CS203051B2 - Agent for killing noxious animals - Google Patents

Abstract

Anti-parasite agent Comprises one or more cpd. in finely divided form capable of decompsn. by water or steam to give a toxic gas on a porous fibrous material as support. Suitable cpds. are calcium cyanide, aluminium and magnesium phosphides.

Description

BACKGROUND OF THE INVENTION The present invention relates to a composition for controlling animal pests from which finely divided decomposable compounds of a gaseous toxic substance are evolved by the action of water or water vapor.

It is known; The invention also relates to the use of readily degradable cyanides or alkaline-earth phosphates which, under the action of water or water vapor, evolve hydrogen cyanide or hydrogen phosphorus as gaseous toxic active substances as agents for controlling animal pests. The use of these products is difficult in practice. The gas generating compounds must be formulated in such a way that the gas evolution is too rapid, thereby endangering workers or even self-igniting the accumulation of heat. In addition, these compositions must be provided in such a way that, after agitation and development of the active substance, they can be removed quantitatively, especially when the remainder itself has toxic effects.

To overcome these difficulties, gas generating compounds such as calcium cyanide, aluminum phosphide, magnesium phosphide or calcium phosphiide have been prepared in the form of tablets and used as such. Further, those compounds were coated or mixed with water repellents, e.g., paraffin, to control the rate of evolved gases. The resulting residues are difficult to collect and to remove. It is also known to enclose gas generating compounds in a moisture-permeable but water-repellent paper bag so that the rate of gas evolution can be indirectly controlled. The fact that substances are still collected in this bag and that in the case of incomplete degassing the bags accumulate incomplete decomposed residues in the bags, which presents a hidden danger, for example, if such a bag enters livestock feed, or it collects in larger quantities in the separator and can trigger a fire.

The purpose of the invention is to provide a means for controlling animal pests which regulates the gas, regulates easily in a room to be gassed, and dispenses well, which is completely degassed, and whose dust-free evaporator is easily collected and removed later .

An animal pest control composition comprising finely divided aluminum foisphide and / or magnesium phosphide having a particle diameter of 1 to 1000 microns is characterized in that it contains 30 to 70% by weight, phosphides or cyanides, for example aluminum phosphide, magnesium phosphide and magnesium phosphide. calcium cyanide, together with 5 to 20% by weight of a blowing agent such as ammonium acid carbonate, sodium acid carbonate, ammonium carbamate, or a mixture thereof; two or more of these, 2 to 4% by weight, water repellent, such as stearm, stearate, hard paraffin, or a mixture of two or more, binder such as 0.5% by weight, urea, 0.5 to 3% %, polystyrene, 12 to 55% by weight, polyvinylchloride, polyester, polyurethane or mixtures of two or more thereof, 0.7 to 1.4% by weight, foaming agent, 6 to 30% by weight, plasticizer and 0.8 to 4% - % by weight of silica, deposited on a shaped and, according to the application, shape - stabilized fibrous carrier of fabric, knitted fabric, yarn, fur, fleece,. paper or paperboard of cellulose fibers or cellulose-containing substances, glass fibers, slag fibers, asbestos fibers, man-made fibers or lumber.

Water repellants are added to - encapsulate the particles. degradable compounds and thereby. slowed down their degassing. The binder which is added allows better fiber cohesion. Silicon dioxide is added as a thickener ·. Azodicarbonamide is used as a foaming additive.

According to French Patent No. 1,531,677, it is known that metal phosphides are cast into solid plastics of polyesters, polyurethanes, polyvinyl chlorides, etc. However, the anti-pests thus prepared are degassed so slowly that they are unsuitable for practice. In addition, the composition of artificial substances is released during degassing and dust residues are generated.

The pest control may also consist of two or more interconnected sheets, plates, strips, strips or the like having a so-called sandwich structure, wherein the outer layers - are conveniently composed of - a fibrous material without degradable compounds because it can - almost completely - suppress the dustiness of the degassed shaped bodies.

The aforementioned porous fibrous material, which is an obvious advantage of the pest control agents, serves to allow the atmosphere and the moisture contained therein to access individual particles of the degradable compounds so that controlled and practically complete degassing can occur.

The composition - for controlling animal pests - is prepared by:. The process according to claim 1, characterized in that the suspension of the decomposable compounds in an inert volatile liquid, optionally containing a blowing agent, a water repellent, a binder, a foaming agent and a plasticizer, is combined with the fibrous material and the inert volatile liquid is removed by towing and / or evaporation. Industrial gasoline, lower aliphatic alcohol or trichlorethylene can be used successfully as an inert volatile liquid. Alternatively, instead of a suspension, - in an inert volatile liquid, a suspension in a liquid polymer can be used, which is - advantageously formed - during the polymerization of polyester or polyurethane.

The preparation may be carried out by impregnating or coating the preformed fibrous material, for example plates, tapes, strips, blocks, balls, beads, or with a slurry layer. The slurry may optionally contain a thickening agent, such as finely divided silica (pulp) or the pulp. Alternatively, the finely divided fibrous material may be added to the slurry, and - the mixture thus obtained is then known form - forms.

In many cases, it is - advantageous - that the fibrous material is dried prior to further processing, so as to - in the moisture content. - there was no premature reaction with the degradable compound. Furthermore, it is expedient for the preparation to be carried out in an anhydrous environment. In this process, care must be taken that all additives used are anhydrous and that the porosity of the fibrous material is not impaired.

Thus, pest control compositions can also be prepared which consist of two or more boards, strips, strips or the like joined together.

The process for preparing the pest control agents can also be carried out continuously. For example, a web may be prepared continuously from fibrous carrier material, or it may be unwound from a reservoir disc which is continuously coated or impregnated with a suspension, continuously dried or gelled, optionally coated with one or more with the same or different strips one on top of the other and bonded together, the finished end product is then continuously cut into pieces of desired size and packaged and packaged, or optionally rolled onto a roll at certain distances. The finished pest control product is to be stored in airtight containers from which the required quantities can be taken as required.

When using the pest control agents according to the invention, degassing occurs by the ingress of atmospheric moisture or, in certain manufactured shapes, also by the water of the fibrous material, whereby the gas-forming compounds stored in the mass are destroyed. Although degassing of the pest control agent will loosen in a certain amount, the consistency of the shaped bodies will be so far maintained that after degassing, they can be easily and easily assembled and removed. This is particularly simple when using pest control agents in the form of plates or strips. The plates are removed as needed from the stored packages and collected after degassing. The strips can be unwound in any length from the reels and can be rewound after degassing.

The animal pest control compositions of the present invention can be used to degass and dewash empty rooms, silage buildings, warehouses and warehouses for grain, tobacco, cocoa, coffee or other similar purposes.

The gaseous substances produced kill and destroy insects, rodents and other pests.

Example 1

A suspension of 224 parts by weight of aluminum phosphide having a particle diameter of between 5 and 600 microns, 50 parts by weight of polyvinyl chloride was prepared. and 60 wt. parts of dioctyl phthalate in 40. parts, parts of technical petrol. This suspension was applied on both sides to a layered cellulose fleece having a thickness of 0.2 mm and a weight of 46.5 g / m < ^{2 &gt}; The coated fleece was heated for 20 minutes. at 190 ° C.

When the pest control agent was stored in air with 85% relative humidity at 20 ° C, 61.5% by weight of aluminum phosphide decomposed to hydrogen phosphate after 24 hours, 88% by weight after 48 hours and 96% by weight after 72 hours. No decomposed aluminum phosphate was detected.

The pest control had good strength after degassing and was almost dust-free. Example 2

A suspension of 224 parts by weight, parts by weight of aluminum phosphide having a particle diameter of between 5 and 600 micrometers, 50 parts by weight, parts by weight of polyvinyl chloride and 60 parts by weight, parts by weight of dioctyl phthalate in 40 parts by weight, parts of technical gasoline were prepared. This slurry was applied at a layer thickness of 3 mm unilaterally to the layered cellulose fleece it had. thickness ·· 3 mm and weight 123 g / m ² . The coated fleece was heated at 190 ° C for 20 minutes.

When depositing the pest control agents in air with 85% relative humidity at 20 ° C, 65% by weight of aluminum phosphide decomposed to hydrogen phosphate after 24 hours. 48 hours 90% by weight, and after. 72 hours 98% by weight, po. After 7 days, no decomposed aluminum phosphide was detected.

The pest control product had good strength after degassing and was dust-free.

Example 3 parts by weight, parts of aluminum phosphide having a particle diameter of between 5 and 600 micrometers, 46 parts, parts of fibrous pulp and 2.5 parts, parts of polystyrene were suspended in 1080 parts, parts of trichlorethylene. The suspension was suction filtered and the residue dried at 90 ° C. The resulting disc shape had a diameter of 8 cm, a thickness of 16 mm and a weight of 19.2 g.

When stored in air with 85% relative humidity at 20 ° C, 80.2% by weight of aluminum phosphide decomposed to hydrogen phosphate after 24 hours, 93.9% after 48 hours, 97.0% after 72 hours wt.

After. degassing had. good solidity.

Example 4

169 parts by weight, parts by weight of aluminum sulphide having a particle diameter of between 5 and 600 microns, 20 parts by weight, parts by weight of fibrous pulp, 50 parts by weight, parts by weight of polyvinyl chloride and 60 parts by weight, parts of dioctyl phthalate were suspended in 140 parts by weight. The slurry was poured onto a glass ribbon with a layer thickness of 3-4 mm and heated at 190 ° C for 20 minutes. The layer separated from the plate.

When the molded article was stored in air at 85% relative humidity at 20 ° C, 72% by weight of aluminum phosphide decomposed to hydrogen phosphate, 85% by weight after 48 hours, and 95% by weight after 72 hours.

Shaped body. the degassing had good strength and was almost dust-free.

Example 5 parts by weight, parts by weight of 90% finely divided calcium cyanide, 46 parts by weight, fiber pulp and 2.5 parts by weight of polystyrene were suspended in 1080 parts by weight of trichlorethylene. The suspension was suction filtered and the residue was dried at 90 ° C for 1 hour. The obtained molding had a diameter of 8 cm, a thickness of 16 mm and a weight of 19 g.

The degassing was practically complete after 48 hours.

The shape was solid and dust-free after degassing.

Ex. suspended in 900 parts by weight of methanol in which 2.5 parts by weight of urea were dissolved. The suspension was suction filtered and the residue was dried at 60 ° C for 1 hour.

Speed of degassing. was the same as in Example 3. Po. the degassing body had the same, very good strength as before degassing. and did not dust.

Example 7

The procedure was as in Example 3, except that finely divided aluminum phosphide was used, the individual particles of which were impregnated with a thin layer of hard paraffin.

The degassing rate was slightly less than in Example 3. Degassed shaped body. equally good strength.

Example 8. by weight, of parts of aluminum phosphide the aforementioned particle size and 27 wt. parts of finely divided 9O0 / ₀ calcium cyanide was processed. as in Example 3 and was. ready-shaped body.

The degassing rate of the individual degradable components corresponded to the values of Examples 3 and 5.

Claims (2)

the subject of the invention A composition for controlling animal pests comprising finely divided aluminum phosphide and / or magnesium phosphide having a particle diameter of 1 to 1000 microns, characterized in that it contains 30 to 70% by weight of phosphiides or cyanides, for example aluminum phosphide, magnesium phosphide, cyanide calcium, together with 5 to 20% by weight of a blowing agent such as acidic ammonium carbonate, sodium acidic carbonate, ammonium carbamate or a mixture of two or more thereof, and 2 to 4% by weight of a water repellent such as stearin, stearate, hard paraffin or a mixture of two or more thereof, binders such as 0.5% by weight, urea, 0.5 to 3% by weight, polystyrene, 12 to 55% by weight, poly vinyl chloride, polyester, polyurethane or a mixture of two or more of these substances, 0.7 to 1.4% w / w, foaming agent, 6 to 30% w / w, plasticizer and 0.8 to 4% w / w, silica, deposited on the shaped and Knit carrier fabric, knitted fabric, yarn, STST, fleece, paper or paperboard, cellulose fiber or materials containing cellulose, glass fibers, slag fibers, asbestos fibers, synthetic fibers or wood. 2. A device according to claim 1, characterized in that it consists of two or more sheets joined together on one or both sides, such as plates, strips or strips.