RU2075946C1 - Method of premix preparing - Google Patents

Abstract

FIELD: food production, agriculture. SUBSTANCE: method involves mixing trace element salt with vehicle. The source of trace element salts: copper carboxymethylcellulose obtained by mixing 20% copper sulfate solution and 20% sodium carboxymethylcellulose solution taken at ratio = 1:4 up to deposit formation. Precipitate is washed off, dried, ground and mixed with potassium iodide that is mixed preliminary with bran at ratio = 1:10. The obtained mixture is granulated, covered with shell from 5% sodium carboxymethylcellulose solution and dried. EFFECT: improved method of premix preparing. 1 tbl

Description

 The invention relates to the feeding of farm animals, namely the preparation of receivers containing trace elements copper, zinc, manganese, cobalt, iodine, vitamins, antibiotics and other components in the form of inert but biologically active forms, that is, not reacting with each other, but at the same time, they are capable of ligands, for example, glycine, when ingested into the body, which promotes the use, for example, of copper for the biosynthesis of copper-containing enzyme structures.

Several methods are known for stabilizing potassium iodide in nutritional mixtures:
1) the use of potassium iodide in the composition of the drug "kayod" containing K1-2.7-3.3% sodium thiosulfate 0.09 0.11% magnesium carbonate 48 59% magnesium sulfate 36 44% calcium stearate 0.09 0.011% and talc 2.7 - 3.3% (AC N 394046, A 61 K 27/00, bull. 1973, N 34);
2) mixing potassium iodide with natural zeolite with a particle size of 0.05
0.5 mm in an amount of 8 to 24% by weight of iodide. (AC N 1697696 A 23 K 1/175, 1991, N 46).

There are a number of other methods, however, all these methods do not eliminate the interaction of CuSO ₄ 5H ₂ O with K1, even in dry form, as they are based on the dilution of K1, and not on a decrease in the chemical activity of copper and iodine ions, especially in aqueous solution. It is enough to note that as a result of the interaction of copper and iodine ions, molecular iodine (extremely toxic substance) and copper iodide (insoluble in water and poorly absorbed by the body) are formed. Natural zeolite can only be used in pig breeding, and kayoda tablets can be used only for individual feeding, which is almost impossible in large mechanized farms.

 Therefore, stabilization of iodine does not completely solve the problem of stabilization of other unstable components of premixavitamins, antibiotics, etc., since a mixture usually contains very active metal-copper, the conversion of which into a chemical inert form is required. A way to increase the preservation of vitamins in premixes by converting inorganic salts of Mn, Fe, Zn, Cu and Co into organometallic complexes with hemicelluloses (ed. St. N 1743537, A 23 K 1/16, 1990 prototype). However, it is not known how these complexes will behave with respect to potassium iodide, since in the premixes recommended by the author, the addition of this most important trace element is not provided.

 The purpose of the invention is to increase the safety of copper, iodine, vitamins, antibiotics, their uniform distribution in the mixture.

This goal is achieved by the fact that before mixing, copper sulfate is added to a 20% solution of NaKMC (sodium salt of carboxymethyl cellulose in a weight ratio of 1: 4 CuSO ₄ 5H ₂ O: NaKMC), the precipitate is separated, dried and crushed. The resulting complex is used to prepare 1% vitamin-mineral premix with other components and a filler.

 Before introduction into the premix, potassium iodide is mixed with 10 20 parts of bran, granules with a diameter of 1 2 mm are made from the resulting mixture, coated with a coating of 5% NaKMC solution, dried, and also used in preparing the premix.

The method is as follows. A 20% solution of copper sulfate is mixed with a 20% solution of NaKMC in a weight ratio of 1: 4 (crystalline CuSO ₄ 5H ₂ O: dry NaKMC); in this case, a reaction occurs with the precipitation of CuKMC in the form of a flocculent green precipitate, which is filtered, washed, dried in air and crushed. The salt thus obtained is inert to potassium iodide, vitamins, and antibiotics.

 Stabilization of potassium iodide is carried out in the following way: mix potassium iodide with bran in a ratio of 1:10, make granules with a diameter of 1.5 to 2 mm, cover them with a coating of 5% NaKMTs solution and dry. The preparation of potassium iodide thus prepared is well mixed, does not cake, and does not interact with the copper ion, and even more so with the copper salt of carboxymethyl cellulose (CuKMTS).

 Therefore, in the proposed method for preparing the premix, the two most active components, copper and iodine, are stabilized, which ensures long-term preservation of the premix. See below. The safety of the premix was checked by the iodine content in it, which was determined by the kinetic rhodanide-nitrate method at the beginning and end of storage.

The safety of iodine in the premix with various stabilization methods (in to the initial level):
At the beginning of the experiment after 3 months of storage 100
Potassium iodide and copper sulfate not stabilized 16
Stabilization of copper sulfate (CuКМЦ) 88
Stabilization of potassium iodide (granulation and phlegmatization of NaKMC) 55
Stabilization of copper sulfate and potassium iodide 92
Example 1
A mixture of CuKMC with granular and phlegmatized KI was prepared, the finished mixture was added to the premix (KS-3) used to feed piglets and containing a set of biologically active substances. As a control option, copper sulfate and potassium iodide additives were used in the same premix. To control the decomposition of potassium iodide (the appearance of molecular iodine in the medium), the kinetically rhodanide-nitrate method was used. It was found that the addition of unstabilized forms of copper and iodine led to the appearance of molecular iodine, while the stabilized forms of these red staining elements did not produce.

Example 2
The experiment was conducted on fattening gobies older than 1 year, divided by the principle of analogues into 2 groups of 15 animals each. The main diet (OP) consisted of the following ingredients (%): forage 8.5; rapeseed cake 3.2; cornea 10.7; haylage 58.8; hay 10.7; wheat straw 5.3; molasses 2.7; premix - 0.1, consisting of copper sulfate (39.3 mg), potassium iodide (0.26 mg), cobalt sulfate (5.72 mg), zinc sulfate (150 mg) based on wheat bran.

 Unstabilized potassium iodide was introduced into the first group of calves in the premix, and potassium iodide stabilized by mixing copper sulfate solution with 20% NaKMC solution in which the ion-exchange reaction occurs with precipitation of CuKMC was added to the premix. The resulting salt is inert to potassium iodide. The experiment lasted 90 days (see table).

 The change in live weight of gobies for the period of the experiment is given in the table.

 The experimental data show that the inclusion of stabilized potassium iodide in the premix contributes to an increase in average daily gain in live weight by 4.8% compared with the control group.

Claims (1)

 A method for preparing a premix involving mixing salts of trace elements with a filler, characterized in that copper-carboxymethyl cellulose obtained by mixing a 20% solution of copper sulfate and a 20% solution of sodium carboxymethyl cellulose in a ratio of 1: 4 of a precipitate is used as trace element salts , followed by washing, drying and grinding, and potassium iodide mixed with bran in a ratio of 1:10, and this mixture is granulated, coated with a coating of 5% sodium carboxylic acid solution methylcellulose and dried.

Images