RU2653368C1 - Insecticide - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Insecticide contains abrasive particles having a porous structure, that are obtained by impact grinding. Powder has a specific surface of at least 12,000 cm²/g.

EFFECT: insecticide is suggested.

6 cl, 6 ex

Description

The invention relates to non-toxic means of killing harmful insects. It can be used in everyday life and can be used in agriculture, medicine, food, pharmaceutical and other industries.

Known copper powder, intended for the purification of titanium chloride from impurities, the particles of which are made in the form of a petal (RF patent for utility model No. 90367, IPC B22F 1/00, 2010). However, copper powder is not an insecticidal agent.

It is known the use of mountain flask as an insecticide (AS USSR No. 692123, IPC A01N 61/00, 1986). However, the known insecticide does not provide sufficient pest control, since it has a low specific surface area.

Closest to the proposed solution is the ECOKILLER insecticidal agent, which is a loose diatomaceous powder with an average particle size of 25-30 μm (Laboratory and experimental study of biological activity and assessment of the target effectiveness of the ECOKILLER insecticidal agent / Scientific report on the results of the examination of the disinfectant, submitted for state registration FBUN NIIIDinzinfektologii Rospotrebnadzora, 2016, https://ecokiller.ru/).

This insecticide does not contain toxic substances, is safe for the environment, animals and humans. ECOKILLER particles can scratch the cuticle's wax coating or absorb the wax from the insect cuticle, violating the integrity of the wax layer. The wax layer turns into a "molecular sieve" through which water evaporates and the insect dies from drying out.

A disadvantage of the known insecticide is the lack of pest control due to:

but. The small specific surface of the known powder (less than 10000 cm ² / g), which determines its absorbent (sorption) ability. This reduces the working surface per unit volume of the powder, leads to a greater consumption of insecticide and impairs the fixing of particles on the insect.

b. The lack of selection of the particle size of the insecticide depending on the body length of the insects being destroyed and the method of exposure to them.

at. Weak abrasive properties of insecticide particles, which depend on the method of grinding the material, the origin and the prevailing type of diatoms.

d. A low-effective method of exposure to exterminated insects, which consists in breaking the wax coating of their cuticle.

In addition, the known solution does not form on the treated plants a thin, dense (not washed off by rain) layer that shields (protects) them from excess sunlight, and also does not condition (maintain) the grain, preventing it from caking, moistening, rotting and a fire.

The technical result of the proposed solution is to increase the efficiency of: a) combating insect pests, b) in protecting plants from excess sunlight, and c) in ensuring the preservation of grain.

The specified technical result is achieved in that an insecticide containing particles having a porous structure and capable of absorbing wax is used in the form of a powder with a specific surface area of at least 12,000 cm ² / g, which increases the working surface of a unit volume of powder and, accordingly, increases the effectiveness of the insecticide over by reducing its consumption and better fixing particles to insects.

The proposed solution uses a more effective method of influencing the outer surface of insects, which more effectively violates the cuticle wax coating and, in addition, allows breaking the insect chitin cover when chitin segments get into the joints. Fine dispersion (particle size less than 10 microns) and a high specific surface of the powder provide long-term exposure: the powder after spraying is in suspension for at least one hour. Spraying ensures efficient distribution of particles in the air with a uniform coating of the treated surfaces. The powder is insoluble and does not settle in water, but creates uniform, non-stratified solutions of suspensions.

The particle size of the powder used for external exposure to harmful insects should be less than 1/100 of the average body length of the exterminated insects, which increases the effectiveness of the insecticide due to the better fixing of particles to insects and the ingress of particles into the joints of chitin segments. Mutual movement of the chitin segments allows the particle trapped between them to not only more effectively destroy the wax coating, but also to break through the chitin cover.

The powder used to act on the respiratory and nutritional pathways of harmful insects has a particle size of less than 1/1000 of the average body length of the exterminated insects, which increases the effectiveness of the insecticide due to the ingress of particles into the respiratory and esophageal pathways of insects. Particles trapped inside the insect (their size corresponds to the size of the spiracles and the esophagus of the insects) ensure its effective dehydration, and in the process of moving cause permanent damage to its internal organs. If an insecticide enters, they ensure the destruction of all types of crawling and flying insects (including fleas), spiders, ticks, etc.

The powder particles have abrasive properties, that is, they have sharp hard edges, which increases the efficiency of the destruction of the wax coating, chitinous coating and internal organs of harmful insects.

The powder used is crushed sedimentary siliceous rock, for example diatomite or tripoli, having a porous structure. The most effective is the use of diatomite as a siliceous rock, which is a natural abrasive.

The insecticide powder must be obtained by shock (rotor or jet) grinding of diatomaceous earth, which increases the abrasive properties of the particles, since the valves of diatoms are not abraded, do not crack, and the bonds between the already destroyed parts of the valves are broken and cleared of related substances, then there is their mechanical activation.

Insecticide powder is obtained by impact grinding of diatomite of marine origin (having a smaller leaflet size of diatoms) or diatomite containing at least 60% of pennate diatoms (having a large number of sharp edges and better abrasive properties).

The insecticide powder can be obtained from the spent diatomaceous filter material, which is fired under conditions that provide thermal decomposition of organic sediments contained in the spent granular filter material.

Case Studies

A study was conducted of the effect of insecticide powder obtained from diatomite of marine origin (Zabaluisky diatomite deposit, Inzensky filter materials factory, Ulyanovsk region) on the red cockroach Blattella germanica and cricket house Acheta domestica. Diatomite powder is a crushed sedimentary siliceous rock with abrasive properties.

Insecticides for cockroaches and crickets were evaluated in containers 1 × 1 × 1 m in size, 1 m ^{3 in} volume. The edges of the containers were smeared with petroleum jelly to prevent insects from escaping. Thirty adults of insects (cockroaches or crickets) were released into containers, 20 mg of insecticide powder was sprayed with a pneumatic nozzle and insect mortality was monitored. Studies were carried out at a temperature of 22-25 ° C and a relative humidity of more than 60%.

Example 1. In 6 containers, 30 cockroaches were launched with an average body length of 12.4 mm and an insecticide powder was sprayed with a specific surface: 8000; 10000; 11000; 12000; 13000 and 15000 cm ² / g. At the same time, the death of the last cockroach from the party was respectively: 14.3; 14.2; 14.0; 9.2; 8.9 and 8.5 hours.

Example 2. In 6 containers, 30 cockroaches were launched with an average body length of 14.3 mm and an insecticide powder was sprayed with an average particle size of: 160; 140; 120; 16; 14 and 12 microns. At the same time, the death of the last cockroach from the party was respectively: 19.4; 19.2; 15.1; 11.3; 11.0 and 10.2 hours.

Example 3. In 6 containers, 30 cockroaches were launched with an average body length of 13.6 mm and an insecticide powder was sprayed with an average particle size of: 16; fourteen; 12; 10; 8 and 6 microns. At the same time, the death of the last cockroach from the party was respectively: 12.2; 11.9; 5.1; 4.3; 3.6 and 2.2 hours.

Example 4. In 2 containers, 30 crickets were launched with an average body length of 21.7 mm and insecticide powder was sprayed with a specific surface area of 14,000 cm ² / g, obtained by impact (rotor) impact and ball abrasion. In this case, the death time of the last cricket from the party was 7.2 hours when using powder obtained by impact, and 14.6 hours when using powder obtained by ball abrasion.

Example 5. 30 crickets with an average body length of 23.1 mm were launched into 2 containers and insecticide powder was sprayed with a specific surface area of 14800 cm ² / g, obtained by shock (jet) impact from diatomite of marine (Chuvarleyskoye field) and lake (Karelia) origin . At the same time, the death time of the last cricket from the party when using the powder obtained by diatomite of marine origin was 7.1 hours, and when using the powder obtained by diatomite of lake origin, it was 11.3 hours.

Example 6. In 5 containers, 30 crickets were launched with an average body length of 20.3 mm and an insecticide powder with a specific surface of 18600 cm ² / g containing 40 was sprayed; fifty; 60; 70 and 75% of penny diatoms. At the same time, the death of the last cricket from the party was respectively: 6.9; 5.7; 2.9; 2.6 and 2.1 hours.

The proposed insecticide can be used in the form of a powder or aqueous suspension. It does not require special tools for application and processing. Effectively protects the treated surface from all types of insects for at least 30 days. The constancy and mechanical method of exposure to insects does not cause adaptation and ensures the destruction of insect pests by generations, eliminating the possibility of reproduction in the treated areas.

Claims (6)

1. An insecticide containing abrasive particles having a porous structure, characterized in that the powder particles are obtained by impact grinding, and the powder has a specific surface area of at least 12,000 cm ² / g. 2. The insecticide according to claim 1, characterized in that the particle size of the powder used for external exposure to harmful insects has a particle size of less than 1/100 of the average body length of the exterminated insects. 3. The insecticide according to claim 1, characterized in that the powder used to affect the respiratory and esophageal passages of harmful insects has a particle size of less than 1/1000 of the average body length of the insects to be destroyed. 4. The insecticide according to claim 1, characterized in that the particles are crushed rock containing diatomaceous earth. 5. An insecticide according to claim 4, characterized in that the powder is obtained from a rock containing diatomite of marine origin. 6. An insecticide according to claim 4, characterized in that the powder is obtained from a rock containing at least 60% of pennate diatoms.