A bactericidal agent

 

(57) Abstract:

The invention relates to agriculture and veterinary medicine. A bactericidal agent contains the active substance is iodine and the filler further comprises potassium nitrate, and as a filler - carbohydrates in the following ratio, wt. %: iodine - 35-42, potassium nitrate - 38-42, carbohydrates else. As carbohydrate is a bactericidal agent contains starch or sucrose or glucose or ribose, or fructose. The composition of microbicides provides increased efficiency, increased shelf-life of the target product and the reduction of its fire. 1 C.p. f-crystals.

The invention relates to agriculture, in particular animal, and can be used for disinfection of objects veterinary supervision.

Known antibacterial agent containing the active substance is iodine and the filler (Krinichki A. D., Litvinenko centuries Aerosol iodine aluminum with infectious diseases of birds. Veterinary medicine, 1969, N 3, p 41). B as filler known means contains aluminum (dust). The mass ratio of iodine and filler 10:1.

However, the known composition is not effective enough, the minute air cause increased demands on storage conditions.

The aim of the invention is to increase efficiency, increase shelf-life of the target product and the reduction of fire.

This goal is achieved in a bactericidal agent that contains the active substance is iodine and the filler, which further contains potassium nitrate, and as a filler - carbohydrates, in the following ratio, wt.%:

Iodine - 35-42

Nitrate potassium - 38-42

Carbohydrates - Rest

The objective is also achieved in bactericidal means that as carbohydrates contains starch, or sucrose, or glucose or ribose, or fructose.

B patent and technical literature is unknown technical solutions similar to declare that allows to make a conclusion about the compliance of the offer with the condition of patentability - novelty."

Only the combination of the stated components in specific amounts to achieve the effect specified in the objectives of the invention, i.e., declared the drug satisfies the condition of patentability - "inventive step", in particular, adding it is potassium nitrate, and the filler is starch, or sucrose, or glucose or ribose, and the maternal protection of microorganisms.

The composition used for disinfecting livestock facilities, so it matches the condition of patentability - "industrial applicability".

The invention is illustrated in the following examples.

Example 1. Mix 35 g of crystalline iodine, 38 g of potassium nitrate and 27 g of sucrose, receiving structure 1 in the following ratio, wt.%:

Iodine - 35

Nitrate potassium - 38

Carbohydrates - Rest

Example 2. Mixed with 42 g of crystalline iodine, 42 g of potassium nitrate and 16 g of sucrose, receiving part 2 in the following ratio, wt.%;

Iodine - 42

Nitrate potassium - 42

Carbohydrates - Rest

Example 3. Mix 40 g of crystalline iodine, 40 g of potassium nitrate and 20 g of sucrose, receiving part 3 in the following ratio, wt.%:

Iodine - 40

Nitrate potassium - 40

Carbohydrates - Rest

Example 4. Mix 35 g of crystalline iodine, 38 g of potassium nitrate and 27 g of glucose, receiving part 4 in the following ratio, wt. %:

Iodine - 35

Nitrate potassium - 38

Carbohydrates - Rest

Example 5. Mixed with 42 g of crystalline iodine, 42 g of potassium nitrate and 16 g of glucose, receiving SOS - Rest.

Example 6. Mix 40 g of crystalline iodine, 40 g of potassium nitrate and 20 g of glucose, receiving part 6 in the following ratio, wt. %:

Iodine - 40

Nitrate potassium - 40

Carbohydrates - Rest

Example 7. Mix 35 g of crystalline iodine, 38 g of potassium nitrate and 27 g of ribose, receiving part 7 at the following ratio, wt. %:

Iodine - 35,0

Nitrate potassium - 38,0

Carbohydrates - Rest

Example 8. Mixed with 42 g of crystalline iodine, 42 g of potassium nitrate and 16 g of ribose, receiving part 8 in the following ratio, wt. %:

Iodine - 42

Nitrate potassium - 42

Carbohydrates - Rest

Example 9. Mix 40 g of crystalline iodine, 40 g of potassium nitrate and 20 g of ribose, the receiving part 9 in the following ratio, wt. %:

Iodine - 40,0

Nitrate potassium - 40,0

Carbohydrates - Rest

Example 10. Mix 35 g of crystalline iodine, 38 g of potassium nitrate and 27 g of fructose, receiving part 10 in the following ratio, wt.%:

Iodine - 35

Nitrate potassium - 38

Carbohydrates - Rest

Example 11. Mixed with 42 g of crystalline iodine, 42 g of potassium nitrate and 16 g of fructose, getting ostalnoe

Example 12. Mix 40 g of crystalline iodine, 40 g of potassium nitrate and 20 g of fructose, receiving part 12 in the following ratio, wt.%:

Iodine - 40,0

Nitrate potassium - 40,0

Carbohydrates - Rest

Example 13. Mix 35 g of crystalline iodine, 38 g of potassium nitrate and 27 g of starch, receiving part 13 in the following ratio, wt.%:

Iodine - 35

Nitrate potassium - 38

Carbohydrates - Rest

Example 14. Mixed with 42 g of crystalline iodine, 42 g of potassium nitrate and 16 g of starch, receiving part 14 in the following ratio, wt.%:

Iodine - 42

Nitrate potassium - 42

Carbohydrates - Rest

Example 15. Mix 40 g of crystalline iodine, 40 g of potassium nitrate and 20 g of starch, receiving part 15 in the following ratio, wt.%:

Iodine - 40

Nitrate potassium - 40

Carbohydrates - The Rest.

Example 16. Check the bactericidal activity of the claimed composition was carried out by standard methods.

Test compounds 1 - 15, obtained according to examples 1 to 15, were performed on test objects (wood, metal, rubber and ceramic plates 10 x 10 cm2), which has infected the standard of the (representative of gram-negative flora) based two-billion-suspended in 1 ml of 100 cm2. The surface of the test object was dried for two hours followed by application of a protein protection - bovine serum. The test objects were placed in sealed getCamera of 30 m3at three different levels: 50 cm from the ceiling getCamera, 1.5 m from the floor and on the floor of the claimed compositions were made in the camera at the rate of 100 mg/1 m3and lit it with a match. During combustion of the proposed funds allocated dense purple cloud, stable for 7-10 minutes. Bactericidal activity of compounds 1 - 15 was determined by the delay of the growth zones of the reference cultures in comparison with known composition. It is established that the compounds 1-15 compared with the known composition delay the growth of microbial cultures 30-40% more than the well-known composition. In addition, the claimed composition can be used in any conditions, while increasing the humidity of more than 20% of known composition explodes, when this does not occur disinfection test objects.

Example 17. Hatcheries poultry factory conducted disinfection of the claimed composition in comparison with the known means ("iodine and aluminium). At different remote locations put the test objects that have previously infektsii. The test objects were placed at three different levels: 50 cm from the ceiling hatchery, 1.5 m from the floor and on the floor. The claimed compositions were made in the hatchery, was placed on the floor at the rate of 100 mg/1 m3and lit it with a match. During combustion of the proposed funds allocated dense purple cloud, sustainable for 8-12 minutes. Bactericidal activity of compounds 1 - 15 was determined by the delay of the growth zones of the reference cultures in comparison with known composition. It is established that the compounds 1 - 15 compared with the known composition delay the growth of microbial cultures on 99-96%. Known composition to apply for disinfection of hatcheries failed, because the humidity of the hatchery was 89-92%, which was caused by spontaneous ignition of a known drug without disinfecting effect. In addition, using known means unacceptable when used for disinfecting livestock facilities containing wood and other flammable items.

Thus, the claimed bactericidal agent can improve the efficiency of disinfection of objects veterinary supervision by 30-40%, reduce the fire and, in addition, to increase the shelf life of the target product up to 2 years (known what ASEE active agent iodine and a filler, characterized in that it further contains potassium nitrate, and as a filler - carbohydrates in the following ratio, wt.%:

Iodine - 35 - 42

Nitrate potassium - 38 - 42

Carbohydrates - Rest

2. A bactericidal agent under item 1, characterized in that the quality of carbohydrates contains starch, or sucrose, or glucose or ribose, or fructose.

 

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