RU2217169C2 - Disinfecting agent - Google Patents

Abstract

FIELD: food industry. SUBSTANCE: disinfecting agent shows the following composite, wt. -%: clathrate of didecyldimethylammonium bromide with urea, 1,0-30.0; nonionogenic surface-active substance, 0.05-0.5; sodium sulfate. 18.0-38.0; potassium hydrogen pyrophosphate, 0.01-0.15; potassium carbonate, 0.01-0.10; Trilon B, 0.5-8.0; sodium carbonate, the balance. Agent comprises phosphoric acid dialkylpolyethylene glycol esters potassium salt, or C₁₀-C₁₆-aliphatic acids oxyethylated monoethanolamides, or C₁₀-C₁₈-fatty acid polyglycol esters as nonionogenic surface-active substance. This provides high disinfecting activity of agent and it retains this activity at prolonged storage in opened container. Agent is used for disinfection of inventory, equipment and compartments. EFFECT: enhanced effectiveness of agent. 2 cl, 7 ex

Description

 The invention relates to disinfectants and may find application in the food industry, biotechnology in the disinfection of equipment, inventory and industrial premises.

 Known disinfectant, which is a clathrate of didecyldimethylammonium bromide (30-35%) with urea (65-70%) (TU MU-36-113) / 1 /.

 However, this known agent when used in the form of aqueous solutions has a weak wetting ability. The uneven contact of the product with the treated surface reduces its disinfecting ability.

 Known disinfectant, dubbed "Sepsustine" containing the active substance, non-inogenic surfactant and inorganic salt (TU 9392-002-31404040-00) / 2 / - prototype.

 As an active principle, this known disinfectant contains benzalkonium chloride.

 However, after opening the container with this known disinfectant, a whitish insoluble coating forms on its surface, contaminating the product and interfering with the preparation of high-quality working solutions from it.

 An attempt to replace benzalkonium chloride in this product with another known active principle - didecyldimethylammonium bromide clathrate with urea - led to the fact that the composition exfoliated during storage.

 The technical result achieved by the present invention is the preparation of a highly effective dry disinfectant, convenient to use, long-term preserving bactericidal activity and presentation after opening the container with it.

The indicated technical result is achieved in that the disinfectant containing the active substance, nonionic surfactant and inorganic salt has the distinctive feature that it contains didecyldimethylammonium bromide clathrate with urea as the active substance, and a mixture of sodium sulfate as inorganic salt, sodium carbonate, potassium pyrophosphate (TU 6-09-4689-78) and potassium carbonate and additionally contains Trilon B in the following ratio, wt.%:
urea didecyldimethylammonium clathrate - 1.0-30.0
non-inogenous surfactant - 0.05-0.5
sodium sulfate - 18.0-38.0
potassium pyrophosphate acid - 0.01-0.15
potassium carbonate - 0.01-0.10
Trilon B - 0.5-8.0
sodium carbonate - the rest
As a nonionic surfactant, the disinfectant contains the potassium salt of dialkylpolyethylene glycol esters of phosphoric acid, or the ethoxylated monoethanolamides of aliphatic acids C ₁₀ -C ₁₆ , or the polyglycol esters of C ₁₀ -C ₁₈ fatty acids.

 The following are examples illustrating the invention.

Example 1. Prepared a disinfectant of the following composition, wt. %:
urea didecyldimethylammonium clathrate - 1.0
potassium salt of dialkylpolyethylene glycol ethers - 0.05-0.5
sodium sulfate - 18.0
potassium pyrophosphate acid - 0.01
potassium carbonate - 0.01
Trilon B - 0.5
sodium carbonate - the rest
Example 2. Prepared a disinfectant of the following composition, wt. %:
urea didecyldimethylammonium clathrate - 1.0
hydroxyethylated monoethanolamides of aliphatic acids C ₁₀ -C ₁₆ - 0.05
sodium sulfate - 18.0
potassium pyrophosphate acid - 0.01
potassium carbonate - 0.01
Trilon B - 0.5
sodium carbonate - the rest
Example 3. Prepared a disinfectant of the following composition, wt. %:
urea didecyldimethylammonium clathrate - 1.0
polyglycol esters of fatty acids C ₁₀ -C ₁₈ - 0.05
sodium sulfate - 18.0
potassium pyrophosphate acid - 0.01
potassium carbonate - 0.01
Trilon B - 0.5
sodium carbonate - the rest
Example 4. Prepared a disinfectant of the following composition, wt. %:
urea didecyldimethylammonium clathrate - 30.0
potassium salt of dialkylpolyethylene glycol esters of phosphoric acid - 0.5
sodium sulfate - 38.0
potassium pyrophosphate acid - 0.15
potassium carbonate - 0.10
Trilon B - 8.0
sodium carbonate - the rest
Example 5. Prepared samples of the disinfectant from the same components that were used in examples 1-4, they were used in amounts higher or lower than stated.

 Example 5. Conducted a test of the disinfectant activity of the drugs obtained but examples 1-4. The test was subjected to aqueous solutions of drugs. After surface treatment with the obtained aqueous solutions, their easy and quick washability with water was observed. In the washings from the treated surfaces, the seeding microflora was not detected when they were sown on nutrient media, which testified to the high efficiency of all prepared preparations. When testing the compositions obtained according to example 5, in some cases, uneven wetting of the treated surface was observed, which hindered the subsequent washing off of the compositions. In other cases, the wettability was sufficient, but live cells of seed-growing microflora were found in the washings from the treated surface, which indicated a low disinfecting activity of those samples that were prepared beyond the declared limits of the content of the components.

 Example 6. Suspension of cultures of Esherichia coli, Stafilococcus aureus, Salmonella oospora lactis, Pseudomonas aeruginosa was prepared and samples of the compositions prepared according to examples 1-4 were added to them. After thorough mixing and 30 min exposure, the treated cultures were inoculated onto agarized culture media. After 12-48 h of incubation on agarized media, no growth of the cultures sown on them was observed, which testified to the high efficiency of the new disinfectant.

 Example 7. A container with samples of a disinfectant prepared in accordance with examples 1-4 was opened and stored in an open state for 15 months (observation period). After every 3 months of storage, samples were taken and their disinfectant activity was checked. Observations showed that for 15 months the samples of the disinfectant stored in the opened container did not reduce their disinfectant activity and retained their original presentation.

 Thus, the disinfectant according to the invention has a high activity and is stored for a long time in an opened container.

Claims (2)

1. A disinfectant containing an active substance, a nonionic surfactant and an inorganic salt, characterized in that it contains didecyldimethylammonium bromide clathrate with urea as an active substance, a mixture of sodium sulfate, sodium carbonate, potassium pyrophosphate and potassium carbonate and additionally contains Trilon B in the following ratio of components, wt.%: Urea Didecyldimethylammonium Clathrate 1.0-30.0 Nonionic surfactant 0.05-0.5 Sodium sulfate 18.0-38.0 Potassium pyrophosphate acid 0.01-0.15 Potassium carbonate 0.01-0.10 Trilon B 0.5-8.0 Sodium carbonate Else 2. The disinfectant according to claim 1, characterized in that as a nonionic surfactant it contains a potassium salt of dialkylpolyethylene glycol esters of phosphoric acid, or ethoxylated monoethanolamides of aliphatic acids C ₁₀ -C _16, or polyglycol ethers of C ₁₀ -C ₁₈ fatty acids .