RU2175824C1 - Method for treating seeds - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: method involves treating seeds with amplitude-modulated oscillations in extremely low frequency bandwidth during 40-60 min under field intensity of 120-1400 A/m before seeding. EFFECT: improved seed germination. 1 dwg

Description

 The invention relates to the field of agriculture, and in particular to methods for treating seeds of crops before sowing.

 A known method of treating seeds in a state of biological rest, a constant homogeneous magnetic field (N 913993, IPC (3) A 01 G 7/04, F 01 C / 400, USSR, 1982).

 A known method of increasing animal productivity and plant productivity (France N 2550688, IPC (3) A 0167/04, C 12 N 13/00), which consists in the fact that animals and plants are subjected to effective radiation. For this, magnetic pulses of variable polarity are used, the shape of which is similar to the shape of a two-phase potential with a repetition rate of 1 / 100-1 s and a pulse width of 1/500 s.

 A known method of stimulating the vital processes of biological objects (RF patent N 2113108, IPC (6) A 01 G 7/04, A 01 C 1/00, A 61 N 1/00, 2/00). The object is exposed to an electromagnetic field while transmitting electric current for a period of time from 10 s to 2 hours. The magnitude of the electromagnetic field is set in the range of 80-80000 A / m.

 A known method of growing plants, including sowing seeds in a tank of non-magnetic conductive material and passing an electric current of industrial frequency through a winding located on the outer surface of the tank (ed. St. USSR N 1665952, IPC (5) A 01 G 7/04).

 The closest of the analogues to the claimed one relates to a method of pre-sowing seed treatment with electromagnetic waves of low frequency (ed. St. USSR N 206235, IPC A 01 G 7/04). The treated seeds are placed inside the coil and kept in a magnetic field at the field frequency and exposure of the treatment determined for each culture.

 The disadvantages of the method include: low productivity of the method, due to the internal dimensions of the coil, low efficiency of exposure to the seeds used in the prototype electromagnetic field.

 The technical objective of the method is to increase its productivity, increase seed germination.

 To solve the technical problem, the seeds are exposed to an electromagnetic field, amplitude-modulated oscillations of the extremely low frequency range, for 40-60 minutes at a field strength of 120-1400 A / m.

 As a review of the patent technical literature showed, nowhere has an electromagnetic field amplitude-modulated by the extremely low-frequency range been used for seed treatment, which allows us to conclude that the claimed technical solution meets the criterion of "inventive step".

 As shown by experimental data, when exposed to the treated seeds with an electromagnetic field of amplitude-modulated oscillations of the extremely low frequency range, seed germination increased by an average of 28% compared with the prototype.

 It was experimentally revealed that the seed treatment time should be from 40 to 60 minutes, since starting from a 40-minute treatment an increase in germination occurs, and after 60 minutes the result remains unchanged. It was also experimentally established that the magnetic field strength can lie in the range from 120 to 1400 A / m.

 The drawing shows a diagram of a device used for processing.

 The device consists of an oscillation generator 1, a frequency meter 2, a carrier frequency generator 3, which also performs the function of an amplitude-modulating device, an oscilloscope 4, which controls the voltage at the output of the amplifier, amplifier 5, emitter 6, which is a multilayer coil, and a seed loading tank 7.

 Sinusoidal oscillations of the extremely low-frequency range from the output of the generator 1 are fed to the input of the frequency meter 2 and to the input of the carrier frequency generator 3, where the amplitude modulation of electrical oscillations occurs. From the output of the carrier frequency generator, the oscillations arrive at the input of the amplifier 5 and from the output of the amplifier 5 to the emitting device 6.

The impedance of the emitter is calculated by the formula:
Z _and = [R $\genfrac{}{}{0ex}{}{\text{2}}{\text{a}}$ + (ω ₀ L) ² ] ^1/2 , (1)
where R _a is the active resistance of the coil, L is the inductance of the coil, ω ₀ is the angular frequency of the carrier electromagnetic oscillation.

As is known, the magnitude of the magnetic field inside a coreless solenoid is related to the amplitude value of the current strength I _am flowing through the coil, with the number of turns n, the cross-sectional area S and the coil inductance L:
H = LI _am / nSμμ ₀ (2)
where μ is the magnetic permeability of air, μ ₀ is the magnetic constant.

Formula (2) can be written as
H = LU _am / nSZ _and μμ ₀ (3)
where U _am is the amplitude value of the modulated voltage applied to the coil.

 The well-known formulas were used to calculate the magnetic field N.

An example of a specific implementation:
We used a device where G3-118 was used as oscillation generator 1, frequency meter 2 was F5041, carrier frequency generator 3 was L31, oscilloscope 4 was C1-69, amplifier 5 was Amphiton 25U-202C, and radiator 6 was a solenoid. A coil with a number of turns n = 2500, an inner diameter of 3 cm, and a cross-sectional area S = 30 cm ^{2 was} used as an emitter. The active resistance of the coil was R _a = 130 Ohms. The carrier frequency was 1 kHz, the frequency of the modulating voltage of the extremely low-frequency range was selected separately for each culture. As a container for loading seeds, a chamber made of magnetic material was used, which allows loading 100 kg of sunflower seeds.

During the processing, the modulation depth was m _am = 70%, the emitter inductance was L = 0.3 H, the average value of the magnetic field strength was H = 660 A / m, and the duration of seed irradiation was t = 50 minutes. Seed germination increased by 36% compared with the control (prototype). Similarly, rice, barley seeds were treated at the plant. An increase in germination was obtained in comparison with the control (prototype), respectively, by 27%, 29%.

 It was found that the dependence of germination on the frequency of modulating oscillations is resonant in nature, therefore, for each culture, the frequency was selected individually.

 According to the method described in the prototype, we would be able to process sunflower seeds of the order of 0.1 kg, as the seeds are placed inside the coil using the given specific example. Whereas in the proposed method under such conditions they process up to 100 kg of seeds.

Claims (1)

 A method of seed treatment, including exposure to an electromagnetic field, characterized in that before sowing, the treated seeds are exposed to an electromagnetic field, amplitude-modulated oscillations of the extremely low frequency range, for 40-60 minutes at a field strength of 120-1400 A / m