RU2704443C1 - Insecticide composition - Google Patents

Abstract

FIELD: insecticide compositions.

SUBSTANCE: invention relates to agents for insect control. Proposed insecticide composition contains powder of porous mineral and boric acid. Porous mineral is represented by uncoated diatomite powder. Composition contains components in the following ratio: diatomite powder – 10–90 wt%, powder of boric acid – 10–90 wt%. Powders have particle size from 1 to 200 mcm.

EFFECT: invention is aimed at increasing the rate of insect death, as well as the level of their damage, expressed by the ratio of the number of dead insects to the total number of insects exposed to the composition.

5 cl, 1 tbl

Description

Technical field

The invention relates to means for controlling insects, namely to an insecticidal composition containing a mixture of powders of boric acid and diatomite, and can be used to destroy cockroaches in everyday life or in the workplace.

State of the art

The use of boric acid and its salts in the composition of insecticides is known. In particular, baits of this type were proposed for use in the USSR in accordance with the Methodological Recommendations for the Control of Synanthropic Cockroaches, 1986.

The boric acid powder falls on the antennae of the insect, which are used to examine the surrounding area. In this regard, the cockroach tries to cleanse its antennae and licks off pollution, which, getting into the intestines, causes active poisoning.

The disadvantage of using boric acid powder is that the insect does not absorb this poison in sufficient quantities, which does not cause its rapid death.

The use of diatomite powder as a non-toxic insecticide is known (see, for example, RF patents RU2660282, 07/05/2018 and RU2653368, 09/02/2017).

Diatomite is a sedimentary rock of petrified valves of algae (diatoms) with high porosity and the ability to adsorb.

The outer skeleton of an insect is a cuticle having an outer translucent layer - an epicuticle - about 1 micron thick. The specified layer contains a lipoprotein complex - cuticulin stabilized by quinones, but does not contain chitin. Thus, lipids (lipoids) and wax-like substances form part of the outer layer.

Damage to the epicuticle during mechanical action or dissolution of waxes with organic solvents leads to rapid loss of moisture to insects. This is due to the so-called "Zacher effect", which describes the death of barn pests from dusting grain with powders of non-toxic substances. This effect is based on the ability of some powders, in particular diatomite, to absorb wax. In this case, the wax turns into a "molecular sieve", through which water easily evaporates. As a result, the insect dies from dehydration.

However, if the insects, after damage to the wax layer, are kept in a humid environment (have access to water), the epicuticle can regenerate, which increases the insect's ability to resist desiccation and reduces the efficiency of using diatomaceous powder.

The closest analogue of the claimed invention, in terms of features, is an insecticidal composition for controlling cockroaches and other insects, disclosed in US patent US5576007, 11/19/1996. The composition is based on zeolite powder and may further include other porous minerals, in particular diatomite. Moreover, the patent also mentions the possibility of additional use of boric acid additives.

The disadvantage of this composition is its relatively low efficiency. Zeolite does not have sufficiently good abrasive and adsorption characteristics to ensure the death of an insect, and the introduction of diatomite only as an additive cannot significantly enhance the effect of the insecticide. Moreover, the potential possibility of adding boric acid without indicating its amounts does not indicate an increase in the effectiveness of the composition, since the closest analogue does not describe any results from the combined use of porous minerals and boric acid additives.

Disclosure of the invention

The technical problem of the claimed invention is the elimination of the above-described disadvantages of analogues related primarily to the low speed of action of insecticides, as well as their comparative low efficiency.

The technical result of the invention is to increase the speed of death of insects, as well as their level of damage, expressed in the ratio of the number of dead insects to the total number of insects exposed to the composition.

The specified technical result is achieved in the claimed invention due to the fact that the insecticidal composition contains a mixture of uncoated diatomaceous powder in an amount of 10-90 wt.% And boric acid powder in an amount of 10-90 wt.%. Moreover, these powders have a particle size of from 1 to 200 microns.

In addition, according to private variants of the invention:

- the composition further comprises an additive of a hydrophilic silicon dioxide powder with a particle size of from 1 to 200 μm in an amount of 1 to 14 wt.%;

- used diatomaceous earth powder obtained from marine diatomite;

- used powder diatomite, subjected to mechanical cleaning and drying;

- used powders with an average particle size of 5-50 microns.

In contrast to analogues, the composition of the claimed composition uses a combination of boric acid and diatomite powders, which in the indicated proportions provide a synergistic effect, consisting in a significant increase in the speed of death of insects, as well as the level of their damage. The indicated effect is explained by the complex influence of the following factors.

1. The used particles of diatomite have a developed surface and cause mechanical damage to the wax coat of the outer layer of the cuticle due to abrasion (scratch the outer layer).

2. As a result of abrasive damage, a more pronounced Zacher effect arises, in which the porous particles of diatomite actively absorb the insect's wax coat, which leads to a more intense loss of moisture.

3. Boric acid penetrates through the formed open pores (areas of violation of the wax coat), which leads to its contact toxic effect on the insect.

4. The use of diatomite particles with a developed surface allows them to cling to a larger number of antennae (antennae) along with boric acid powder. As a result, the insect begins to clean its antennae more often (than using exclusively boric acid), which leads to more intensive ingestion of boric acid, which causes intestinal poisoning.

As a result of the combined action of these mechanisms, the claimed composition demonstrate a significantly higher insecticidal activity, which cannot be achieved with the separate use of boric acid and diatomite powders.

Moreover, a fundamental aspect of the invention to achieve this effect is the use of unattended diatomaceous powder. The presence of additional coatings (which are used in some analogues to increase the adsorption capacity) reduces the abrasive effect, and also worsens the engagement of particles on the antennae of the insect, which minimizes the first, third and fourth mechanisms of exposure.

In addition, the specified quantitative composition is essential for the claimed composition. When the content of particles of diatomite less than 10 wt. % of their abrasive and adsorption effects on the insect will be insignificant, while the increased content of boric acid (more than 90 wt.%) due to this will not increase the toxic effect, since boric acid will not be absorbed in sufficient quantities. On the other hand, when the content of boric acid particles is less than 10 wt.%, The toxic effect of the composition will significantly decrease, which will be practically comparable with the effect of using pure diatomite powder.

It should also be noted that the use of other powders of porous minerals in combination with boric acid does not provide the achievement of the described effect.

The implementation of the invention

The claimed composition is a mechanical mixture of 10-90 wt.% Unattended diatomaceous earth powder and 10-90 wt.% Boric acid powder. In addition, it is possible to introduce an additive of hydrophilic silicon dioxide powder in an amount of 1 to 14 wt.%.

Diatomaceous earth powder may have sizes from 1 to 200 microns. However, it is most preferable to use particles with an average of 5-50 microns, which allow the powder to adhere well to insects at the slightest contact.

Diatomaceous powder is made from diatomite, as a rule, by combined thermomechanical processing and classification according to particle size distribution. It is preferable to use marine diatomite, because the shells of marine diatoms are solid and light (compared to the shells of lake diatoms), which determines the high abrasive and adsorption properties of the material, which are important for achieving the described effect.

It is most preferable to use diatomaceous powder which has undergone the following treatment.

First, crushing and grinding of diatomite is carried out.

Next, the powder is dried at a temperature of 350 ° C to 4% humidity. Thermal energy in the form of flue gases enters through a special pipeline from the furnace.

The resulting diatomite enters the block of classifiers, where it is separated from impurities (stones, flasks and quartz sand, small clay impurities).

Small clay particles enter the bag filter, where they are captured and poured into the reservoir.

The purified diatomite is piped into the furnace, where additional drying occurs at a temperature of 750 ° C, which provides complete purification of the pores of the diatom valves and the elimination of all organic impurities.

After this, diatomite enters an additional classifier, where the powder is separated from fine quartz sand.

Next, the powder is again subjected to classification, for the selection of purified diatomite necessary fraction. Fine particles of diatomaceous powder from the classifier are sent to the second bag filter, where they are captured and poured into the drive.

The powder obtained from marine diatomite can then be mixed with a hydrophilic silica powder consisting of 99% highly porous amorphous silica with a particle size corresponding to the particle size of the diatomite. The silica additive is introduced into diatomite, preferably in an amount of about 15 wt.%, In order to increase the purity of the diatomaceous powder (since it consists essentially of silicon dioxide). Accordingly, the content of the additive in the composition may range from 1 to 14 wt.%.

The diatomite powder with the addition of silicon dioxide subjected to the described treatment possesses the properties (weight, dispersion, degree of purification, specific surface area) necessary for 100% adherence to insects at the slightest contact, which makes it possible to achieve the best effectiveness of the composition as an intestinal poison. In addition, this treatment provides a significant increase in the adsorption and abrasive properties of the product.

Boric acid powder for the claimed composition can be prepared by any method known to the skilled person. Particles of boric acid can also have a size of from 1 to 200 μm, while it is most preferable to use particles with an average size of 5-50 μm, which contributes to good retention of particles on the surface of the antennae of insects and their penetration into the body.

To prepare the composition, the powders are mechanically mixed using any device known to the person skilled in the art.

When using the composition, the mixture of powders scatters on the surfaces in the room at a flow rate of about 10 mg / m ² . After a few days after the death of all insects, the composition can be removed from the surfaces.

To verify the effectiveness of the claimed composition in the Federal State Institution of Scientific Research of the Disinfectology of Rospotrebnadzor, the insecticidal activity of a mixture of diatomaceous powder and boric acid against red cockroaches Blattella germanica was studied.

Samples were prepared from a mixture of diatomite powders (with the addition of 15 wt.% Hydrophilic silica) and boric acid in a weight ratio of 1: 1, 2: 1, 3: 1, 4: 1, 5: 1, 6: 1, 7: 1, 8: 1, 9: 1, 1: 2, 1: 3, 1: 4, 1: 5, 1: 6, 1: 7, 1: 8 and 1: 9, as well as samples containing 100% powder diatomite and 100% boric acid powder. All samples were used at the same flow rate of 10 mg / m ² .

When selecting insects for the experiment, the random sampling method was followed. Insecticity was evaluated in 55 x 37.5 x 15.5 cm containers. The edges of the containers were smeared with petroleum jelly to prevent insects from leaving. A cardboard shelter was placed in the right corner, and food (dry white bread) in the left corner. 10 females and males were placed in containers and kept for 24 hours for the insects to get used to the new habitat. After that, samples were dispensed along the bottom of the container at a rate of 10 mg / m ² . Accounting for insect mortality was carried out periodically for 1,2,3,4,6,8,10,12,15,18,20,24,48 hours and pure diatomite powder after 30 days. The repetition of the experiment was threefold.

The experiments were carried out at a temperature of 24-26 ° C and relative humidity of more than 60%.

Table 1 shows the results obtained on the mortality of cockroaches when using the composition.

Table 1

Substances and component ratios The defeat of cockroaches ...% after ....... hours one 2 3 four 6 8 10 12 fifteen eighteen twenty 24 48 30 days Diatomaceous powder ** 0 0 0 0 0 0 0 5 5 5 5 5 5 5 Boric acid 0 0 0 0 0 0 0 10 10 fifteen fifteen 25 75 one hundred Mixture 1: 1 0 0 0 10 40 55 70 one hundred one hundred one hundred one hundred one hundred one hundred one hundred Mixture 2: 1 0 0 10 thirty 60 one hundred one hundred one hundred one hundred one hundred one hundred one hundred one hundred one hundred 3: 1 mixture 0 0 10 twenty fifty 70 one hundred one hundred one hundred one hundred one hundred one hundred one hundred one hundred 4: 1 mixture 0 0 5 10 thirty 55 65 80 one hundred one hundred one hundred one hundred one hundred one hundred 5: 1 mixture 0 0 0 5 25 40 55 55 65 65 80 90 one hundred one hundred Mixture 6: 1 0 0 0 5 twenty thirty 40 40 60 60 70 90 one hundred one hundred Mixture 7: 1 0 0 0 5 25 thirty 40 45 60 60 70 90 one hundred one hundred Mixture 8: 1 0 0 0 0 10 twenty thirty thirty 45 60 70 85 one hundred one hundred Mixture 9: 1 0 0 0 0 10 twenty 35 35 40 40 60 80 one hundred one hundred Mix 1: 2 0 0 0 40 fifty 65 75 one hundred one hundred one hundred one hundred one hundred one hundred one hundred Mix 1: 3 0 0 5 thirty 40 45 65 70 75 85 one hundred one hundred one hundred one hundred Mix 1: 4 0 0 0 twenty twenty twenty 25 25 25 thirty 45 70 one hundred one hundred Mix 1: 5 0 0 0 0 fifteen fifteen twenty twenty 25 25 fifty 65 one hundred one hundred Mix 1: 6 0 0 0 0 10 10 10 fifteen fifteen 25 35 45 one hundred one hundred Mixture 1: 7 0 0 0 0 5 10 fifteen fifteen fifteen fifteen thirty 40 90 one hundred Mix 1: 8 0 0 0 0 0 0 10 10 10 fifteen twenty 40 90 one hundred Mix 1: 9 0 0 0 0 0 0 0 10 10 fifteen fifteen thirty 80 one hundred Mixture 1: 1 * 0 0 0 10 35 fifty 80 one hundred one hundred one hundred one hundred one hundred one hundred one hundred The control 0 0 0 0 0 0 0 0 0 0 0 0 0 0

 Note: * landing after 48 days

            ** in the presence of a drinking bowl with water

Red cockroaches were quite sensitive to the effects of insecticides. The males were the most sensitive, the death of the females came later.

100% boric acid showed its effectiveness only on the 30th day of the experiment. And when using 100% diatomaceous powder in the presence of a drinking bowl with water, the effect of the insecticide did not appear during the entire observation period (30 days).

The first three hours, cockroaches practically did not die in all variants of the experiment. However, after 48 hours, in all variants of the claimed composition, the death of 80-100% of insects in each group was observed. With further counts for three days, the mortality of cockroaches was confirmed.

As a result of the test, a direct relationship between the ratio of components (within 10-90 wt.%) On the speed and completeness of insect death was not established. However, it is shown that the best results can be achieved with a ratio of diatomite to boric acid in the range 1: 1 - 4: 1 (diatomite - 50-80 wt.%, Boric acid - 20-50 wt.%), And 1: 2 - 1: 3 (diatomite 25-33 wt.%, Boric acid 67-75 wt.%) Nevertheless, the results demonstrate the effectiveness of the use of the composition in the entire declared range of values (10-90 wt.% For both components), which significantly exceeds effectiveness from the use of individual components of the composition.

Despite the fact that the action of the composition is demonstrated on cockroaches, it is clear to a person skilled in the art that it will also be effective in controlling other insects, since the mechanism of action on their outer cover will be the same. In particular, the described composition is promising for the fight against silverfish and ants.

Claims (8)

1. Insecticidal composition containing a powder of a porous mineral and boric acid, characterized in that the porous mineral used is an uncoated diatomaceous powder, the composition containing components in the following ratio, wt.%: diatomite powder - 10-90, boric acid powder - 10-90, moreover, the powders have a particle size of from 1 to 200 microns. 2. The composition according to claim 1, characterized in that it further comprises an addition of a hydrophilic silicon dioxide powder with a particle size of 1 to 200 μm in an amount of 1-14 wt.%. 3. The composition according to claim 1, characterized in that the diatomite powder obtained from marine diatomite is used. 4. The composition according to any one of claims 1 to 3, characterized in that the diatomite powder is used, subjected to mechanical cleaning and drying. 5. The composition according to any one of claims 1 to 3, characterized in that used powders with an average particle size of 5-50 microns.