SU596239A1 - Repellent composition - Google Patents

Description

electrical conductivity, B, resulting in increased re-peptive activity. The oils have sufficient viscosity and low pettability (the boiling point of the oils used), as a result of which there is a slow evaporation of the drug from the surface of the treatment.

During the electroaerosol spraying of oil repellent solutions due to

The electrostatic forces, the thin dispersion of the preparation (4O microns) is retained on the skin of the animals more firmly, therefore it is more difficult to be blown away by the wind, not washed off by rain or while bathing animals. This further increases the duration of the repellent effect of the drug, allowing a reduction in the number of animal treatments, and the consumption of drugs.

In addition, the finely divided dispersion of the oil repellent solution is more firmly held on the animal's hair, thereby reducing the penetration of the drug into the internal tissues of animals, improving skin respiration and processing conditions.

It has been established that oxyphos mixes with oils (petrolatum, perfumery, transformer) in a fairly wide range of concentrations, dissociates in an oil solution into ions, providing sufficient conductivity that allows the use of the electro-aerosol method.

potassium salt of O, O-di (0-octylhexylethyl), phosphoric acid (oxyphos has

Q formula

L-RO (CH, CH, O),

where R is alkyl containing 8 carbon atoms, rt 6,

The conductivity of the oil solutions is estimated by the specific electrical charge. To obtain electrical aerosols of repellent solutions, electrolytic REAT-2 electric aerosol generators and a mains operated electrical current transducer are used (voltage 22O volts, frequency 50 Hz). The compressed air is supplied from an O-16 electric compressor directly to the nozzles under a pressure of 1.5 MPa.

Examples of repellent oil solutions with conductivity

A mixture of aliphatic ethers RfJ,} Electroaerosol repellent solutions were tested on field animals. For - evaluation of the protective effect of repellent solutions, the results of counting the number of gadflies attacking experimental and control animals were compared. The experiments were conducted on the phones of 5-7 months of age. The consumption of repellent solutions on the head of a young was 2-5-30 g. Of etipoxamic acid. Before the experiments and then after 1, 3, 6, 12, 24, 36, 48, 72 hours after the application of repellents to the skin and hair was determined the number of gadfly attackers for 15 minutes After experiments with visible clinical changes, as well as irritation of the skin and mucous membranes in animals, ve was observed. Thus, the addition of oxyphos to

the composition of repellent drugs significantly increases their activity. Formula of the invention

A repellent composition containing a repellent and a solvent, characterized in that, in order to increase its activity, the composition additionally contains 0, O-di (O-octylhexaethylene glycol) phosphoric acid potassium salt, and a mixture of butyl alcohol and vaseline oil as a solvent in the following the ratio of the initial components, wt.%:

Repellent4.0-4.5

Kaliyev salt-O, O-di (0-octylhexene glycol) Phosphoric acid, 2.0-8, O

Butyl alcohol5O, O-54, O

Vaseline oilErest

2. The repellent composition according to claim 1, 1, which is based on the fact that it contains DETA, DEXA, or oxamate as a repellent.

Sources of information taken into account in the examination:

1. Nepokpoiov A, Chemical Animal Protection, Rosselkhozizdat, 1971 p. 112-118.