RU2373703C2 - Method of management of bees and transportable apiarian beehive complex for this method - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: suggested method of keeping bees in a transportable beehive complex based on a car trailer is in the fact that each bee family is kept in a separate cell of the body “bar”. During hot summer more favourable conditions of maintaining the temperature are created by intensified ventilation of the nests. During winter, the ventilation openings in the butt walls are closed tightly which stabilises the temperature in the nest as well as conditions for the queen's smells to penetrate from the adjacent cells of the “bar” are created which helps queenless families survive winter. The transportable beehive complex contains body “bars” of the beehive cells installed along the sides and covered on the outside with current-conductive paint and grounded, with round entrances in the front wall of the beehive cell, round ventilation openings in the rear wall, with openings in the partitions of the body covered with a metal network. The complex contains a retractable bottom of the cell, frames of a height of 230 and 300 mm. The distance from the frame to the bottom is 90 mm. The volume of each cell is 0.15 m³.

EFFECT: invention facilitates the apiarist's work as transportation of an apiarian beehive complex can be performed without preliminary preparation and loading-unloading operations, enables a queenless family to spend the winter successfully due to a flow of the queen's smell through the opening in the partitions from the adjacent beehive cell.

9 cl, 2 dwg

Description

The invention relates to beekeeping and can be used in farming, in particular, with year-round keeping of bees in the wild with protection from lightning discharges and an external electromagnetic field, when changing honey sites in the surrounding area during the seasonal period, when transporting an apiary without loading unloading operations.

Closest to the technical nature of the method and device of the claimed invention in a patent search is not defined.

A disadvantage of the known methods of using the pavilions is the only use of a stationary room to fill its space with separate hives, if necessary, transportation of the apiary requires loading and unloading, they do not have protection for the nesting space from lightning discharges and an external electromagnetic field.

The task of the invention is to develop a cost-effective hive complex for year-round keeping of bees and the possibility of efficient transportation without prior preparation.

The essence of the invention is the maintenance of bees in contacting nesting spaces adjacent to one line, with the possibility of adjusting the arrival and departure of bees through the notches, increasing ventilation at elevated temperatures in the summer and during the main bribe, supplying water for brood at minus outside temperature.

Technical result: increasing the efficiency of beekeeping due to the installation of a prefabricated structure with an external conductive grounded surface on a car trailer, including "lines" of hive cells for bee colonies with contacting nest spaces through mesh partitions, with gaps on the outside and ventilation holes on the inside, application automated drinking bowl at sub-zero temperatures to provide bee colonies with water with the necessary therapeutic and food additives through a displaced water pipe on the ceilings of the hive cells.

The essence of the invention is illustrated in figure 1.2. Figure 1 shows 1 - a car trailer M33L, 2 - the outer wall of the hive "line", 3 - the inner wall of the hive "line", 4 - summer, 5 - ventilation hole, 6 - roof cover, 7 - roof (metal sheet), 8 - a metal braid, 9 - a grounding metal pin, 10 - a cell interswitch, 11 - a round hole with a metal mesh, 12 - an interspersion dividing plate, 13 - an end wall with mounting plates 14, 17 - a water pipe, 21 - a heat insulator, 22 - water tank, 23 - BOSH pump, 24 - 12 V battery, 25 - automatic device .

Figure 2 - hive cell with a retractable bottom 15, nesting frames 16, made up of two standard 230 and 300 mm high, a tube 17 with an opening 18 for supplying water to the tissue drive 19, plastic plates 20 to prevent water from spreading, a tube heat insulator 21 .

The outer surface of the "rulers" and end walls is covered with conductive paint. Each front side of the cell is covered with a different color of paint for better orientation of the bees when approaching. Dividing plates 12 are hung between the hive cells to prevent contact of the guard bees.

The hive “rulers” are assembled from a 35-mm floorboard, with inner shell dimensions of 520 × 450 × 630 mm, the inner walls of which are processed according to GOST requirements for the hive, in which the nesting volume of each cell is 0.15 m ³ and includes 14 suspended composite frames of two standard 230 and 300 mm in height to ensure a solid honeycomb surface of each (RF patents No. 2246827 C2, 2242875 C1) and 90 mm space between the bottom surface and the hanging frames. In each cell there are 6 round slots with a diameter of 32 mm and two round openings for through ventilation, closed with a metal mesh. The opening of letlets is performed depending on climatic conditions and the number of bees in the cell. In the upper part of the interspersion partition there is a round hole with a metal mesh for contacting the contacting nesting spaces. The use of beehive "rulers" allows you to save on materials.

When installing this hive complex at a selected location, grounding is performed to protect against external electromagnetic fields and lightning discharges. In summer, a tende is pulled over the hive complex to protect it from rain (not shown in the drawings). Depending on the number of bees in the hive cell, openings for the flying bee and, consequently, on the outside temperature, openings for through ventilation, which are enhanced by the natural draft flow, are opened. On all notches fly-in boards are hung, as well as interspecific dividing plates on the walls of the “rulers”. During the main trick, all openings are open. With an abundant bribe, shops with frames 230 mm high are placed on hive cells (not shown in the drawings). If transportation is necessary, apiaries are closed with nets and transported without unnecessary labor for loading and unloading. When building for the winter, weak families are placed in one hive cell. In winter, the nesting temperature is partially stabilized due to the released thermal energy of the bee colonies with closed openings in the end walls of the trailer, which allows you to successfully change the shape of the club with sudden changes in temperature. Weakened bee colonies, if necessary, compose for winter in one hive cell according to the proven methodological technology in beekeeping. Each hive cell in the “line” in nesting volume is equivalent to a multi-hive hive. Adopted volumetric execution of the hive cell reduces the bee colonies. The whole constructive complex reduces the beekeeper’s labor during apiary work. In early spring, at sub-zero temperatures, heated water (with medical or food additives) is supplied to the case cells in manual or automated mode. The water supplied through the openings in the tubes is collected in tissue storage bounded by plastic plates at the top and bottom to prevent water flow in the nesting space. The pump start-up time for water supply is determined experimentally by saturating the tissue storage before installing the drinker in the hive complex.

Through the round openings of the transverse walls of the nesting spaces of the cells of the “line”, the smell of the queens of adjacent bee colonies penetrates, which allows the bee colony to escape from wintering without casualties in case of accidental unforeseen death of the uterus in winter, as usually happens in such unforeseen cases.

A retractable bottom in each hive cell is used to clean the nest of bottom debris.

Note: when installing the “ruler” on the trailer, the side openings for the lower slots are made in place, and for those above the wheels they are raised higher.

Claims (9)

1. The method of year-round keeping of bees in a transportable apiary hive complex on the basis of a car trailer, including hull "rulers" of hive cells with inter-case air contact of nest spaces, with through ventilation flows in the cells, with protection of the nest space from lightning discharges and an external electromagnetic field, with an automated drinking bowl at sub-zero temperatures, characterized in that each bee colony is kept in a separate hive cell of the hull “line” with an inter-core air contact to penetrate the smell of the uterus from adjacent cells, which creates the conditions for preserving the bee colonies in case of accidental unforeseen death of the uterus in the winter, during the hot summer period by the increased ventilation of the nesting space by the longitudinal draft flows through the space between the “rulers” and the transverse flows through the cells conditions for maintaining the temperature, in winter, the inertia of temperature stabilization is partially reduced due to the released thermal energy by bee colonies at otno closed openings in the end walls of the trailer. 2. A transportable beehive hive complex based on a car trailer includes hull “lines” of hive cells installed on the sides, coated with conductive paint on the outside, using the “ruler” wall as the front wall of the hives, with round notches in the front wall of the hive cell and round ventilation holes in the rear wall, with round holes in the upper part of the inter-shell partitions, closed with a metal mesh, with a retractable bottom, cells closed with a metal sheet on top slipped over podkryshniki connected with a conductive metal braid surface and a grounded metallic pin, each cell cluster volume is 0.15 m ³ and comprises framework 14 hanging composite from standard 230 mm and 300 mm with a 90 mm space between the bottom surface and the outboard frames . 3. A transportable beehive hive complex according to claim 2, characterized in that to the height of the hive, the inner walls of the hull “rulers” are processed according to GOST standards for the inside of the hive. 4. The transportable beehive hive complex according to claim 2, characterized in that in the hot summer period through the ventilation holes in the rear wall of the hive cells nest ventilation is enhanced by the natural draft flow. 5. A transportable beehive hive complex according to claim 2, characterized in that the weakened bee colonies, if necessary, are arranged for winter in one hive cell according to the proven methodological technology in beekeeping. 6. The transportable beehive hive complex according to claim 2, characterized in that the grounding of the external metallized surface of the housing “rulers” with a metal roof protects the nesting space of the cells from the external effects of the electromagnetic field, lightning discharges, electrostatic charges of snowflakes. 7. The transportable beehive hive complex according to claim 2, characterized in that the use of an automated drinking bowl at sub-zero temperatures provides the bee colonies with water with the necessary medical and nutritional supplements. 8. A transportable beehive hive complex according to claim 2, characterized in that each hive cell is equivalent in terms of nesting volume to a multi-hive hive. 9. The transportable beehive hive complex according to claim 2, characterized in that, in case of accidental unforeseen death of one uterus, the intersternal opening in the upper part of the dividing wall creates conditions for penetration of the uterus smell from an adjacent nesting cell and ensures normal wintering of bezelless bees.

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