HU190866B - Process for producing concentratum increasing the weight output and containing agent of 1-25 mass pct. and/or animal food containing agent of 0,001-0,075 mass pct. - Google Patents

Abstract

A fodder concentrate having weight-gain increasing effect comprises 2-formyl-quinoxaline-1, 4-dioxide carbomethoxyhydrazone (carbadox) and propylene glycol which is bound to a solid carrier consisting of magnesium oxide, magnesium carbonate, magnesium peroxide and/or silica and containing 25 to 75 percent by weight of propylene glycol, calculated on the total amount of carrier and propylene glycol. Due to the presence of the solid carrier comprising propylene glycol the explosion risk connected with the treatment of carbadox is completely eliminated.

Description

The invention relates to 3-methyl- (2-quinoxalinyl-methylene) carbazate-N ', ^J relates to an improved method for enhancing weight gain dioxide-containing animal feed preparation. More particularly, the present invention relates to an improved process for the preparation of a weight gain concentrate containing from 1 to 25% by weight of active ingredient and / or animal feed containing from 0.001 to 0.0075% by weight of active ingredient containing 3-methyl- (2-quinoxalin-1-methylene) carbazate , N ⁴ -dioxide (carbadox) as well as mixing propylene glycol with the usual components of animal feeds and, if desired, diluting the resulting concentrate with further feed components.

Much of the known process for the preparation of carbadox yields fragile needle crystals of 1 to 200 microns in length (e.g., Belgian Patent Nos. 669,353 and 3,493,572). Dust explosions may occur during the preparation of the concentrate during the treatment of carbadox, a crystalline structure with a high degree of fragmentation and highly dusting. To overcome this, U.S. Patent No. 833,441. According to Belgian Patent Application, 2-8% by weight of the premix components are mixed in two portions with the addition of a non-toxic oil, preferably soybean oil, corn oil or mineral oil. However, the oil thus added to the concentrate tends to rancid and consequently the concentrate can only be stored for a relatively short period of time without impairing the enjoyment value of the final feed. In addition, the difficulty in mixing the components is that the oil employed does not dissolve and barely wet the active ingredient.

No. 854,945. According to Belgian patent application, carbadox crystals having a moisture content of 15-40%, essentially amorphous, having a size of 30100 µm are used for the preparation of the concentrate. according to the procedure described in the Belgian patent. Thus, a combination of 15-40% water content, non-toxic oil and medium crystal size are used to eliminate the risk of explosion when mixed. However, the use of the water-containing active ingredient is disadvantageous: it promotes the rusting of the oil present and favors germ development.

No. 178,838. Hungarian Patent Application No. 171,738; An amorphous carbadox of 10-60 µm, separated from an aqueous medium, obtained by the process of Hungarian Patent No. 4,600,015 is mixed with the other ingredients of the concentrate in the presence of propylene glycol. In this way, the spark sensitivity of carbadox can be significantly reduced. However, it is a disadvantage that relatively small amounts of liquid propylene glycol have to be mixed with large amounts of solids. The economically operable mixing devices equipped with a nozzle for this purpose practically do not produce a homogeneous mixture, and in some cases a sticky, oily, plastic, lumpy product is formed. In addition, propylene glycol is highly absorbent and may consequently increase the moisture content of the concentrate, which promotes germ development.

It has been found that it is extremely easy and economical to prepare a carbadox-containing concentrate and simultaneously reduce the propensity to carbadox to dust explosion by first mixing the liquid propylene glycol (1-3): (3-1) with a solid support, wherein the solid carrier is magnesium oxide. magnesium carbonate, magnesium peroxide and / or silicon oxide are used, and 1-15% by weight of the resulting powder mixture is homogenized with the other ingredients of the concentrate.

Propylene glycol on a solid support is prepared by mixing 1 to 3 parts by weight of magnesium oxide and / or magnesium peroxide and / or magnesium carbonate and / or silica with 3 parts by weight of propylene glycol, preferably by spraying. The solid support will generally have a particle size such that 80% will have an average particle size of less than 10 µm, preferably 1-5 µm. The high propylene glycol material thus obtained acts as a solid during mixing and does not liquefy even if it is exposed to air having a relative humidity of 75% for extended periods of time, such as 30 days. This high propylene glycol-containing material is powdery, easy to handle, homogeneous, and easily and uniformly homogenized with other solids.

In accordance with the present invention, the carbadox-containing concentrate is prepared by admixing carbadox with the usual components of animal feeds in the presence of a propylene glycol-containing solid carrier. The propylene glycol-containing solid support is present in an amount of from 1 to 15%, preferably from 2 to 8%, by weight of the concentrate.

In a preferred embodiment of the process of the invention, carbadox is added to the concentrate components last, preferably in several portions. Alternatively, the other components may first be mixed with a portion of the propylene glycol-containing solid support, then a portion of the carbadox, again with a portion of the propylene glycol-containing solid support, additional portions of carbadox, and so forth.

The amount of the usual components of animal feeds is usually 50-98% by weight of the concentrate. These components include excipients. for example, alfalfa meal, wheat feed meal, wheat bran, de-oiled rice bran, corn meal, soybean meal, wheat starch, corn starch, kaolin, calcium carbonate, and the like. and additives such as antioxidants, preservatives, trace elements, vitamins and salts such as sodium chloride, magnesium chloride, magnesium sulfate, iron salts, and the like.

The concentrate has an active ingredient content of from 1 to 25% by weight, preferably from 5 to 10% by weight.

If desired, the concentrate containing 1-25% w / w of active ingredient can be diluted into animal feed containing 0.001-0.0075% w / w of the active ingredient. This is done in a manner known per se, using the usual components of animal feeds, preferably the ingredients listed above. If desired, additional propylene glycol-containing solid support may be added at this dilution, but is usually not required.

The process according to the invention is simple to carry out,

-2190.866 requires only one device for mixing solid particles and provides a homogeneous concentrator turret with relatively short mixing time. The resulting concentrate is non-absorbent and can therefore be stored for long periods without damage.

Suitably, the process of the present invention further reduces the risk of explosion associated with the treatment of carbadox, even compared to the known process using liquid propylene glycol. This was tested by determining spark sensitivity according to Hungarian Standard 16040. In this way, a minimum energy value is obtained which is still capable of producing spark discharges that result in inflammation and thus exhibits the risk of fire and explosion from electrostatic charge.

While the floating carbadox powder has a minimum ignition energy of 5 mJ and a liquid propylene glycol concentrate, otherwise prepared in accordance with Example 1, has a minimum ignition energy of 500 mJ. It can thus be seen that the use of a solid support containing propylene glycol can increase the spark sensitivity by approximately one and a half times that of 178,838. Hungarian patent specification.

The invention is illustrated by the following examples.

Application of propylene glycol to a solid support

In a Lödige vortex mixer (equipped with a propeller and plow), 40 sr of magnesium carbonate having an average particle size of 12 [mu] m, 80% of which is between 0.5 and 5 [mu] m, 10 g of finely divided silica are added and homogenized for 10 minutes. . Subsequently, 50 liters of propylene glycol were added evenly, and homogenization was continued by operating the propeller and plow for an additional 1 hour. The material thus obtained contains 50% by weight of propylene glycol, 40% by weight of magnesium carbonate and 10% by weight of silica.

In a similar manner, propylene glycol-containing materials were prepared as follows:

s% propylene glycol -1- 40% magnesium oxide 70% propylene glycol + 30% magnesium carbonate 52% propylene glycol 4- 48% magnesium peroxide 75% propylene glycol + 25% silicon dioxide 50% propylene glycol + 50% magnesium carbonate 25% propylene glycol + 60% magnesium carbonate + 15% silica

Example 1

Into a 1000 L mixing machine (LIVING MACHINE), 420 kg of lucerne meal, 182 kg of wheat starch, 28 kg of the above mixture containing 50% propylene glycol, 40% magnesium carbonate and 10% silicon dioxide were added while the machine was running, and finally 70 kg carbadox. The device is run for an additional 8 minutes after the addition is complete.

This gives 700 kg of concentrate uranium containing 10% by weight of carbadox.

The concentrate prepared in Example 1 is well preserved and is not affected by the humidity of the air.

Comparative example

Example 1 was obtained except that 28 kg propylene glycol was added instead of 28 kg propylene glycol, magnesium carbonate and silica. The resulting concentrate is slightly sticky, and due to the humidity of the air, its moisture content increases and liquefies easily.

Example 2

480 kg of extracted sunflower cake flour, 480 kg of corn flakes, 30 kg of a mixture containing 60% of propylene glycol and 40% of magnesium oxide and 10 kg of carbadox are homogenized. 1000 kg of concentrate containing 1% by weight of carbadox are obtained.

Example 3

A mixture of 300 kg of dried beet pulp flour, 100 kg of clover flour, 40 kg, 50% by weight of propylene glycol and 50% by weight of magnesium carbonate and 60 kg of carbadox was homogenized as described in Example 1. 500 kg of concentrated urn containing 12% by weight of carbadox are obtained.

Example 4

280 kg of barley flour, 140 kg of potato starch, 50 kg, 70% by weight of propylene glycol and 30% by weight of magnesium carbonate and 80 kg of carbadox are added to the mixing machine of Example 1 while the machine is running. After running the apparatus for an additional 10 minutes, 55 kg of a mixture containing 70% by weight of propylene glycol and 30% by weight of magnesium carbonate and 95 kg of carbadox are added again. The device is allowed to run for another 12 minutes. 700 kg of concentrated urn containing 25% carbadox are obtained.

Example 5

In the manner described in Example 1, 350 kg of oat flour, 250 kg of oil-free corn starch, 30 kg of a mixture containing 52% by weight of propylene glycol and 48% by weight of magnesium umperoxide and 70 kg of carbadox are mixed. 700 kg of concentrated urn containing 10% by weight of carbadox are obtained.

Example 6

An amount of 10 g of the concentrate prepared in Example 1 is mixed with the following components: 19.9 kg corn, 5 kg wheat, 18 kg barley, 5 kg oats, 2 kg bran, 16 kg extracted soy, 4 kg fishmeal, 20 kg milk powder, 6 kg of fat powder and 4 kg of a mixture containing minerals, vitamins and trace elements to give 100 kg of feed with a 0.001% carbadoxt.

Example 7

The concentrate prepared in Example 1 was 75 g 3

190,866 is added to the following components: 37.825 kg corn, 6 kg wheat, 25 kg barley, 5 kg oats, 2.4 kg bran, 13 kg extracted soy, 6 kg fishmeal, 1.5 kg fat powder, 1 kg feed lime, 0 , 5 kg of feed salt and 1.7 kg of a mixture containing minerals, vitamins and trace elements. This gives 100 kg of feed with a carbadoxt content of 0.0075%.

Claims (3)

Claims A process for the preparation of a weight gain concentrate containing from 1 to 25% by weight of active ingredient and / or from 0.001 to 0.075% by weight of animal feed containing as active ingredient 3-methyl- (2-quinoxalinylmethylene) carbazate-N ', N ^4- dioxide, mixing additional propylene glycol and the usual components of animal feeds and, if desired, diluting the resulting concentrate with further feed components, characterized in that: The liquid propylene glycol (1-3): (3-1) is premixed with a solid carrier, wherein the solid carrier is magnesium oxide, magnesium carbonate, magnesium peroxide and / or silica, and the resulting powdery mixture is 1-15% by weight of 1θ concentrate is homogenized with the other ingredients of the concentrate. 2. A process according to claim 1, wherein the solid support is magnesium carbonate. 3. A process according to claim 1, wherein the solid support is a mixture of magnesium carbonate and silica.