RU2688443C1 - Device and method of killing a colorado potato beetle and parasites wintering in potato tubers, ionizing radiation of a beam of relativistic electrons - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the field of pest control. In the method of killing a Colorado potato beetle with ionizing radiation, potato cluster tops with potato beetles located thereon at an early stage of development are bombarded with a beam of relativistic electrons. Device for killing a Colorado potato beetle is a tractor with a microtron and a motor-generator mounted thereon. Microtron is equipped with a magnetic channel for outputting a beam of relativistic electrons and a scanistor. Proposed scanistor is made up of rotary electromagnet. Method of destroying insect-parasite wintering in potato tubers provides potato irradiation γ-radiation. Potatoes are folded in a field into a rectilinear collar. Device for destroying insect pests is moved along the collar to direct a radiation beam onto the collar. Device for pests insects destruction consists of tractor with installed microtron and motor-generator. Microtron is equipped with magnetic channel for output of beam of relativistic electrons. Tungsten target is installed at channel output for electron beam conversion in γ-radiation.EFFECT: possibility of effective, harmless destruction of insect pests.4 cl, 5 dwg

Description

The present invention relates to the field of biological action of ionizing radiation, BDII.

The BDII rubric is in the TSB-3 encyclopedia, but there is no inventions in the Alphabetical Subject Classifier, therefore the author-applicant claims for a pioneering invention.

The analogue of the device is an X-ray tube, which is a two-electrode vacuum device with a cathode and an anode. The action of the analogue is that the cathode, when heated, emits electrons, which, accelerated by the electric field of the anode, when it is bombarded, emit specific electromagnetic waves with a penetrating and ionizing effect.

The prototype of the proposed invention is a microtron, which consists of an accelerating resonator in a magnetic field. The action of the microtron is that when the resonator is excited, it accelerates electrons to relativistic velocities. Under the action of an applied magnetic field, the electrons are repeatedly accelerated by the resonator reaching the energy of tens of MEVs. Electrons of such energy have a very effective ionizing effect, which is proposed to be used in potato agronomy - a very popular culture.

Radiation technology in agronomy yet. Accelerators of charged particles themselves are complex electrophysics, which is available only to graduates of electrophysical faculties. The rational use of an electron accelerator in agronomy will require the joint activity of electro-physicists and agronomist biologists, since biology in agronomy is also a complex science.

Known doctoral dissertation Batygin N.F. "Study of ionizing radiation in plant life management" L. 1968 251 pages, but the author did not read it, and the year of writing the thesis was 50 years ago, when the microtrons themselves were rare.

With the Colorado potato beetle then there were no problems.

The current level of technology and technology to combat the Colorado potato beetle CCW is as follows.

The female CCJ overwinters in the ground at the depth of the arable layer in the state of hibernation in the form of a pupa, FIG. 1. To the surface, the female 1 comes out in June-July, when the potato has grown and is ready to bloom. A pupa 2 cannot be detected only by biologists, and the laying of eggs 3 is easy to observe.

Female 1 has an elliptical shape with a length of the main axis of 10-12 mm. The protective shell of green color with black longitudinal stripes easily masks it on a potato bush. She lays eggs on the lower part of the potato leaf in groups of 10-20 pieces for 2-3 weeks and is able to lay 3,000 pieces. Within a month, creeping reddish larvae-cows grow from eggs. Their development occurs due to the active devouring of potato sheets. And cows 4, and young KKZH 5 that have appeared can already be observed without any professional tricks, and potato bushes become bare 6 ...

In young KKZH the marriage period begins in the name of the continuation of their biological species. The males are exhausted and the females die, and the females go on to accumulate domestic reserves for the coming wintering, they feed heavily on devouring the remnants of potato leaves or flying to neighboring fields tens of kilometers away. TSB-3 tons. 12 s. 454.

The normal composition of potato tubers is 60-70% of water, and in the dry residue: starch, proteins, fat, complex of vitamins CB ₁ B ₂ PPK.

Potatoes are edible boiled and are a component in many, many culinary dishes.

Potatoes are simply stored in winter at a low above-zero temperature, but all insect parasites overwinter there. All these pest parasites: beetles, worms, rodents reduce the standard yield of potatoes 100-200 c / ha and the standard feed value of potatoes. TSB 3 t. 11, p. 484-485.

With all the pests of the potato used physical and chemical methods of control. The physical way is to crush the eggs or larvae of the CKG with two converging fingers. If the sown area is 100 m ² , then this is doable with daily exercise.

The chemical method is spraying potato pieces with special poison chemicals. The poison must get inside the body of CCJ and then it will die in hellish agony. But, if it is hidden under the leaf, then the poisons will fly past the KKZH and damage the ecology of the potato field. If the poisons are of limited duration, then the CCW after the break will pounce on the foliage with even greater appetite.

Sprayers are known different: manual, backpack and machine. Poison chemicals are produced in special chemical plants and are expensive, and this reduces the profitability of potato production.

Spraying is dangerous for the person himself.

Known quarantines, i.e. a massive ban on planting potatoes in the whole region for several years, but this is also detrimental to a weak economy.

Thus, the known methods of dealing with KKZH have a complex of shortcomings: laborious, expensive, not profitable, not environmentally friendly. At the same time, it is necessary to take into account the high biological stability of the CCR .. The CCZH does not have natural enemies, it is not eaten by any type of wildlife.

As an example, the proposed invention is shown in FIG. 2, which shows a potato field with even rows of potato bushes 7 and proposed invention 8 when viewed from above. Fig 3 shows the proposed invention when viewed from the left side.

Fig 4 shows the source of relativistic electrons of the microtron type. It consists of a magnetron 9, a waveguide 10, an accelerating resonator 11, an electromagnet 12 with the upper pole removed and a magnetic channel13. Electromagnetic scanstor 14 is added to the standard microtron. The device includes an electronic power supply unit of the magnetron 15 and a motor-generator 16. Dotted line 17 indicates the trajectories of relativistic electrons during acceleration in the microtron, passing through the scanner and on the potato field.

In Fig. 2, to the right, a graph of linear decay of the intensity of a beam of relativistic electrons of the ERA upon irradiation of potato bushes γ.

Fig 4 on the right shows the graphs of the power modes of the electromagnet of the scanistor 14: sinusoidal and rectangular pulses.

Fig 5 shows the microtron in the mode of irradiation of a potato collar with hard X-ray radiation along the Z ₁ axis, which occurs during the bombardment of the EPR 18 tungsten target. A potato bururt 19 is laid out along the Z axis. Hard x-rays are generated in a cone with an apex angle ω.

The scanner 14 in the opened form is shown in FIG. 4. It is an electromagnet with flat cylindrical strips creating a uniform magnetic field, the magnitude and polarity of which is determined by the mode of electrical powering of its excitation windings.

According to FIGS. 2 and 3, the device is arranged as follows. A complex microtron 8 with a magnetron 9 and a scanner 14 is mounted on a front wheel of a typical flying wheeled tractor in a known manner. In this case, it is possible to choose the level of EDP departure in accordance with the height of potato bushes 7 on the processed potato field in accordance with FIG. 2 and 3. The operational control of the entire device is carried out from the control panel located in the tractor cab by the tractor operator. The control panel itself is not shown in the figures for simplicity.

Radiation safety of the device and method is quite feasible in this case and is ensured in a known manner.

The device operates as follows. The engines of the tractor and the motor-generator are started up in a known manner. The cathodes of the magnetron and the microtron are switched on from the control panel in the tractor cabin. The tractor driven by a tractor operator drives up to the potato field according to FIG. 2. The microtron is set to the level according to FIG. 3. The electronic power supply unit of the magnetron 15 and scanner 14 is enclosed. All elements of the device are output to the nominal mode: the magnetron generates an electromagnetic wave, it excites the accelerating waveguide the resonator 11, electrons from the cathode of this resonator in different orbits are repeatedly accelerated and along the magnetic channel 17 are output into the interpolar gap of the scanner 14, which under the action of the sign carrier ennogo magnetic field scans the beam on relativistic electrons potato field to which the tractor is approached. Relativistic electrons bombard potato bushes, affect CCW, i.e. his eggs, young larvae, young CKGs are lethal for them.

The green mass of potato bushes and even more so the root system and the originated tubers are not sensitive to PDE or are not irradiated.

When the scanstar is powered by alternating pulses, the EDP flies out, then to the left, then to the right. The speed of movement of the tractor during irradiation of the ERA is chosen by the agronomist according to the developed method.

According to Kuzina A.M. TSB - vol. 3 p. 314-316 The biological effect of radiation has been investigated since the invention of the tube itself by X-rays in 1895, he received the Nobel Prize in 1901, working in Russia. By now, it has been reliably established:

1. animal cell is many times more sensitive than plant,

2 - young organisms are more sensitive than old ones

3 - the action of radiation leads to a violation of the physiology of the cell,

4 - with an increase in energy and intensity of radiation, its action increases and increases.

5 - for the control of KKZH, the EDP should be applied from the moment of egg laying until the completion of their mating season.

Technical capabilities of the microtron.

The energy of accelerated electrons is 30 MeV with an intensity of 100 ma per imp. Technical efficiency of 10-30%. The magnetron efficiency is 60-90%.

A 10 MeV microtron weighs 160 kg, an electromagnet diameter of 550 mm. The power of the electromagnet 1 kW, the power of the magnetron 10 kW per pulse. PED run in the air at 3 MEV 10 m.

The power of the motor generator should be 10 kW.

Potato tubers grow in the soil in which many insects live and some of them are embedded in the tubers to continue their existence in the coming winter. At the same time they use tuber both for food and habitat. Affected tubers lose commercial quality.

The device and method shown in Fig. 5 is intended to destroy the parasites that have penetrated into the potato tubers. Its main difference from the one discussed above is the use of a tungsten target 18 in the form of a plate with a thickness of 1 mm and a diameter of 30 mm, i.e. slightly larger than the diameter of the EDP. When this target is bombarded by an ERA with an energy of 10 MEV with an intensity of 50 mA, γ radiation will be 2000 Roentgen / min. Z ₁ -radiation is directed along the axis coaxial with the original EAP. The γ-radiation cone with an angle at the vertex ω will be 30 °.

Scanner 14 at the same time excluded, the microtron rotated 90 °.

The effect of this device is as follows. A burt of potatoes intended for winter storage is formed in the field. A device with a microtron in the γ-radiation mode travels along the collar and irradiates the collet 19 on the left, and on the return stroke of the tractor it irradiates the collet 19 on the right. At an intensity of 1000 r / min and more, all the parasites that have penetrated the tubers die, and the tuber remains intact.

Basic information on the microtron in the book Kapitsa S.P., Melikhyan V.N. "Microtron" Science, M. 1969, p. 12, 881. 190.

Authoritative Handbook of Nuclear Physics, Acad. Artsimovich L.A. M, 1963, p. 231.

Specification.

Fig 1. Colorado potato fuk on a potato bush.

Fig 2. Top view of the device on the potato field.

Fig 3. View of the device from the left side.

Fig 4. The device of the microtron and power modes of the scanstor.

Fig 5. Microtron and γ-irradiation mode of a potato collar.

1 - Colorado potato beetle, CCG.

2 - KKZh pupa.

3 - laying eggs of KKZH.

4 - cows developed from eggs, CCG.

5 - young KKZH.

6 - bare stalks of a potato bush.

7 - bushes of potato field.

8 - microtron on the front of the tractor.

9 - magnetron.

10 - waveguide.

11 - accelerating resonator.

12 - microtron electromagnet.

13 - magnetic channel of electron extraction.

14 - electromagnetic scanstor.

15 - electronic power supply magnetron.

16 - motor-generator power supply of the entire device.

17 is a dotted image of a beam of relativistic electrons, the EED.

18 - thin tungsten target.

19 - potato collar.

γ is the radiation intensity.

L is the range of the radiation effect of the EAR.

Z - axis along the potato collar.

Z ₁ - the axis of γ-radiation

Y - axis along the height of the potato collar.

X - axis across the potato collar.

Claims (4)

1. Device for the destruction of the Colorado potato beetle by ionizing radiation from a beam of relativistic electrons, consisting of a complete microtron equipped with a magnetic channel for outputting a beam of relativistic electrons, a motor generator, and a universal propash tractor mounted on the front of the tractor on a bracket mounted on given level, and is equipped with a scanner of the type of a rotating electromagnet with a rotation angle from -90 ° to + 90 ° when powered by an alternating current polarity and the motor-generator and an electronic power supply unit mounted behind the tractor microtron bracket, remote control microtron mounted in the cab of the tractor, the right of a tractor operator's seat. 2. The method of destruction of the Colorado potato beetle by ionizing radiation of a beam of relativistic electrons, characterized in that the beam of relativistic electrons is directed parallel to the surface of the potato field at the level of the top leaves of potato bushes, where the Colorado potato beetles live during the period of egg laying before the mating season, when the source of the beam of relativistic live electron wheels on the row spacing of potato bushes, while the scanistor periodically changes the direction of the beam of relativistic el ktronov providing bombardment vertices potato bushes the Colorado potato beetle in the early stages of development in potato fields predetermined band whose width is determined by the parameters of the relativistic electron beam, and the length of the strip is determined by the dimensions of the potato fields. 3. Device for the destruction of insect parasites hibernating in potato tubers, consisting of a complete microtron equipped with a magnetic channel for outputting a beam of relativistic electrons, a motor-generator, and a universal propash tractor, characterized in that the magnetic channel for outputting a beam of relativistic electrons is directed across the longitudinal axis a tilled tractor horizontally to the surface of the earth; a tungsten target is installed at the output of a beam of relativistic electrons from a magnetic channel, which converts a beam of relativism The electron electrons in γ-radiation, whose axis coincides with the axis of the primary beam of relativistic electrons and is directed to the tubers of potatoes. 4. A method for the destruction of insect parasites wintering in potato tubers, characterized in that potato tubers intended for winter storage affected by insect parasite insects introduced for wintering are stored in the field in a straight collar along which the device for the destruction of insect parasites travels, directing the beam of γ-radiation to the potato collar during the forward course of the tractor on the one hand, and during the reverse course - on the other hand, the dosage of γ-radiation is set according to the established procedure.

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