20.0 wt. phosphorus in the form of dihydrogen phosphate and / or potassium hydrogen phosphate and / or magnesium phosphate and / or magnesium hydrogen phosphate and / or magnesium calcium % 25 and / or soda-lime and / or mixtures thereof, and / or 0.001 to 35.0 wt. % of iron in the form of carbonate and / or sulfate and / or oxide and / or mixtures thereof, and / or 0.001 to 35.0 wt. % iodate in the form of iodate and / or iodides and / or mixtures thereof, and / or 0.001 to 35.0 wt. % cobalt in the form of carbonate and / or sulfate and / or chelate and / or mixtures thereof, and / or 0.001 to 25.0 wt. copper in the form of carbonate and / or sulfate and / or oxide and / or chelate and / or mixtures thereof, and / or % 0.001 to 35.0 wt. % manganese in the form of carbonate and / or sulfate and / or oxide and / or chelate and / or mixtures thereof, and / or 0.001 to 35.0 wt. % zinc in the form of carbonate and / or sulfate and / or chloride and / or oxide and / or chelate and / or mixtures thereof, and / or 0.001 to 35.0 wt. % molybdenum in the form of molybdate and / or chelate and / or mixtures thereof, and / or 0.001 to 35.0 wt. selenium in the form of selenite and / or selenate and / or chelate and / or mixtures thereof, and / or % 0.001 to 75.0 wt. sorbents and / or vehicles such as calcium silicate and / or calcium calcium and / or aluminum and / or soda and / or magnesium and / or aluminum calcium compounds and / or diatomaceous earth and / or silicic acid and / or aluminosilicate zeolite; / or activated clay and / or activated alumina and / or hydrotalcite and / or kaolinite and / or talc and / or bentonite and / or montmoronite and / or steatite and / or chlorite and / or vermiculite % By weight 40 and / or illite and / or natrolite and / or phonolite and / or sepiolite and / or perlite and / or mixtures thereof, and / or 0.0001 to 50.0 wt. additives such as microelement chelates and / or microelement proteinates and / or vitamins and / or flavor and / or amino acids and / or complexing agents and / or pharmaceuticals and / or colorants and / or antioxidants and / or enzymes and / or yeast and / or bacteria and / or growth promoters and / or granulating additives and / or for45 organic products, such as molasses and / or yeast and / or plant extracts and / or malt blossom and / or dried vegetables and / or % of mixtures thereof, and / or 0.001 to 50.0 wt. organic acids such as formic and / or acetic and / or propionic and / or methylpropionic and / or lactic and / or malic and / or sorbic and / or citric and / or tartaric and / or fumaric and / or stearic and / or palmitic and / or mixtures thereof, and / or 0.001 to 50.0% 50 wt. organic acid salts such as formates and / or acetates and / or diacetates and / or propionates and / or lactates and / or malts and / or sorbates and / or citrates and / or tartrates and / or fumarates and / or stearates and / or sodium and / or potassium and / or calcium and / or magnesium and / or ammonium and / or aluminum palmitates and / or mixtures thereof. -7EN 303602 B6 Premix according to claims 1 to 6, characterized in that it contains 0.001 to 70.0 wt. free and / or chemically bound water. Premixture according to claims 1 to 7, characterized in that it is in the form of instant salt and / or instant mineral lick, and / or salt and / or mineral lick, and / or premix feed supplement. Production method according to claims 1 to 8, characterized in that the individual components and / or the premix are mixed with water and / or with phosphoric acid and / or hydrogen chloride and / or sulfuric acid and / or mixtures thereof, and / or liquid components and / or mixtures thereof, and / or solutions and / or suspensions of solid components and / or mixtures thereof, and / or individual components and / or premixes are sprayed with water and / or by spraying trihydrogenphosphoric acid and / or hydrochloric and / or sulfuric acid and / or mixtures thereof, and / or by spraying components occurring 15 in the liquid state and / or mixtures thereof, and / or by spraying solutions and / or by spraying suspensions of the components occurring in the solid state and / or mixtures thereof, to form instant salt and / or instant mineral licks, and / or supplementary feed which is filled into a shipping container, and / or to form a mixture which is packed and / or molded and / or molded into a shipping and / or application container and / or mold to cure and form a solid, depending on the consistency achieved 20 block of salt and / or mineral lick, Production method according to claims 1 to 9, characterized in that the premix is mixed with water in a liquid and / or solid state to form a mixture which is packed and / or pressed and / or poured into a transport and / or solid according to the consistency achieved. an application container, and / or a mold 25 and / or the application site in the field, where it cures and forms a solid block of lick.