RU2818364C1 - Beehive for combined control of varroosis of bees - Google Patents

Abstract

FIELD: agriculture; beekeeping.

SUBSTANCE: invention relates to the field of agriculture, to beekeeping, in particular to structures of beehives for keeping bees. Beehive for combined control of varroosis of bees contains a housing, a gable roof, a landing board of an upper entrance, an arrival board of a lower entrance, an upper entrance hole, a lower entrance hole, a hole for ventilation. Beehive also contains a solar panel, two movement modules in the form of linear rolling bearings with a movable bar, a linear piezoelectric motor, diode infrared lasers, electrostatic ultrasound emitter, control unit with accumulator and timer, calibrated metal mesh, slots for movement of calibrated metal mesh. Holes in the calibrated metal mesh are not less than 2 mm for free passage of dead varroa mites. Landing board of the upper notch is made hollow, in the form of a plastic box with a rectangular cross-section with a sticky surface inside for disposal of dead mites with elastic inserts at the bottom of the board for ventilation and with a window at the top for placing a calibrated metal mesh by means of a slot for moving the calibrated metal mesh. Electrostatic ultrasound emitter for action on metal mesh is made in the form of a solid-state plate of piezoelectric material. Diode infrared lasers are installed on a movable rail with possibility of movement to the left and to the right by means of two movement modules using a linear piezoelectric motor, and the solar panel with its “plus” and “minus” output in the control unit is connected in parallel to the accumulator and the timer. Timer is connected to a driver for controlling an electrostatic ultrasound emitter, a driver for controlling diode infrared lasers and a driver for controlling a linear piezoelectric motor.

EFFECT: higher efficiency of varroosis control.

1 cl, 4 dwg

Description

The invention relates to the field of agriculture, to beekeeping, in particular to the designs of hives for keeping bees.

Varroatosis is a disease caused by the Varroa Jacobsoni mite. The female is brown, measuring about 1-1.7×1.50-1.99 mm, the male is white, measuring from 0.8-0.97×0.7-0.93 mm, they have 4 pairs of limbs.

The mite is spread by bees and reproduces in brood. Placed between the chest and abdomen on the bee's body. The mite is spread in many ways, both by sick bees and brood taken from sick colonies, and during swarming and migration of apiaries. With a severe degree of damage (over 20 mites per 100 bees in a colony), the death of the brood and the ejection of dead drone and bee larvae, young bees and drones from the nest are observed. Varroatosis of bees is treated with many drugs and methods.

Currently known methods of combating the varroa mite are zootechnical, physical and chemical (p. 383, Komarov A.A. Amateur Beekeeper's Manual. M. Citadel, 1997).

Zootechnical methods are certain methods of working with bee colonies to reduce the incidence rate and prevent the disease, such as broodless layering, removing brood to incubators, etc. All these methods, to one degree or another, violate the biological integrity of the bee colony, inhibit its development and thereby reduce the quality of the bees.

Chemical methods - the use of pesticides. For example, drugs such as “CAS-81” and “Bipin-T” are widely used. This is a group of the most effective and cheapest methods. However, this group of methods has disadvantages, and the main one is environmental pollution. When bees are treated with strong chemicals, some of them in varying concentrations inevitably end up in beekeeping products - honey. These substances and their derivatives accumulate in the human body and cause allergic manifestations and intoxication of the body, including poisoning.

Mechanical methods include the use of barrier gratings, shaking off mites from bees as they pass on rough surfaces, the use of hives with mesh bottoms, pollination of bees with dispersions and fine powders (chalk, talc) and others.

There is a known method of combating bee varroa using vibration effects, patent RU 2324341, IPC A01K 47/00, published: 05/20/2008, Bulletin. No. 14.

The known method refers to mechanical methods of combating varroa. The essence of the method consists in short-term exposure of bees and mites to vibrations with a frequency, the wavelength of which, for example, is proportional to half the length of the mite, when a bee enters or takes off from the hive or in any other place where bees accumulate. Since the sensitivity threshold of mechanoreceptors of different types of insects is individual, vibrations with a frequency proportional to half the length of the mite cause irritation in it and lead to increased motor activity and, as a consequence, the fall of mites, without having any effect on bees, since the size of the bee and mite excellent.

After the cessation of exposure, the initial state of the bees and mites is completely restored, but fallen (fallen off) mites lose the opportunity to return to the bee. In this case, the vital activity of the bee is not disrupted.

According to the authors of the invention, the technical result of the method is the irreversible shedding of mites from bees and thereby reducing the overall mite infestation of the bee colony in a very short time without harmful effects on bees and beekeeping products.

According to the authors of the invention, the known method can be implemented, for example, using the device shown in the patent drawing, attached to the hive 1 and consisting of a generator of electrical oscillations of a given frequency with a corresponding power supply 5 and vibrators 3 that convert electrical oscillations into mechanical ones. In this case, vibrators, for example, can be placed in the walls of the corridor, which is connected to the entrance hole 2 or to the entrance to the feeder (RF patent drawing 2324341) or in any other cluster of bees. When passing through this corridor, bees are exposed to vibrators, for example, they come into contact with vibrators. The fallen mites fall through the mesh tray onto the sticky surface of the collector 4. The use of a mechanical vibrator eliminates the impact of electrical voltage on the bee and the mite.

The disadvantages of the known method and device are:

- low effectiveness of combating varroatosis of bees;

- it is difficult to create a generator of electrical oscillations with a frequency whose wavelength, for example, is proportional to half the length of the clamp and is 300 - 400 GHz;

- the creation of vibrators for such a frequency of mechanical radiation raises doubts. What materials are used?

There is a known method of combating varroatosis of bees, patent RU 2632862, IPC A01K 47/00, A01K 51/00, Published: 10/11/2017, Bulletin. No. 29.

The technical result of this invention is to increase the effectiveness of the fight against varroa in bees by always guaranteeing non-contact exposure of bees to electrical energy in the form of an amplitude-modulated signal with low-frequency and high-frequency (carrier) components.

Thus, to effectively combat varroa in the known method, it is proposed to use two electric fields simultaneously: low-frequency (with a frequency of 450...550 Hz) and high-frequency (with a frequency of 22.7...25.5 GHz) components. In this case, the electric field strength should not exceed 6 V/cm and be in the range - 4…6 V/cm. The energy of the low-frequency (low-frequency component) field excites the bees, increases their motor activity and causes the mites to be shaken off, and the energy of the high-frequency (high-frequency component) field selectively affects the mites, causing their intense heating and death.

The disadvantages of the known technical solution are:

- the difficulty of creating an electrical oscillation generator with a frequency of 22.7...25.5 GHz. (The frequency of the magnetron of a household microwave oven is an order of magnitude lower!);

- the behavior of bees at such a frequency of electrical oscillations is unpredictable, depending on the internal state of the honey ventricle (crop) and the mouth of the ventricles. The bee retains nectar or honey in the honey crop. Their quantity will change the conductivity and heat losses at such a high frequency of electrical oscillations.

The closest to the proposed invention, taken as a prototype, are single-hull hives of standard design No. 808-5-14 (see Burenin N.L., Kotova G.N. Handbook of beekeeping. - 2nd ed., revised and expanded. M ., Kolos, 1984. - P. 122-134.), made of wood, the bodies of which consist of a bottom, a removable roof, front, rear and side walls, fastened to each other with nails. The front and rear walls have folds for hanging frames, which are shorter than the length of the walls by the total thickness of the side walls (prototype).

The disadvantage of the known single-hull hives is that they do not have the means to combat bee varroa.

The technical result of the proposed invention is to increase the effectiveness of the fight against varroa disease of bees through the combined effect of thermal energy of infrared (IR) diode lasers, ultrasonic vibrations and wind flow.

This technical result is achieved by the fact that the hive for the combined fight against varroatosis of bees additionally contains a solar panel, two movement modules in the form of linear rolling bearings with a movable rack, a linear piezo motor, diode infrared lasers, an electrostatic ultrasound emitter, a control unit with a battery and a timer, a calibrated a metal mesh, grooves for moving a calibrated metal mesh, with holes in the calibrated metal mesh of at least 2 mm for the free passage of dead varroa mites, the landing board of the upper entrance is made hollow, in the form of a plastic box of rectangular cross-section with a sticky surface inside for the disposal of dead mites with elastic inserts at the bottom of the board for ventilation and with a window at the top for placing a calibrated metal mesh, by means of a groove for moving the calibrated metal mesh, and an electrostatic ultrasound emitter for influencing the metal mesh is made in the form of a solid-state plate made of piezoelectric material, diode infrared lasers are mounted on a movable rail with the ability movement left and right by means of two movement modules using a linear piezoelectric motor, and the solar panel with its “plus” and “minus” output in the control unit is connected in parallel to the battery and timer, and the latter is connected to the driver for controlling the electrostatic ultrasound emitter, with the driver for control of diode infrared lasers and with a driver for controlling a linear piezo motor.

The novelty of the proposed proposal is due to the fact that due to additional elements such as: a solar panel, two movement modules in the form of linear rolling bearings with a movable rack, a linear piezo motor, diode infrared lasers, an electrostatic ultrasound emitter, a control unit with a battery and a timer, a driver for control An electrostatic ultrasound emitter, a driver for controlling diode infrared lasers and a driver for controlling a linear piezo motor ensures increased efficiency in the fight against bee varroa through the combined effect of thermal energy, ultrasonic vibrations and wind flow.

According to the scientific, technical and patent literature, no set of features similar to the claimed one has been found that allows one to obtain a technical result that has not previously been achieved by known means, which makes it possible to judge the inventive level of the proposed proposal.

The proposed device is operational and can be used for combined control of bee varroa, which meets the “industrial applicability” criterion.

The essence of the invention is illustrated by the drawing, where figure 1 shows a hive for combined control of bee varroa; in figure 2 - the landing board of the upper entrance, top view; in figure 3 - the landing board of the upper entrance, side view along C-C, in figure 4 - a functional electrical diagram of the connection of elements.

The hive for combined control of bee varroa contains a body 1, a gable roof 2, a landing board of the upper entrance 3, a landing board of the lower entrance 4, an upper entrance opening 5, a lower entrance opening 6, a hole for ventilation 7, a solar panel 8, an elastic insert for ventilation 9, hive stand 10, control unit 11, diode infrared lasers 12, bees 13, sticky surface for mite disposal 14, two movement modules 15 with a movable rack, which are used as linear rolling bearings, linear piezo motor 16, electrostatic ultrasound emitter 17 , calibrated metal mesh 18, grooves for moving the calibrated metal mesh 19. Holes in the calibrated metal mesh 18 of at least 2 mm for the free fall of dead varroa mites. The control unit 11 contains a battery 20, a timer 21 connected, respectively, to a driver 22 for controlling an electrostatic ultrasound emitter 17, with a driver 23 for controlling diode infrared lasers 12, with a driver 24 for controlling a linear piezo motor 16. The landing board of the upper entrance 3, (Fig. 3) made hollow, in the form of a plastic box of rectangular cross-section with an aspect ratio of 1.5 to 3.0 cm, with a window at the top for placing a calibrated metal mesh 18, through a groove for moving the calibrated metal mesh 19.

The solar panel 8 (Fig. 4), with its plus and minus output in the control unit 11, is connected in parallel to the battery 20 and the timer 21, and the latter is connected to the driver 22 for controlling the electrostatic ultrasound emitter 17, with the driver 23 for controlling the infrared diode 12 lasers, with a 24 driver to control a 16 linear piezo motor.

The electrostatic ultrasound emitter 17 for influencing the metal mesh 18 is a solid-state plate made of piezoelectric material (quartz, tourmaline, barium titanate, etc.) produced by Russian manufacturers (Aurora-Elma, Volgograd http://avrora-elma.ru) or ( ELLA Zelenograd https://www.elpapiezo.ru).

Diode infrared lasers 12, for example the PL-DFB-760-A-A81 series in a TO-5 package with a central wavelength of 760 nm (https://sphotonics.ru) are installed on a movable rail with the ability to move left and right using two movement modules (linear rolling bearing) 15. The movement is carried out using a linear piezo motor 16, for example, types LL06 and LL10 (www.microprivod.ru).

A hive for combined control of bee varroa works as follows. As daylight progresses, the solar flux increases and the solar panel 8 increases the production of electrical energy. The battery 20 of the control unit 11 is intensively charged. Based on a signal from the timer 21, which is configured depending on the time of year and geographic location, the components and elements of the varroa mite control circuit are turned on.

Based on a signal from the driver 23, diode infrared lasers 12 emit a light and heat flux that falls on bees 13 and varroa mites. Under the influence of heat from diode infrared lasers 12, ticks die and, under the influence of air flow from elastic inserts 9, are shaken off onto a calibrated metal mesh 18 and through it fall onto the sticky surface for recycling ticks 14, which is periodically cleaned.

The electrostatic ultrasound emitter 17 is synchronously turned on, which vibrates the calibrated metal mesh 18 and promotes the movement of the pliers down the landing board 3. The linear piezo motor 16 is also activated, which moves the movable rail with diode infrared lasers 12 left and right at a speed of up to 1.5-2 .0 cm/sec. Moving the diode infrared lasers 12 to the left and right allows for a more even distribution of light and heat flux, which increases the effectiveness of the impact. At the same time, through the elastic inserts 9, an air flow is created to remove dead mites 14 from the body of the bee 13.

This is how a combined fight against bee varroa occurs.

Claims (1)

A hive for combined control of varroatosis of bees, containing a body, a gable roof, a landing board of the upper entrance, a landing board of the lower entrance, an upper entrance opening, a lower entrance opening, a ventilation hole, characterized in that it contains a solar panel, two movement modules in the form of linear rolling bearings with a moving rack, a linear piezo motor, diode infrared lasers, an electrostatic ultrasound emitter, a control unit with a battery and a timer, a calibrated metal mesh, grooves for moving the calibrated metal mesh, with holes in the calibrated metal mesh of at least 2 mm for the free passage of dead ticks varroa, the landing board of the upper entrance is made hollow, in the form of a plastic box of rectangular cross-section with a sticky surface inside for the disposal of dead mites with elastic inserts at the bottom of the board for ventilation and with a window at the top for placing a calibrated metal mesh by means of a groove for moving the calibrated metal mesh, and an electrostatic emitter ultrasound for influencing a metal mesh is made in the form of a solid-state plate made of piezoelectric material, diode infrared lasers are installed on a movable rail with the ability to move left and right through two movement modules using a linear piezoelectric motor, and the solar panel has its “plus” and “minus” output in the control unit it is connected in parallel to a battery and a timer, and the latter is connected to a driver for controlling an electrostatic ultrasound emitter, with a driver for controlling diode infrared lasers and with a driver for controlling a linear piezo motor.