SU1087128A1 - Antimoth agent - Google Patents

Abstract

1. ANTI-SHOCK MEDIA based on 0,0-dimethyl-0 -2,2-d-sphorylphenyl) phosphate, containing the filler - polyvinyl chloride and plasticizer, characterized in that, in order to reduce toxicity for humans and warm-blooded, it additionally contains carrolactam, citral , epoxy-diai resin and polyvinyl alcohol, and as Sh1a; the styler - dibutyl phthalate with the following ratio of ingredients, may.%: 0,0-dimethyl-0-

Description

f The invention relates to fumigating agents predisposing for the control of moths in closed storage of clothing. Known asymmetry agent and osowe 0,0-dimesh1-0 (2,2-di-ghlorvin sh) phosphate containing filler and solvent CU Known anti-molar agent based on 0,0-dimethyl-0- (2,2-dichlorovinyl) phosphate, containing a polyvinyl chloride filler and a plasticizer, in which dioctyl phthalate and dimethyl succinate C2 are used. However, the 1 in 1E means is toxic for warm-blooded and human. Concentration vapor vapors 0,0-dimethyl-o (2,2-dischoriiil) phosphate (DCVF). in a room of 40 m, in which the pompets two cabinets with a capacity of 1 m, with three tablets of the product, are held. at the level of 0, 08 mg / m for six MecHttea from the moment of laying the entrance plates in the cabinets. According to the norms of concentration, the vapor JVP in the air should not exceed 0.003 mg / m. The purpose of the invention is to reduce the toxicity of the agent for humans and warm-blooded animals. The goal is achieved by the fact that the agent additionally contains caprolactam, ditral, epoxy-diode resin and polyvinyl alcohol, and dibutyl phthalate as a plasticizer in the following ratio, wt4%: O, o-dimethyl-0- (2,2-dichlorovinyl) phosphate 3 „0-5.0 Caprolactam 0.3-0.9 Citral0.3-0.6 Epoxy-Dianova resin0.3-0.5 Polyvinyl alcohol 0.5-3.0 Dibutyl phthalate 5.0-9.0 Polyvinyl chloride The rest of the Tool may optionally contain a pigment in the amount of 0,030, 07 wt.%. Example. Prepared means. a known composition with a DCVF content of 18% and 4, as well as a composition with each of the new ingredients proposed, a composition of the proposed agent with an optimal, minimum and maximum content of ingredients, but without pigment, as well as with the content of ingredients, which go beyond the stated limits, and the same means, but including a pigment. 82 To this end, powdered ingredients are introduced in a predetermined proportion into a glass reactor with a capacity of 500 cm, equipped with a mechanical stirrer and an addition funnel. Simultaneously in. a glass flask equipped with a stirrer was used to prepare a solution of liquid ingredients, also taken in predetermined proportions. After stirring for 30 minutes, the solution of the liquid components is transferred to a dropping funnel. The dry components are stirred in the reactor for 30 minutes (the rotation speed of the stirrer is 60 rpm), then a mixture of liquid ingredients is introduced into the reactor at a rate I. After the last batch is added, the mass in the reactor is stirred for another 20–: 30 min, and then left to mature for 6 hours. The mixing processes of the ingredients and the aging of the mass are carried out at atmospheric pressure and room temperature. I prepare the mass after aging with a hydraulic press at a force of 150 kg / cm, the finished tablets (diameter 29 mm, weight 7 g are packed in a gas-tight pleica. Entomological testing of the product and at the same time sanitary-hygienic analysis are performed in a standard room of a residential type 40 m. In the room, three standard pay cabinets of capacitance Tb are installed - m each. Shafs are filled with wool fabric. Three tablets of the agent, previously removed from the package, are hung in a gauze bag. The third cabinet serves as a control. chemical analysis of air is carried out by gas chromatography over a period of 6 months with an interval of 1 month. The capture of DCVF vapors from the air is carried out in traps, with acetone, cooled with dry ice. The amount of air pumped through the traps (at a speed of 1 cm / min is 500 dm, the sensitivity of the method is 0, 002 mg / m. The entomological effectiveness of each of the COMPOSITES1 means is also evaluated for 6 months with an interval of 1 month. In all cases x the tool is not removed from the cabinet throughout the whole experiment.The experiment was carried out in accordance with the known method.The results of the sanitary-hygienic analysis of air and the assessment of the entomological effectiveness of the means are shown in the table. The antithmic agent (item 11 has a high insecticidal activity, but the concentration of DDVF vapors in the air in the room is 0.08-0.04 mg / m (even after 6 months it is more than an order of magnitude higher than the allowable rate) in the composition of the agent by 4.5 times (n, 2 practically does not affect either the content of DDVF vapors in the air of the room, nor the insect activity of He., these parameters are replaced by replacing two plasticizers with one PI, however, dibutyl phthalate mixtures of dioctylphthalic and neo dimethylsuccinate This is due to the fact that the new components introduced further are poorly matched by q this pair of plasticizers. The introduction of an epoxy resin and polyvinyl alcohol into the stabilizer / ShchV composition also does not affect the content of DDVF in the air and the insecticidal activity (step 4), however, the additive doesn’t become DDBF during processing and the polyvinyl alcohol increases the strength of the finished product. A sharp decrease (almost 10 times the concentration of DDVF vapors in air is observed after the introduction of caprolactam into the composition. The insecticidal effect remains at the same high level (p.5} .. Further significant (almost 3 times) decrease in concentration. Vapors DCVF in the air of the room is achieved by introducing citral into the composition (l.6, the optimal composition of the agent), while the insecticidal activity remains unchanged. The change in the content of the main ingredients of the agent within the limits noted in paragraphs 7 and 8 of the table, does not lead to changes in the concentration of DDVF vapors in the air and the insecticidal activity of the agent.Increasing the content of ingredients above this level simultaneously leads to a noticeable increase in the cocentration of DDVF vapors in the air and to increase Insecticidal activity (p.91. When reduced, I contain the ingredients below the rkomi; The given concentration level of DDVF vapors in the room air remains within the specified limits, however, the insecticidal activity of the agent is significantly reduced (paragraph 10). The results of air hygienic analysis and entomological tests of the compositions according to claims 3-10, but with the addition of pigment (according to claims 3-6, the pigment content is 0.05%, according to claims 7-0.07%, according to claims .8-0.03%, according to claim 9 -0.08%, according to claim H0, 02%) do not differ from the results obtained for formulations not containing pigment.

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Claims (1)

1. ANTIMOLIC MEANS based on 0,0 * -dimethyl-0-2,2-dichlorovinyl) phosphate containing a filler - polyvinyl chloride and a plasticizer, characterized in that, in order to reduce toxicity to humans and warm-blooded, it additionally contains caprolactam, citral , epoxy-diane resin and polyvinyl alcohol, and dibutyl phthalate as a plasticizer in the following ratio of ingredients, May. %: 0,0’-dimethyl-0- (2,2- -dichlorovinyl) phosphate 3.0-5.0 Caprolactam 0.3-0.9 ' Citral 0.3-0.6 Polyvinyl alcohol 0.5-3.0 Epic Sydian-Diane resin 0.3-0.5 Dibutigphthalate 5.0-9.0 Polyvinyl chloride Rest 2. The tool according to claim 1, about t l and h a- add · Therefore, it contains pigment in an amount of 0.03-0.07 wt.%. SU,. „1087128