SU1671181A1 - Apparatus for disinfestation seeds - Google Patents

Abstract

The invention relates to agriculture, namely to the processes of electromagnetic treatment of seeds for the purpose of their disinsection, and can be used for pre-sowing treatment and disinfection of seeds. The aim of the invention is to increase productivity and improve the quality of seed treatment. The device contains a dispenser 1, a source 2, microwave electromagnetic energy associated with the waveguide 3, a resonator 4 made in the form of brachystochrons, having metal walls and built-in dielectric sem wires 5, a distributor 6 of seed flow, as well as radiomixed articulated out-of-limit waveguides 7 , 8, installed at the entrance and exit, respectively. Seeds are transported by gravity through the dielectric semiconductors 5, making a translational-rotational motion, to the outward waveguide 8. At the same time, electromagnetic energy from source 2 via waveguide 3 is transmitted to resonator 4 and excites resonant electromagnetic oscillations in it. When this happens the processing of transported seeds. 1 il.

Description

The invention relates to agriculture, namely to the processes of electromagnetic treatment of seeds for the purpose of their disinfestation, and can be used for pre-sowing treatment and disinfection of seeds.

The aim of the invention is to increase productivity and improve the quality of seed treatment.

The drawing shows a technological scheme 10 of the proposed device.

The device for seed disinsection contains a dispenser 1, a microwave electromagnetic energy source 2, connected to a waveguide 3, a resonator 4, made in the form of a brachistochron 15, having metal walls and built-in dielectric vas deferens 5, a seed flow distributor 6, and also radio-hermetically connected transverse waveguides 7 and 8, installed at the input and output, respectively.

The device operates as follows.

Seeds from the dispenser 1 through the transcendental waveguide 7 and the flow distributor 6 enter the working volume of the resonator 4 and are transported by gravity through the dielectric seed tubes 5, making a translational-rotational movement, to the 30 transcendental waveguide 8, at the same time electromagnetic energy from the source 2 through the waveguide 3 It is transmitted to the resonator 4 and excites resonant electromagnetic oscillations in it, while the processing of the transported seeds occurs. The presence of dielectric vas deferens 5 inside the chamber improves the uniformity of the electromagnetic field, and in combination with movement along a helix improves the quality of seed treatment. Partially electromagnetic energy is dissipated in the dielectric vas deferens 5, and the main stream is absorbed in the processed material. 45

PRI me R. A pulsed magnetron of the 1RL-139 radar station with a pulse power of 900 kW and a radiation wavelength of 10 cm is used as a source of electromagnetic waves.

Based on the excitation conditions in the resonator of the Нш wave, we assume that the cavity length is L> 2.04 R. where R is the internal radius of the resonator. The condition for the excitation and propagation of a wave of this type is determined by the critical wavelength iHnm _ 2zrR ^Λκρ ~ p 'where Opt is the root of the derivative of the Bessel function b = 1.8412.

The resonant wavelength in the resonator 4 is found from the relation -tf ”'=

We determine R = 10 cm, L = 200 cm.

Acre = 34.1 cm, Ao = 33.1 cm.

The outer diameter of the vas deferens 5 depends on their number and the internal resonator 4. So, for four vas deferens their outer diameter is determined by the formula _J 2R d n ^{= 82 mm} Fluoroplastic is used as the material of the vas deferens.

Claims (1)

Claim A device for seed disinsection, including a dispenser mounted above a conveying unit connected to a microwave source, characterized in that, in order to increase productivity and improve the quality of seed treatment, the conveying unit is made in the form of a cylindrical cavity resonator, the generatrix of which is a brachistochron, inside of which dielectric seed tubes are installed along the helix, and the microwave source output is in communication with the lower part of the resonator, and the input and output of the resonator are outrageously waveguides, and the axial helix repeats the shape of the resonator. Compiled by V. Andrievsky Editor I. Gornaya Tehred M. Morgenthal Corrector S. Shevkun Order 2778 Circulation 411 Subscription VNIIIPI of the State Committee for Inventions and Discoveries under the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Combine Patent, Uzhgorod, 101 Gagarin St.