RU215170U1 - Pyrotechnic sulfur aerosol generator - Google Patents

Abstract

The utility model is used in agriculture to carry out sanitary and hygienic treatment of small agricultural objects in order to combat crop losses from diseases, pests and improper storage. The beneficial effect is achieved due to the generation of sulfur aerosol. A pyrotechnic sulfur aerosol generator is proposed, the composition of which includes ammonium nitrate, sulfur, a mixture of activated carbons, a flame arrester and does not have nitrocellulose processing products. The body is a combined tube, where the shell is made of multilayer cardboard, and the bottom and lid are made of tin. The invention is aimed at creating a pyrotechnic sulfur aerosol generator with a flammable composition for the safe generation of sulfur aerosol, which has a relatively low cost and sensitivity to various external influences.

Description

The utility model is used in agriculture to carry out sanitary and hygienic treatment of small agricultural objects in order to combat crop losses from diseases, pests and improper storage.

Sulfur is a natural pesticide that is widely used both for medicinal purposes and for sanitary and hygienic treatment of various industrial and agricultural facilities. The effectiveness of sulfur largely depends on its fineness. Therefore, the most effective is the use of sulfur in the form of an aerosol.

Conventional aerosol devices are complex, expensive and require direct human control. The most easy to use and reliable pyrotechnic aerosol generators. Such devices consist of a body, which is equipped with an aerosol-forming pyrotechnic composition and a lid with holes for the aerosol outlet. As a rule, in pesticide pyrotechnic generators, a thermocondensation method for producing aerosols is implemented - evaporation (sublimation) of the active substance due to the heat of the combustion process of the composition, followed by vapor condensation.

Known sulfur aerosol generator GAS 120/80-400 (Sulphur aerosol generator, TU 2449-005-27455777-94). This generator was developed in St. Petersburg at the Design Bureau "Tekhnolog" on the basis of recyclable pyroxylin gunpowder.

The generator is designed to protect all crops (except gooseberries) from mites, powdery mildew and other fungal diseases sensitive to sulfur; fumigation and disinfection of premises, storages, greenhouses and hotbeds (fight against mold, rot, rodents).

GAS 120/80-400 is a pyrotechnic device, during which sulfur aerosol with a particle size of less than 1 micron is released. The aerosol is deposited on the entire surface of the plant and penetrates into areas of the plant that are inaccessible to other methods of treatment. The generator consists of a body, a metal bottom, a diaphragm, and a top cover. The cylindrical body of the generator is made of a cardboard-paper tube with the use of cartoning equipment. The generator is equipped with a pyrotechnic composition containing, wt %: nitrocellulose 40-45, diphenylamine 1.5-2.5, potassium sulfate 2.0-4.0, potassium bisulfate 0.5-1.0, sulfur - the rest.

Each GAS 120/80-400 is equipped with an ignition device - a thermo-match (TU 5551-004-27455777-94). Strike matches are made by extrusion from a paste-like composition based on nitrocellulose, plasticized with solvents.

However, the practice of using such generators has revealed a number of disadvantages, along with their high efficiency, they also have a number of significant disadvantages that reduce their consumer qualities and increase the danger of their manufacture and use. This is due to the fact that pesticide formulations containing more than 40% nitrocellulose have a certain sensitivity to mechanical stress and electrical discharge. A further disadvantage of this composition is that the composition of the generator under the conditions of use is prone to volumetric combustion. Moreover, the use of rather scarce components of the composition - nitrocellulose and pyroxylin powders, as well as special cardboard equipment for the manufacture of generator cases complicates the process of its manufacture and increases the cost. Along with this, the use of pyroxylin powders (or nitrocellulose) and their solvents - toxic, flammable liquids (alcohol mixture, acetone) in the production of thermomatches does not help reduce the danger of their manufacture.

The closest pyrotechnic device for generating sulfur aerosol is a pyrotechnic sulfur aerosol generator equipped with a composition consisting of elemental sulfur, a flame retardant additive, a pyrotechnic base represented by a mixture of ammonium nitrate and coal, where the content of ammonium nitrate and coal in the pyrotechnic base is 30-70%, respectively. and 7-30%. The specified pyrotechnic composition is placed in a polyethylene bag, which, in turn, is installed in a cardboard case, closed with a cardboard lid, with holes for the exit of the resulting sulfur aerosol. To ignite the generator, an igniter match is used, which is installed through one of the openings of the cover into the aerosol-forming composition (RF patent for utility model No. 164587 dated 06/10/2015 "Pyrotechnic sulfur aerosol generator", Strelkova A.V., Pyzhov A.M., Rekshinsky V.A. Published 09/10/2016).

However, during the mass production of experimental generators and their practical application, it turned out that the active carbon brand used is in short supply, the use of these generators in the sanitary and hygienic treatment of large industrial and agricultural facilities is impractical for consumers due to the presence of hot and cold fog installations, which provide less effective but cheaper result when used over large areas. The use of the GAS-200 generator in small agricultural facilities is not possible due to too much sulfur aerosol emission, which violates the maximum allowable concentrations and harms the crop. Moreover, during operation, a design flaw in the GAS-200 generator was revealed - the need to moisten each cardboard case with water before starting work to prevent its ignition. These circumstances required changes in the hull design and modification of the pyrotechnic composition of the generator to adapt it to small agricultural facilities.

The tasks to be solved by the claimed utility model are the modification of the design of the generator to eliminate the shortcomings of the analog, the change in the composition to adapt it to small agricultural facilities.

The technical result, which the utility model is aimed at, is to improve the design of the sulfur aerosol generator and change its composition to new conditions of use.

The technical result is achieved by the fact that the pyrotechnic sulfur aerosol generator contains a combined cardboard case, with an aerosol-forming pyrotechnic composition, including ammonium nitrate, a mixture of activated carbon, elemental sulfur, ammonium sulfate, a cover with an opening for the exit of the resulting sulfur aerosol, an ignition system - a pyrotechnic cord , equipped with a pyrotechnic composition on a water-soluble binder, characterized in that it contains a bottom and a cover made of tin, a polyethylene or cellophane bag for placing the pyrotechnic composition, the cardboard case is made multilayer and has a traditional cylindrical shape, the ignition system is simplified and consists of a igniter cord without additional igniting or igniter heads, and the mixture of active carbons in the pyrotechnic aerosol-forming composition has a dynamic activity for benzene from 45 to 110 minutes.

The type of pyrotechnic composition of the cord and its dimensional parameters are determined by the characteristics of the flammable object.

Figure 1 (A) shows the design of a pyrotechnic sulfur aerosol generator, where 1 is a pyrotechnic cord, 2 is a lid with a hole, 3 is a cardboard case, 4 is a pyrotechnic aerosol forming the composition, 5 is a bottom, 6 is a plastic or plastic bag.

To achieve the specified technical result with the specified problem being solved, as an aerosol forming pyrotechnic composition 4, in the proposed design of the sulfur aerosol generator, it is proposed to use a composition consisting of elemental sulfur, ammonium sulfate and a pyrotechnic base, which consists of ammonium nitrate and a mixture of active carbons of various grades, while the ratio of ammonium nitrate in coal in the pyrotechnic base can be adjusted and be 30-70% and 70-30%, respectively, and the dynamic activity of the coal used for benzene should be from 45 to 110 min. The specified pyrotechnic composition is placed in a polyethylene or cellophane bag 6, which, then, is installed in a cardboard case 3, closed with a tin lid 2, with an opening for the exit of the resulting sulfur aerosol. To ignite the generator, a pyrotechnic cord 1 is used, which is installed in the aerosol forming composition 4.

The body of the generator has a cylindrical shape and is made of multilayer cardboard, the cover and bottom are made of tin. The ratio of the body diameter to its height is 1.5:1, where 1 is the height of the body.

The opening for the exit of the resulting sulfur aerosol in the housing cover is sealed with a special sticker for additional protection against undesirable environmental influences and removed before starting work. The shells of the sulfur aerosol generator without covers are impregnated with an ammonium sulfate flame retardant solution and dried.

The pyrotechnic cord is made on the basis of water-soluble binders.

Figure 1 (B) shows the appearance of the sulfur aerosol generator.

The sulfur aerosol generator is activated as follows: the generator cover is removed, the protective sticker is torn off, the pyrotechnic cord is removed, after which a polyethylene or cellophane bag with a pyrotechnic composition is opened, the free ends of the bag are pulled over the generator body. Then the pyrotechnic cord is bent in a spiral shape and placed in the middle of the composition deep into 2/3 of its length. The generator prepared for operation is placed on a fireproof surface. The pyrotechnic cord, which ignites the aerosol forming the composition of the generator, is set on fire with matches and immediately tightly close the generator with a lid. The remains of used generators are disposed of together with household waste.

The sulfur aerosol generator GAS-40, developed by the author of the utility model, has a mass of pyrotechnic composition of 100 g. The performance of the generator is 30-40 g of sulfur aerosol. The operating time of the generator is 5-10 minutes. The relative mass of slag after combustion of the composition is 13-23%. The temperature of the aerosol at the cut of the outlet is not more than 220°C. The volume of the processed room is 30-40 m ³ .

The burning rate of the pyrotechnic cord is 0.10-0.20 cm/s. The specific content of the composition in the cord is 0.20 g/cm. The time from ignition of the pyrotechnic cord to the start of stable combustion of the generator composition is 1 min 15 s - 2 min.

Within three years, as part of research and development work, pilot batches of generators were manufactured in the amount of about 500 pieces. The manufacture of generators and their ignition systems was carried out in accordance with the developed technology, in laboratory conditions. A batch of generators equipped with igniters (pieces of a pyrotechnic cord) was sent for testing to a specialized enterprise in Samara. The tests were carried out at agricultural facilities mainly in the Samara region. The tests carried out have shown the effectiveness of the generators in the sanitization of agricultural storages and their compliance with the parameters of the technical specifications. There were no negative effects during the operation of the generators (instability of operation: fiery combustion, burnout of the hull, unreliable ignition, premature extinction).

According to the test results, the developed design of the sulfur aerosol generator and its ignition system - a pyrotechnic cord were recommended for industrial use by specialized enterprises in the sanitation of agricultural facilities.

Thus, the obvious advantages of the new pesticide sulfur aerosol generator - GAS-40 in comparison with domestic and foreign analogues are that the pyrotechnic composition of the developed generator does not contain sensitive components, namely, nitrocellulose processing products. The composition of the pyrotechnic sulfur aerosol generator, in contrast to the compositions of analogs, is made of readily available, inexpensive and non-toxic components. The ignition system of the generator is simplified - it consists only of a piece of pyrotechnic cord and does not contain additional elements in its design. These facts significantly increase the consumer qualities of the generator. It is cheaper, easy to use and does not require complex equipment for manufacturing. Its pyrotechnic composition is not sensitive to mechanical stress, is safe to manufacture and use, and is characterized by high combustion stability. The design of the generator has acquired a traditional cylindrical shape and allows, as necessary, to introduce insecticides and pesticides into its pyrotechnic composition, which significantly increases the potential protective properties of the device.

Claims (1)

Sulfur aerosol pyrotechnic generator, containing a combined cardboard case with an aerosol-forming pyrotechnic composition, including ammonium nitrate, a mixture of activated carbons, elemental sulfur and ammonium sulfate, a lid with an opening for the exit of the resulting sulfur aerosol, a pyrotechnic cord equipped with a pyrotechnic composition on a water-soluble binder, characterized in that which contains a polyethylene or cellophane bag for placing the pyrotechnic composition, the cardboard case is made of multilayer and has a cylindrical shape, while the bottom and cover of the case are made of tin, and the mixture of activated carbons in the pyrotechnic aerosol-forming composition has a dynamic benzene activity from 45 to 110 min.

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