RU178695U1 - DEVICE FOR COLLECTING DISPUTES OF PHYTOPATHOGENIC MUSHROOMS FROM LEAVES AND STEMS OF DAMAGED PLANTS - Google Patents

Abstract

The utility model relates to agriculture and can be used to collect spores of plant fungal pathogens and other microparticles contained in plants that are necessary for mycological studies in phytopathology and breeding, as well as phytosanitary monitoring and plant protection technologies. The device comprises an inlet pipe, an aspirator with an electric motor and a spore separator, the spore separator being an inertial cyclone separator equipped with a tubular seal and a container for spores, connected via a flexible hose with its tangential inlet to the inlet pipe, and an exhaust pipe to the suction port of the aspirator.

Description

The utility model relates to agriculture and can be used to collect spores of plant fungal pathogens and other microparticles contained in plants that are necessary for mycological studies in phytopathology and breeding, as well as phytosanitary monitoring and plant protection technologies.

A device is known for precipitating spores of phytopathogenic fungi on test media (RU 157169 U1), comprising an inlet pipe, an aspirator with an electric motor, a spore separator, and a settling chamber made in the form of a hollow cylinder. Precipitation of phytopathogenic fungal spores is carried out on test media in Petri dishes.

This design of the device does not allow to collect spores and other microparticles isolated from the air stream for use in further studies or for infection of plants in assessing the resistance of varieties to fungal diseases.

The technical result, which the proposed model is aimed at, is to increase the efficiency of the collection of spores of pathogenic fungi from affected plants.

Achieving the indicated technical result provides a device for collecting spores of pathogenic fungi from leaves and stems of affected plants, containing an inlet pipe, an aspirator with an electric motor and a spore separator, the spore separator being an inertial cyclone separator equipped with a tubular seal and a container for spores, connected via a flexible hose to its tangential inlet to the inlet pipe, and the exhaust pipe to the suction port of the aspirator.

In FIG. 1 shows a general view of a device for collecting spores of pathogenic fungi from diseased plants.

The proposed device consists of an inlet pipe 1, a flexible hose 2, an aspirator 3 with an electric motor 4, an inertial cyclone separator 5 with a tangential inlet 6 and an exhaust pipe 7, a tubular seal 8 and a container 9 for collecting spores.

The device operates as follows.

When the aspirator 3 with the electric motor 4 is turned on, moving the inlet pipe 1 along the leaves and stems of the affected plants causes air with solid admixture to be sucked in via the flexible hose 2 into the inertial cyclone separator 5, where the solid particles (spores) entering the tangential inlet 6 are twisted in a downward spiral due to inertial forces, they are discarded to the walls of the cyclone separator 5 and sent to the cavity of the container 9 to collect spores. The tubular seal 8 provides a quick change of the container and prevents sediment from entering the exhaust tube 7 of the inertial cyclone separator 5. After sampling, the container 9 is separated from the device and replaced with a new one.

The experimental verification of the efficiency of collection and separation of the proposed device microparticles (d ≈ 20 μm) was carried out by the method of comparative evaluation of the amount of collected biomaterial to the amount deposited on the surface of the tablet (simulator of plant leaf). The applied particles were collected by the proposed device and weighed.

The efficiency of the device was estimated by the formula

,

,

where m ₁ is the mass of the applied material, g;

m ₂ is the mass of the collected material, g;

The verification results are presented in the table.

From the table it follows: the efficiency of the device is on average 97.5%.

Thus, the proposed device will provide the ability to efficiently collect spores of phytopathogenic fungi from affected plants in order to assess the biological characteristics of the collected biomaterial and use it in mycological studies and breeding to determine the resistance of agricultural plants to fungal diseases.

Claims (1)

A device for collecting spores of phytopathogenic fungi from leaves and stems of affected plants, containing an inlet pipe, an aspirator with an electric motor and a spore separator, characterized in that the spore separator is an inertial cyclone separator equipped with a tubular seal and a container for spores, connected via a flexible hose to its input tangential inlet the nozzle, and the exhaust pipe to the suction port of the aspirator.

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