RU216215U1 - Thermal module for the treatment of honey bees from varroatosis - Google Patents

Abstract

The utility model relates to agriculture, namely to beekeeping, and is intended to combat varroatosis of honey bees caused by mites. The technical result of the claimed utility model is the expansion of the arsenal of technical means for the treatment of varroatosis by heat treatment due to a removable automated thermal module. The claimed technical result is achieved due to the fact that the thermomodule for the treatment of honey bees from varroatosis consists of a housing in which a mesh grid, a fan, a controller, temperature control sensors with the ability to automatically control and regulate the temperature taking into account temperatures, in the upper and lower parts of the hive , wherein the housing is a removable bottom of the hive with a sliding tray, and the heating source contains a radiator and an expansion tank with a working fluid, equipped with a heating element.

Description

The utility model relates to agriculture, namely to beekeeping, and is intended to combat varroatosis of honey bees caused by the Varroa mite. The prior art device for the treatment of bees against varroatosis (author's certificate No. 985982). The principle of operation of the device is based on a short-term (about 15 min) exposure of bees placed in a mesh cassette to high temperature (43-46°C) and a low-frequency electric field of high intensity. The high temperature induces the mites to leave the body of the bees, and the effect of the electric field provides an increase in the locomotor activity of the bees, which prevents their aggregation (accumulation).

The disadvantage of the method implemented in this device is that the bees must be removed from the hive and reloaded into the cassette. This involves a lot of labor and time. The movement of adult bees from the hive to the cassette and back is also associated with the loss of some of the bees. The removal of bees from the hive (shaking off the combs) is associated with their irritation, which increases the risk of stings for the operator, and large doses of stings are dangerous for human life. With the removal of bees from the hive, loss of the uterus is possible, which leads to a violation of the homeostasis of the bee colony and the suspension of the reproduction of working individuals.

From the prior art, patent No. 2395197 with priority dated May 19, 2008, a safe hive from various pests of bees, in which heat treatment of bees occurs by heating the air inside the hive, characterized in that the air inside the hive is heated using a thermoelectric battery installed on at the bottom of the hive, connected by electrical wires through a thermostat to the power supply unit, above the thermopile there is a metal plate, above which at some distance there is a metal mesh with sections of 3 × 3 mm in size, a mop is placed between the mesh and the plate for cleaning varroa mites that have fallen on it from the plate, and the hive itself is placed on racks 30 cm high from the ground, dielectric glasses are placed between the racks and the bottom of the hive, having the shape of a truncated cone, directed upwards to the bottom of the hive, electrical wires are wound on the racks in one layer with a distance between them of 1.5-3 mm that are connected to the power supply.

The disadvantage of this method of combating varroatosis of honey bees is that it cannot be applied to bees in a normal hive. To combat varroatosis, it is necessary to replace standard hives with a safe hive, which is not practical for existing apiaries.

The closest in its technical essence is a device for therapeutic heat treatment of bees, described in patent No. 2702678 with priority dated April 16, 2018, consisting of a store extension housing in which two zones are made by means of a partition: suction, in which an electric motor with a fan is placed , and discharge, in which heaters and a temperature sensor are installed, while a grid framed according to the size of the hive is installed above the frames, characterized in that the partition is installed parallel to the planes of the frames, while on the grid in the injection zone and in the suction zone there is an air flow distributor , each in the form of a package of grids, having the greatest thickness at the place of the greatest air pressure and a decreasing thickness of the package as the air pressure decreases for the injection zone, as well as the greatest thickness of the package at the place of the greatest rarefaction and decreasing thickness as the vacuum decreases for the suction zone, in addition , at the bottom of the hive under the frames there is a free blown space connecting the discharge and suction zones.

The disadvantage of this device is that the dead mites fall to the bottom of the hive, the cleaning of which is a laborious process. In addition, the zone of heating and distribution of heated air is located at the top, and, as you know, warm air rises from the bottom up, and to ensure uniform heating, this device additionally uses an air flow distributor in the form of a package of grids with different thicknesses, which complicates the design.

The technical problem solved by the creation of the claimed utility model is the uniform and smooth heating and smooth cooling of the club of bees, which are achieved due to the lower location of the thermal module, and the simplicity of the process of removing fallen mites.

The technical result of the claimed utility model is the expansion of the arsenal of technical means for the treatment of varroatosis by heat treatment due to a removable automated thermal module.

The claimed technical result is achieved due to the fact that the thermomodule for the treatment of honey bees from varroatosis consists of a housing in which a mesh grid, a fan, a controller, temperature control sensors with the ability to automatically control and regulate temperature taking into account temperatures, in the upper and lower parts hive, and the body is a removable bottom of the hive with a sliding tray, and the heating source contains a radiator and an expansion tank with a working fluid, equipped with a heating element. The thermal module is designed to be powered from an autonomous power source, which allows it to be used directly in nomadic and stationary apiaries. The thermal module is docked with the hive instead of a removable bottom, which allows for heat treatment directly in the hive and eliminates the process of extracting bees from the hive and placing them in a classic thermal chamber, and then returning the bees back to the hive. In the upper part of the thermomodule, under the frames, there is a 2×2 mm mesh. The size of the grid cell is chosen with the expectation that dead mites fly freely through the grid and fall onto a retractable tray, from which they are easily removed. The supply of heat to the hive from a radiator installed in the lower part of the hive is carried out by convection, which allows you to create a more even distribution of heat over the frames, thus providing warm air between the frames throughout the entire volume of the nest, creating the most favorable conditions for bees in the process of treatment from parasitic mites throughout the hive. The temperature inside the hive is controlled in the upper and lower parts of the hive, which ensures that the temperature regime is not higher than 48°C, which is safe for bees and harmful to mites throughout the entire volume of the hive. A microprocessor-based controller connected to two temperature sensors installed in different places of the hive with the ability to automatically control and regulate the temperature, taking into account temperatures, in the upper and lower parts of the hive. The operation of the device is based on the creation of temperature conditions incompatible with the vital activity of the tick. The thermal method of mite control eliminates the need for chemicals, is an environmentally friendly and more effective method.

The essence of the technical solution is illustrated by a drawing, where the figure 1 shows a hive and a thermal module in a section, a body 1, a mesh 2, a retractable tray 3, a controller 4, temperature control sensors 5, a radiator 6, an expansion tank 7, a fan 8, a hive cover 9, frame 10. Figure 2 shows a hive and a thermal module, body 1, mesh 2, drawer 3, controller 4, hive cover 9.

The thermomodule for treating honey bees from varroatosis, is made with the possibility of being powered from an autonomous power source and consists of a housing 1, in which a mesh mesh 2 is placed, a fan 8, a controller 4, temperature control sensors 5 with the possibility of automatic control and regulation of temperature taking into account temperatures, in the upper and lower parts of the hive, and the body 1 is a removable bottom of the hive with a sliding tray 3, and the heating source contains a radiator 6 and an expansion tank 7 with a working fluid, equipped with a heating element.

The thermal module works as follows: The thermal module is installed instead of the standard hive bottom. Connects to a power source. The program for the treatment of bees from a tick is launched. A heating element, such as a heating element, heats the working fluid in the expansion tank 7. The radiator 6 heats the hive to 48°C. At the same time, the fan 8 starts to work. When the set temperature level is reached, the heating element is turned off due to the operation of the controller 4. The radiator 6 is switched on again after the temperature drops by 5% or to 45.5°C. When the temperature reaches 48°C in the upper part of the hive, the temperature sensor 5 sends a signal to the controller 4 and the heating element turns off. The supply of heat to the hive from the radiator 4 installed in the lower part of the hive is carried out by convection, which allows you to create a more uniform distribution of heat over the frames 10 with bees, thus providing warm air blowing between the frames 10 throughout the volume of the nest, creating the most favorable conditions for the bees in the process of treatment from parasitic mites throughout the hive. For uniformity of the temperature field inside the hive, the thermomodule is equipped with a fan 8. Dead mites fall through the 2 mesh mesh and fall onto the 3 retractable tray, from the surface of which they can be easily removed.

Claims (1)

The thermomodule for the treatment of honey bees from varroatosis is made with the possibility of being powered from an autonomous power source and consists of a housing in which a mesh grid, a fan, a controller, temperature control sensors with the ability to automatically control and regulate the temperature, taking into account the temperatures in the upper and lower parts of the hive, characterized in that the housing is a removable hive bottom with a sliding tray, and the heating source contains a radiator and an expansion tank with a working fluid, equipped with a heating element.

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