RU2334393C1 - Aerothermostat for simultaneous exposure over ambient of n-bee colonies - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention can be used for safe wintering of bees, force increase of colonies in prevernal period, disease prevention, stimulation of bees during honey flow and elimination of pathogene environment in beehouses. Aerotheromstat for simultaneous exposure over ambient of n-bee colonies consists of sections made of thermal insulting material, and each section has the body frame. The body frames have orifices for connection with interior space of beehouses. The sections are connected between each other by orifices having air permeable bafflers, which can be replaced by hermetic ones. The air permeable bafflers form an interior space of the same size. Aerothermostat has thermal screened cable passing through all sections, and moisture evaporator consisting of pipeline, it also passing through all sections and has evaporative mechanisms with the opportunity to regulate humidity. The surface reflected thermal emission is placed across from the orifices for connection with interior space of beehouses. The plate for garbage collection from beehouses has a bend in which there is a side hole for heat transfer. Aerothermostat allows combining thermal and chemotherapeutic exposure over bee colonies.

EFFECT: speed increase of the proceeding and energy saving for creation of predetermined microclimate in beehouses.

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Description

The invention relates to beekeeping and can be used to ensure a safe wintering of bees, increase the strength of families in the early spring, for the prevention of diseases, stimulation of bees on honey collection and the destruction of the pathogenic environment in the hives.

Known for the design of the pavilion for wintering bees and building family strength, proposed by Henry Pirker, published in the newspaper "Beekeeping Bulletin" No. 1, 2003, p.4-5.

The design drawback is that it is necessary to use a bulky pavilion (room), which consumes a large amount of electricity for its heating. Heat is distributed unevenly throughout the room and is not used efficiently due to losses through developed surfaces. To maintain the necessary humidity, it is necessary to place pots with water evenly in the pavilion and constantly mix the air to create the same humidity throughout the room. It is not always possible to ensure constant humidity parameters, as the author notes. Humidity is lower near the fan and the brood in a nearby hive has dried up and developed poorly. At the cold walls of the pavilion, moisture falls in the form of dew, humidity reaches 100%, this contributes to the appearance of mold.

Due to the laboriousness, many Russian beekeepers were not able to repeat the experience of their Canadian counterparts, as the editors noted in the preface.

The closest analogue is the Progalsky aerothermostat in the invention “A method for simultaneously influencing the environment of n-families of bees and the Progalsky aerothermostat for its implementation” (patent No. 2275798).

Aerothermostat consists of sections of heat-insulating material, each section contains a housing having openings for connection with the interior of the hives, each section being connected to a similar section using openings having breathable partitions with the possibility of replacing with hermetic ones, and contains a heat shielded cable passing through all sections and configured to control the temperature inside the aerothermostat.

The disadvantage of the well-known Progalsky aerothermostat is that it cannot provide the same set humidity and microclimate parameters in all sections of the aerothermostat without adjusting the shutters of the openings under the hives. It is very laborious to adjust the airflow created by the air conditioner or fan from the first to the last section in such a way as to create a uniform pressure in each hive. When a heat cable passing inside all sections is used (turned on), heat is driven by the fan in the last sections of the aerothermostat during air flow, which can lead to overheating of bees in the last hives and a lack of heat in the first hives from the beginning of the air flow. Ensuring the same environmental parameters in different sections of the aerothermostat due to airflow friction and the length of the aerothermostat can be achieved with a large share of the readings, and the more sections the aerothermostat contains, the greater the deviations from the set environmental parameters.

The technical problem that was posed during the development of this invention is the creation of an aerothermostat for simultaneously influencing the environment of n-families of bees, which ensures the same humidity and temperature inside each hive, as well as the same concentration of processing substances and the same intensity of thermal radiation on the inner space of all hives attached to the aerothermostat, which will ensure the treatment with essential substances of the same concentration in each hive by prolonged exposure effects on bee families, to destroy the spore forms of the pathogen nosematosis, wax moth at all stages of development, varroatosis, ascospherosis and other diseases of bees, to ensure that the frames are processed not only by the air flow of a given temperature, but also by thermal radiation, which increases the speed of the process and saves from 50 % to 80% of electricity.

In addition, when relative humidity is close to 100% when air is supplied to the hives, the bees perceive this as a situation during the rain and do not fly out of the hive. This property of the aerothermostat successfully solves one of the most acute problems of beekeeping. The resulting effect can be used when the fields are treated with pesticides and hybrids, and to prevent the death of bees.

High relative humidity (95%) in early spring prevents the bees from flying out in the cold and contributes, at a temperature (32-34 ° C) under the frames, to build up a large number of bee brood. Larvae develop well with a relative humidity of 85 ÷ 95%, and this allows, even before the first bribe in nature, to grow large and strong bee colonies.

The result is achieved by the fact that the air thermostat for simultaneously affecting the environment of n-families of bees consists of sections of heat-insulating material, each section contains a housing having openings for connecting to the interior of the hives, each section being connected to a similar section using openings having breathable partitions with the possibility of replacing them with hermetic ones, and contains a heat shielded cable passing through all sections, moreover, breathable partitions in each section and, with the possibility of replacing them with hermetic ones, they form internal spaces of the same volume, inside of which there are identical parts and sizes of heat shielded cable, and each section has the same air-permeable openings on the outside for connection with the internal space and contains a moisture evaporator passing through all sections and having evaporation devices of the same performance in each of them with the possibility of regulating humidity, except o, inside each case, on the side opposite from the holes for connecting to the inside of the hive, there is a surface reflecting heat radiation, and the plate for collecting hive debris, located opposite the hole for connecting to the inside of the hive, has a bend in which a side hole is made for the passage of heat flow.

Figure 1 presents a General view of a section of an aerothermostat and a hive mounted on it. Figure 2 is a cross section of an aerothermostat section.

Aerothermostat consists of sections interconnected 1. Beehives are installed on sections 2. Inside the interconnected sections there is a heat cable 3. A moisture evaporator is located in parallel with the heat cable, consisting of a pipeline 4 that supplies water to the evaporation devices 5. The surface 6 reflecting thermal radiation is located from the side opposite from the hole for connection with the interior of the hive. Breathable partitions 7 in each section, with the possibility of replacing them with sealed ones, form internal spaces of the same volume 8. Each section has the same air-permeable openings 9 on the outside for connection with the internal space 8. The plate 10 is designed to prevent hive debris from entering aerothermostat and has a bend in which a side hole is made to direct the heat flow directly under the club of bees.

The operation of the aerothermostat is as follows.

Aerothermostats allow you to process bee families or frames without bees using heat from a heat shielded cable 3. Through openings 9, which have the same throughput in each section 1, cold external air enters the same internal spaces 8. When heated, air rises due to convection, inside the hive 2, and goes through the upper notch, which has the same cross-sectional area in each hive. In each section there is the same part of the heat cable (the same power), heating the same internal spaces 8. According to the conditions indicated above, and the same cross-sectional area of the inlet and outlet openings, the same temperature and speed of the air flow passing inside each section and hive are determined. The moisture evaporator 4 has an evaporation device 5 of the same capacity in each section 1, therefore, the aerothermostat allows for the same humidity and temperature inside each inner space 8 and, accordingly, inside each hive. Evaporative device 5 can treat each bee colony with ethereal substances of the same concentration by prolonged exposure. For example, the use of essential oils (fir, dill, pine, etc.) increases the immunity of bees, has an overwhelming effect on bacteria, fungi, viruses and ticks. Aerothermostat can be equipped with wick type evaporators or ultrasonic fog generators, which are adjusted to a particle size of 20-40 microns, and within a few minutes all frames are treated with a solution diluted in water in a ratio of 1:20.

To disinfect bee honeycombs with nosematosis, honeycombs with feed reserves are placed in free hive bodies and incubated for four to ten days. Using an aerothermostat, the set temperature and humidity is ensured with high accuracy.

Ozone treatment is clean and environmentally friendly. Disinfection is carried out both with gaseous ozone and with ozone dissolved in water. The fungicidal effect of gaseous ozone 35 mg / m ³ was revealed within 12 hours of treatment. The treatment of the frames with ozone dissolved in water is higher in efficiency than with the gas treatment method. The disinfecting property of ozone dissolved in water at a concentration of 50 mg / l is observed at an exposure of 2 hours.

The treatment of families can be carried out both by air and by inhalation through a moisture supply system.

To destroy the wax moth when processing carbon dioxide (CO ₂ ) of the honeycomb, we supply gas to the sections, connecting the gas source to the openings 9, with open doors in the hives, so that air escapes. Then we close the doors. The treatment is much easier and faster than the method described in the book "Dangerous diseases and pests of bees""Niva of Russia", 1992, p.148.

In especially neglected cases, an aerothermostat allows combining the thermal and chemotherapeutic effects on bee families. For several days, air at a temperature of 37-40 ° C, saturated with an aerosol with medicines, for example, an aerosol of coniferous extract, designed specifically for treating bees (is released in Tikhvin, Leningrad Region), is fed into the hives. Bees at 40 ° C in the hive partially get stuck on the front wall of the hive and hang in a bunch. Open cells with honey absorb moisture with the coniferous preparation, and after the temperature drops, the bees return and consume this honey. Recovery occurs at any stage of neglect. The beekeeper does not need to process each family separately. He only pours the required amount of solution into the moisture supply system and sets the temperature with the knob. Processing is carried out automatically, and in each hive the same concentration of processing substances and the same temperature are created with an accuracy of one degree.

Drying honeycombs is carried out in the hives at the same temperature in each hive. The use of sections with surfaces 6 reflecting thermal radiation makes it possible to ensure the processing of the frames not only by the air flow of a given temperature, but also by thermal radiation, which increases the speed of the process and saves from 50% to 80% of electricity. At the same time, it is necessary to remove the plate 10 from the hive, designed to prevent the entry of hive debris into the aerothermostat.

We dry the pollen and bee subpestilence by placing it on pallets in each hive body, maintaining the temperature with high accuracy, up to one degree, due to heat radiation from the same surface area 6, with the same heat shielded cable 3 in each section 1 of the same internal volume 8 . Each pallet with raw materials warms up equally, which ensures high quality of the product.

Aerothermostats are manufactured and tested in the organization Paseka LLC, Veliky Novgorod. For five years, the effect of the aerothermostat on bee families was studied, and the processing of honeycombs and equipment was carried out, starting in 2001. The technical task that was set during the development of the design of the aerothermostat was completely completed.

The predicted results were achieved:

- an aerotherm thermostat allows you to combine the thermal and chemotherapeutic effects on bee families - thermal, controlled with high accuracy, medication inhalation, treatment of bees against diseases is carried out;

- medicines can be used in controlled minimum concentrations - not dangerous for bees, but due to prolonged exposure to effectively destroy the pathogenic environment in the hives;

- the acute problem of beekeeping is solved - a relative humidity set for a certain time, close to 100%, due to the moisture evaporator prevents bees from hives during periods when the fields are treated with pesticides and hybrids, and prevents the death of bees;

- high relative humidity (up to 95%) in the early spring prevents the bees from flying out in the cold, due to heat and moisture, a great strength of families builds up for the first spring bribe;

- reflecting thermal radiation surface 6 increases the processing speed and saves from 50% to 80% of electricity to create a given microclimate in the hives.

Claims (1)

Aerothermostat for simultaneous impact on the environment of n-families of bees, consisting of sections of heat-insulating material, each of which contains a housing having openings for connecting to the interior of the hives, each section being connected to a similar section using openings having breathable partitions with the possibility of replacing them with hermetic ones, and contains a heat shielded cable passing through all sections, characterized in that the breathable partitions in each section are possible By replacing them with hermetic ones, they form internal spaces of the same volume, inside of which there are identical parts and sizes of heat shielded cable, and each section has the same air-permeable openings on the external side for connection with the internal space and contains a moisture evaporator passing through all sections and evaporation devices with the same performance in each of them, with the possibility of regulating humidity, in addition, inside each housing on the side opposite from the openings for connecting to the inside of the hives, there is a surface reflecting heat radiation, and the plate for collecting hive debris, located opposite the opening to connect to the inside of the hive, has a bend in which a side opening is made for passage of heat .

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