SU1759863A1 - Biologically active compound for toilet room hygiene and air refreshing - Google Patents

Description

hard water and cause sediment deposits. In addition, the method of making briquettes is rather laborious and consists of two technological stages.

Closest to the invention is a means for disinfecting and deodorizing toilet facilities and refreshing air, containing urea-formaldehyde resin, surfactants, complexing agents, disinfectants and fragrances, and dyes as a solid carrier. The urea-formaldehyde resin is obtained by condensation of urea and formaldehyde at a molar ratio of 1: (0.05-3) in the presence of polycondensation catalysts in an amount of 1-25 wt.%. Phosphoric, oxalic acids, ammonium chloride are used as catalysts. Formaldehyde is used in the form of formalin (30%, 37% aqueous solutions), paraform. Surfactants in the amount of 2-8 wt.% Are introduced in order to impart cleansing properties to the composition. Alkyl sulfates, alkyl and benzyl sulfonates, addition products of ethylene oxide, propylene to high molecular weight alcohols and phenols, amine salts are used as surfactants. Complexing agents in the amount of 0.5% by weight are used to prevent the formation of sludge in hard water. Phosphates, polyphosphates, nitriloacetic, ethylenediamine tetraacetic, aminotrimethylphosphoric acids or their salts are used as complexing agents. Chlorophenols, chlorobenzenes, salicylic acid anilides, diphenylmethane, chloramine T, peroxides are used as disinfectants in an amount of up to 5% by weight. As fragrances (8–20 mas.%), Natural or synthetic perfume oils. Organic colorants or colored inorganic salts are used as dyes in amounts up to 0.5% by weight.

The advantage of the known composition is simple technology of its preparation. Urea, formaldehyde, catalyst and complexing agent are heated to melt, then surfactants, disinfectants and fragrances, and dye are added at 100 ° C. The mixture is thoroughly mixed and poured into molds. After solidification of the composition, briquettes are prepared, ready for use. However, the described tool has significant drawbacks. It is complex in composition. The disinfectants used are toxic (for example, chlorobenzenes have MPC5mg / m chlorophenols - 0.05 mg./m15), are hazardous to handle (peroxides) and are corrosively active (metal peroxides, chloramine T).

Chlorine-containing bactericides have a sharp, unpleasant smell, as a result of which it is necessary to administer large doses of fragrances. The use of natural and synthetic perfume oils as fragrances significantly increases the cost of the finished product.

The purpose of the invention is to simplify and reduce the cost of the composition, reducing its toxicity.

The goal is achieved with a biologically active composition for the hygiene of toilet rooms and for refreshing air containing urea-formaldehyde resin, ammonium chloride, complexing agent, surfactant, disinfectant, perfume, dye, and water, where the heat treatment product 0 is used as a complexing agent and surfactant 0 at 95 -105 ° С terpenomaolein resin with sodium or potassium hydroxides, mono- or tri-ethanolamines, and as a disinfectant and perfume fragrance is an intermediate saponification product fractions of 5, formed during the distillation of valteryl acetate, with the following ratios of components, May:

Urea20-25

Paraform4-8

Ammonium chloride 3-4

The product of heat treatment of terpenomalein resin1-3 The product of saponification 5 waste1.5-3.0

Dye 0.03-0.05

Water 0.5-1.0

The proposed composition is different

0 from the prototype by the fact that the properties of surfactants and complexing agent combine the product of heat treatment of terpenomalein resin (TMS), and the properties of the disinfectant and perfume combine the product

5 Saponification of the intermediate fraction of production of valyl acetate (turilacetate; synonym), which is a waste product. Use of the TMS heat treatment product as surfactant and

0 complexing agent in the scientific and patent literature is not described. TMS is used in the rubber industry. The use of the intermediate fraction formed during the distillation of technical valteryl acetate as a bactericide and odorant is also unknown. It is a waste product and is currently destroyed by incineration. Based on the foregoing, the proposed composition

meets the criterion of novelty.

TMS heat treatment product was first used as surfactant and complexing agent. Its use eliminates the use of ionic and non-ionic detergents, expensive organic or phosphate inorganic complexing agents, and simplifies the formulation of the composition. The product of saponification of the intermediate fraction of the rectification of the technical shaft of reel acetate (waste) is used for the first time as a bactericide and fragrance. Its use allows to simplify the composition of the product, reduce its toxicity by replacing toxic antiseptics, and reduce its cost due to exclusion from the formulation of natural or synthetic perfume oils. This allows us to conclude that the proposed composition complies with the criterion of significant differences.

The heat treatment of the terpene-maleic resin is carried out as follows. 80 g (2 mol) of sodium hydroxide or 126 g (2 mol) of potassium hydroxide in 50 ml of water are added to 236 g (1 mol) of the resin. 122 g (2 mol) monoethanolamine, 300 g (2 mol) triethanolamine, or a mixture thereof. With stirring, the resulting mixture is heated at 95-110 ° C for 1.5 hours. At the end of the reaction, the hot product is poured into a storage tank, cooled to room temperature and used for its intended purpose.

The heat treatment product at 105–110 ° C of a terpenomaleic resin with sodium or potassium hydroxide is a plastic sticky mass from yellow to light brown in color with a weak rosin smell, density 1.11–1.14 g / cm3, soluble in polar organic solvents and in water.

The product of heat treatment at 120-140 ° C with a monoethanolamine terpenomaleic resin is a fragile vitreous substance from yellow to light brown in color with a weak rosin smell, a density of 1.15 g / cm3, softening temperature 50 ° C, soluble in polar organic solvents (alcohol, acetone and others) and mixed with water in any ratio.

The product of heat treatment at 120-140 ° С of terpenomaleic resin with triethanolamine is a plastic, yellow to light brown mass with a weak rosin smell, density of 1.17 g / cm3, softening temperature 35.6 ° С soluble in polar organic solvents (alcohol, acetone and others) and mixed with water in any ratio,

The intermediate fraction formed during the distillation of technical valyl acetate is a slightly viscous liquid of yellow color with a pore of 1.4898 and a boiling range of 70-100 ° C with a residual pressure of 30-40 mm Hg. It has the following composition,%: 3-pan 18; dipentene 5; p- and m-cymols 5; 10-methylene-3,3-dimethyl-8-oxatricyclo- (4,3,1,024) decane 50; 4-acetoxymethyl-2-caren 15; 6-acetoxymethyl-2,8-p-mentadiene 5. Its saponification is carried out as follows. A mixture of 100 ml of waste and 50 ml of a 40% aqueous solution of sodium hydroxide is stirred at 100 ° C for 3 hours. At the end of the reaction, the product is cooled to room temperature, the organic part is separated, poured into containers and used for its intended purpose. According to GLC analysis, its composition is as follows,%: 3-Karen 18; dipentane 4; p- and m-cymols 6; 10-methylene-3,3-dimethyl-8-oxatricyclo (4,3,1,) decane 51; 4-hydroxymethyl-2-caren 14; 6-hydroxymethyl-2,8-p-mentadiene 5. The saponification product has a persistent coniferous-floral scent, such as a boiling point. 60-105 ° C / 10 mmHg, 20 1.4950 each, d420 0.9135.

The study of the antimicrobial properties of waste was conducted at the Minsk State Medical Institute on standard test microbes, in four replications. using the method of serial dilutions of the drug in a nutrient medium (broth). The test results showed (Table 1) that saponified waste possesses bacteriostatic and bactericidal activity against a number of pathogenic microorganisms at a concentration of 0.5–0.02 mas%. The acute toxicity of the drug was determined in white mice after intraperitoneal administration of various doses of the drug. To calculate the LDDO, the obtained data were processed statistically using the Litchfield-Wilcoxon method. Toxicity parameters were evaluated. It has been established that the median lethal dose (LdbO) of the drug is 3000 mg / kg, i.e. according to the parameters of acute toxicity, the drug belongs to moderately toxic (III hazard class, GOST 12.1007.76 Harmful substances).

Table 2 shows the composition of the samples of the proposed composition, table 3 and 4 show the test results. The study of the antimicrobial properties of the biologically active composition was carried out by the method of massive infection of a 0.01% aqueous solution of standard test microbes of Escherichia coli (E. coli), staphylococcus (St aureus) v, anthracoid (W. anthracoides)

Data on the content of viable microbes (COE) .1 ml of experimental and control samples are given in table 4. As follows from table 4, the solution of the composition for hygiene of toilets had pronounced antimicrobial properties. To a greater extent, this concerns Escherichia coli, the content of which decreases to 8.1 x 101 in 1 ml after 30 minutes, and after 5 and 24 hours microbial growth is not observed. Thus, the composition solution is an effective antimicrobial for treating toilet bowls to prevent intestinal infections.

A study of the toxicological properties of a biologically active composition for the hygiene of toilet rooms and for refreshing the air showed that after intragastric administration to white rats of a 40% aqueous solution of the composition at a dose of 15,000 mg / kg, there were no clinical signs of intoxication. During the 14-day observation of animals, no deadly effects were reported. Considering that the dose administered is as large as possible in volume, no other doses were tested. Thus, the proposed composition does not present the danger of acute poisoning upon intragastric intake in the body and is classified as a low toxic compound of Hazard Class IV according to GOST 12.1007.76. Harmful substances.

The technology for obtaining a composition for deodorization and hygiene of toilet facilities is as follows. A mixture of 20-25 wt.h. urea, 4-8 wt.h. paraform, 3-4 wt.h. ammonium chloride and 0.5-1 wt.h. the waters are heated to 120-125 ° C and vigorously stirred for 30-40 minutes. At the end of the reaction, the mixture is cooled to 95-100 ° C and 1 to 3 wt.h. product thermal processing TMS, 1.5-3 wt.h. the product of saponification of the intermediate fractionation of technical valteryl acetate and 0.03-0.05 wt.h. dye. The mixture is vigorously stirred for 10 minutes and poured hot into molds, where it solidifies.

Example 1.22 g of urea, 4 g para-form, 0.5 ml of water and 3 g of ammonium chloride are heated with stirring at 120-125 ° C for 30 minutes. The mixture is cooled to 100 ° C and 1 g of terpene-maleic resin modified with sodium hydroxide 1.5 g of saponified waste and 0.03 g of dye are added. The mixture is stirred for another 10 minutes and then poured into a mold, where it hardens. Received 32 g of the product in the form of a cylinder with a diameter of 4 cm and a height of 2.5 cm

The method of obtaining a composition with different content of components is similar. The formulation of the obtained compositions are given in table 3.

To study operational

the properties of the obtained composition were studied continuous reverse dissolution (change in weight) of the samples during storage in 7 liters of water, replaced 1 time in 1 day.

0 tests were those for the composition of the prototype. The test results are shown in table 3.

As can be seen from the data presented in Table 3, the operational properties of the proposed composition correspond to the operational properties of the composition of the prototype. Thus, the simplification of the composition by replacing and combining the surfactant and complexing agent, bactericide and fragrance in the preset ratios ensures complete preservation of the performance properties of the composition. Optimal for operational properties of the composition (1-3, 6-10) contains 5-10 wt.h. thermal product

5 processing TMS and 7-15 wt.h. saponified waste. The complete dissolution of the composition is observed only on the 9-10th day. With an increase in the content of the TMS heat treatment product in the medium (sample 4), an increase in the mass loss rate is observed. A decrease in the content of the thermal treatment product TMS (sample 5) leads to a slower dissolution of the composition due to the formation of insoluble calcium and magnesium salts on its surface. An increase in the content of the saponified waste in the composition (sample 11) accelerates the dissolution of the agent due to its loosening. The decrease in the content of waste (sample 12) leads to the disappearance of the deodorizing properties on the 6th day.

The resulting composition can be diluted with water at 90 ° C in a ratio of

5 composition: water, equal to 1: 3, and used in liquid form for removing contaminants, disinfecting and deodorizing the floor and walls in toilet and other rooms. The advantages of the proposed composition for hygiene and deodorization of toilet. premises are to simplify the formulation, reduce the cost and reduce the toxicity of the composition by replacing the deficient surfactants, complexing agents, toxic

5 bactericides and expensive fragrances available, cheap and non-toxic components. The use of saponified waste production of valteryl acetate as a bactericide and perfume allows to solve

the problem of its qualified use.

Claims (1)

DETAILED DESCRIPTION OF THE INVENTION Biologically active composition for hygiene of toilet rooms and air refreshment, containing urea, paraform, ammonium chloride, complexing agent, surfactant, disinfectant, perfume, dye, and water, are distinguished so that reduction of the composition and reduction of its toxicity, as a disinfectant and perfume, it contains the product of saponification of the 70-100 ° C fraction formed during the distillation of valteryl acetate, 0 five as a complexing agent and surfactant, the product of heat treatment at 95–105 ° C of a terpene-maleic resin with sodium or potassium hydroxides and mono- or tri-ethanolamines in the following ratio of components, parts by weight: Urea20-25 Paraform4-8 Ammonium chloride 3-4 Thermal treatment product of terpene-maleic resin1-3 Product of saponification of fraction 70-100 ° С 1.5-3 Dye 0.03-0.05 Water 0.5-1 Antimicrobial activity of the product of washing waste production of valteryl acetate  The product of heat treatment with sodium hydroxide, The product of heat treatment with potassium hydroxide. The product of heat treatment with monoethanolamine. The product of heat treatment with trizantamine. Table 1 20 table 2 Reducing the mass of samples of disinfectant and deodorizing composition during storage of 7 liters of water, replaceable daily 1 time Antimicrobial activity of a 0.01% aqueous solution of disinfection and deodorization of toilet facilities Table 4