RU2146443C1 - Beehouse - Google Patents

Abstract

FIELD: apiculture. SUBSTANCE: beehouse has part positioned below roof and defined by set of bars rectangular in plan. Bars are oriented with their long sides in parallel with side walls of mentioned part of beehouse. Additional bee-entrance is made in front wall of nest, and hole with stopper is positioned in rear wall of bottom casing. Cover for bottom casing is secured to its front wall by detachable pivotal connections and is provided with poles pivotally joined to these connections and fastened in bottom of detachable bottom casing of beehouse. EFFECT: increased efficiency by improved microclimate within bee nest and increased honey yield. 70 cl, 14 dwg

Description

 The invention relates to beekeeping, namely to the construction of the hive, and can be used for the construction of artificial dwellings for bees.

 One of the main agricultural practices to increase productivity by 70.. .140% is pollination by bees of crops and the profit from pollination exceeds the profit from the sale of bee products by 10 ... 12 times. This emphasizes the importance of the development of beekeeping. At the same time, it is known that a bee has more than 50 diseases, which negatively affects the whole beekeeping industry.

 An analysis of existing measures to combat bee diseases showed that the most important condition is the creation of such an artificial housing (hive) design for bees that best provides the biological needs and capabilities of the bee family and thereby minimizes the possibility of the spread of diseases. This is due to the fact that any imbalance in the biological needs of bees leads to weakening of the bee family (due to the need for bees to spend energy irrationally) and, as a result of this, leads to the development of bee diseases. So hypothermia in the winter leads to freezing of bees and to a reduction in their numbers. Lack of food in winter also reduces the size of the bee family. The reduction in the number of bee families leads to its weakening and to increase the likelihood of the disease.

 Another feature of developing the design of the hive relates to achieving the highest productivity of the bee family. It was established by experiments that a bee family weighing 6 kg in 2 weeks collected honey by 50% more than 4 bee families weighing 1.5 kg each. Three bee colonies weighing 3.5 kg, 4.5 kg and 7 kg made it possible to determine productivity based on the calculation per 1 kg of bees. So the bee family weighing 4.5 kg collected honey 35% more than the 3.5 kg family and 60% more than the 7 kg family. Thus, it was found that for productive beekeeping it is necessary to create bee colonies up to 6 kg.

 The multi-case is known as the Langstroth hive (analogue, see IA Shabarshov, Beekeeping, pp. 57-64), which includes cases with honeycomb frames, a bottom, a roof, and a taupe.

 The well-known hive of the Dadan system (adopted as a prototype, I. A. Shabarshov, Beekeeping, pp. 64-65), containing a nest housing made in the form of a rectangular parallelepiped with side, rear and front walls, honeycomb frames placed in the nest housing and oriented with its planes parallel to its side walls, an arrival board, an apron made in the form of a rectangular parallelepiped with side, rear, front walls and with a roof and a ceiling placed at its ends, respectively, a bottom body made in de rectangular parallelepiped with side, rear, front walls, with a ceiling and a bottom placed at its ends, ventilation holes made in the underbody, the main notch made in the front wall of the bottom body.

 The disadvantage of the known technical solutions in the hives of the Dadan and Langstroth systems is the accumulation and freezing of moisture at the bottom in the winter, which negatively affects the wintering of bees. So during the ventilation of these hives in the winter, fresh air enters the hive through the letok and part of it, heating and moistening in the nest, penetrates through the breathable overlap in the roof cover, taking moisture and heat from the nest. At the same time, the upper insulation is moistened and loses its insulating properties, which contributes to the penetration of cold air from the roof liner. As a result, the cooled moist air along the back wall of the hive flows to the bottom and leads to the accumulation of moisture and its freezing.

 The technical problem solved by the claimed hive is to improve the microclimate of the bee nest in the hive and increase honey collection.

 The specified technical problem is solved in that in a known hive containing a nest housing made in the form of a rectangular parallelepiped with side, rear and front walls, honeycomb frames placed in the nest housing and oriented with their planes parallel to its side walls, an arrival board, a roof cover made in the form of a rectangular parallelepiped with side, rear, frontal walls and with a roof and a ceiling placed at its ends, respectively, a bottom body made in the form of a rectangular a skeleton box with side, rear, front walls, with a ceiling and a bottom placed at its ends, ventilation holes made in the roof cover and the bottom body, the main notch made in the front wall of the bottom body, according to the invention, the roof cover is made of a set of rectangular bars in plan oriented along the long sides parallel to the side walls of the roof cover, an additional notch is made in the front wall of the nesting housing, and technologically rd hatch with a cover, wherein the overlapping bottom sealed housing with its front wall a releasable hinge connection is provided with struts pivotally fastened to it and resting on the bottom of bottom housing adapted removable.

 Private signs characterizing the hive.

 The main notch is made rectangular and equal in width to the front wall of the bottom body, and the additional notch is in the form of a circular hole located in the middle of the width of the front wall of the nesting body, while the width of the main notch is 9 ... 11 mm and the diameter of the additional notch is 35 ... 45 mm, and the distance between their centers is 210 ... 220 mm.

 The height of the underwing in the internal size is 100 ... 140 mm.

 The beehive is equipped with a store extension made in the form of a rectangular parallelepiped with side, rear and front walls, located between the nest housing and the roof liner, and with store honeycomb frames, while the height of the store extension in internal size is 235 ... 245 mm.

 The height in terms of internal size is: socket housing - 400 ... 430 mm; bottom body - 230 ... 270 mm.

 The ventilation openings are made in the rear and in the front walls of the armpit and in the side walls of the bottom body in the form of rectangular slots. The ventilation openings in the front walls of the armpit on the outer surface of each wall are made in the form of 12 rectangular slots with a size of 100x3 mm. The ventilation holes in the side walls of the bottom body are made in the form of a single slit of a rectangular shape with a size of 40x3 mm. Each slit on the front wall of the armpit and on the side wall of the bottom body is made with an inclination in the downward direction, while the angle of inclination of each gap is 14 ... 16 degrees.

 Overlapping of the bottom hull is installed with a slope towards the main notch and flush with it, the slope is 0.008 ... 0.02.

 The roof bars of the roof liner are mounted without a gap between their long sides, while quarters are made on the long sides of the ceiling bars.

 The bars of the ceiling of the roof cover are installed with a gap between their long sides, the value of which is 1 ... 4 mm.

 The nest housing is equipped with two protective screens, each installed between the side wall and the honeycomb frame with a gap between the protective screen and the side wall of 1. ..7 mm (in the summer season) and a gap of 10 ... 100 mm (in the winter season).

 The dimensions of the honeycomb frames installed in the nest housing are 435. ..325 mm along the inner contour, and they are oriented in the 325 mm nest housing along the side walls of the housing, and the gap between their lower ends and the overlapping of the bottom housing is at the rear wall of the nest housing is 14 ... 16 mm and 19 ... 21 mm at the front wall.

 Cell frames are installed in the nesting case with a gap between their lower ends and the bottom of the bottom body, while the gap between the lower ends of the honeycomb frames and the bottom of the bottom body is 230 ... 270 mm.

 The walls of the nesting housing, the roof cover, the bottom housing and the store extension, as well as the roof of the roof cover and the bottom of the bottom housing are made of three-layer panels. The thickness of the three-layer panels is 90 ... 110 mm, while the thickness of the outer layer of fiberglass panels is 0.3 ... 2 mm, the thickness of the inner layer of wood is 9 ... 11 mm, and the thickness of the intermediate layer of foam is 80 .. .97 mm.

 In the technological plug of the bottom shell, two holes with flanges are made on the outside of the outside surface of the hole. In the bottom of the bottom body, from the side oriented inward to the hive, two holes with flanges are also made at the outer surface of the hole. The holes in the bottom of the bottom body are plugged with plugs. The technological plug of the bottom shell is made of a rectangular shape with dimensions of 600x180 mm.

 The hive is equipped with a mite-pollen-swarm-catcher, made integrally with the arrival board and mounted on the outside of the nest housing, fastened with it, and the upper plane of the arrival board is aligned with the lower edge of the main slit-shaped notch.

 The mite-pollen-swarm-trap is equipped with a filter grate oriented parallel to the front wall of the nest housing and installed with a gap between them of 40.. .50 mm, while in the filter grate there is a through rectangular hole with dimensions 13x35 mm. A black case is inserted into the rectangular hole, placed on the arrival board and protruding beyond its dimensions. In the filter grate there are made circular holes with flats oriented upwards, placed in 5 longitudinal rows and in 36 vertical rows. Circular holes with a flat in the filter grate are made with a diameter of 4.9 ... 5.1 mm and a distance to the flat of 4.2 ... 4.4 mm. Under each longitudinal row of holes on both sides of the filter grate, trapezoidal ribs are made with corrugated surfaces and a trapezoid height of 4.9 ... 5.1, fastened to the grate by a large base, the value of which is 2.7. ..3.1 mm, and the smaller base 1 ... 1.5 mm. The filter grate is installed in a mite-pollen-swarm-trap with the possibility of horizontal displacement and fixation in a predetermined position by means of an abutment and is made of polyethylene with a thickness of 1.9 ... 2.1 mm in white.

 The mite-pollen-swarm-trap is equipped with a Hahnemannian grating, oriented parallel to the front wall of the nest housing and placed in front of the filter grate with a gap between them of 40 ... 50 mm, with an additional black pencil case placed between them and with gaps between the Hahnemann grate and the end of the case, equal to 10 ... 15 mm.

 The mite-pollen-swarm-trap is equipped with two trough-shaped containers located on both sides of the filter grate and under the arrival plate, while in the arrival board above the containers holes are made which form the grid and end walls are rigidly fastened with it and placed in the gap between the front the wall of the nest housing and him.

 In the nest case there are 15 honeycombs for the summer season and 10 honeycombs for the winter season, and 15 honeycombs are placed in the store extension.

 On the outside, the corners of the nesting housing, the roof cover, the store extension and the bottom housing are rounded with radiuses of 55 ... 65 mm.

 The bottom body is made integrally with the supporting element on a horizontal surface, while the supporting elements are made in the form of four risers 25 ... 45 mm long.

 The ends of the contacting walls of the nesting housing, the roof cover and the magazine case are made stepwise, while the step size of the contacting ends of the walls of the nesting housing, the roof covering and the magazine case is 5 ... 40 mm.

 In FIG. 1 shows a general view of the hive in isometric view; in FIG. 2 is a section AA of FIG. 1, parallel to the front walls of a hive equipped for summer keeping of bees; in FIG. 3 is a similar section as in FIG. 2, but for winter keeping of bees; in FIG. 4 shows the overlapping of the bottom shell; in FIG. 5 shows the frame of the socket housing; in FIG. 6 shows the dimensions of the wall of the nesting housing, the roof liner, the store extension, the bottom housing and the bottom; in FIG. 7 shows a section of a beehive in a configuration for winter keeping of bees along a plane parallel to the side walls; in FIG. 8 shows the bottom body with the technological plug removed and the process of removing the bottom of the bottom body for cleaning is conventionally shown; in FIG. 9 shows the bottom case with the technological plug removed and conventionally shows the process of extending the overlap of the bottom case during the conversion of the hive for winter keeping of bees; in FIG. 10 shows a front view of a tick-pollen-swarm-trap; in FIG. 11 shows an opening for the passage of the bees in the filter grate; in FIG. 12 shows a section BB of FIG. 10 without the Hahnemann lattice and with a pencil case for the passage of drones; in FIG. 13 shows a section through a filter grate with a platform for improving the passage of a bee in a filter grate; in FIG. 14 is a section BB of FIG. 10 with the Hahnemann lattice and with an additional (swarm) pencil case.

 A specific example of a hive.

 The main nodes of the hive in FIG. 1 are shown in Roman numerals. The hive (Fig. 1) consists of the nest building I, the honeycomb frames II, the roof cover III, the bottom housing IV (in the present embodiment, the bottom housing is made integrally with the nest housing and is conditionally represented as its part from the bottom cut of the nesting frames down to the bottom), store extension V, honeycomb frames of the VI store extension and pollen-pollen-swarm-catcher VII.

 The nest housing is made in the form of a rectangular parallelepiped with side 1 (Fig. 2), rear 2 and front 3 (Fig. 7) walls and contains an arrival board 4 (Fig. 1). Cell frames placed in the nest and store cases are oriented by their planes parallel to its side walls (Fig. 1, 2). The roof liner is made in the form of a rectangular parallelepiped with side 5 (Fig. 2, 3), rear 6 and front 7 (Fig. 7) walls and a roof 8. Ceiling boards 9 are made of a set of rectangular bars in plan (Fig. 2, 3, 7). The bottom body (in the present case, the bottom body is made integrally with the nest body and is conditionally represented as its part from the lower cut of the nest frames down to the bottom), made in the form of a rectangular parallelepiped with side, rear and front walls, which are a continuation of the corresponding walls of the nest case, with the overlap 10 and the bottom 11 (Fig. 2, 3 and 4). Ventilation openings 12 (Fig. 2, 7) are made in the underbody, and ventilation openings 13 (Fig. 2, 3) are in the bottom housing. In the front wall of the nest housing, the main notch 14 is made (Fig. 4, 7). The bars 9 (Fig. 2) of the ceiling are oriented with the long sides parallel to the side walls of the roof liner. In the frontal 3 wall of the nesting housing, an additional (biological) notch 15 (Fig. 2, 4, 7) is made, and in the rear wall of the bottom housing there is a process hatch 16 (Fig. 4) with a plug 17 (Fig. 2, 4, 7) . The overlap 10 (Fig. 2, 4) of the bottom body is fastened to its front wall by a detachable swivel joint 18 (Fig. 4), equipped with struts 19 (Fig. 2, 4), articulated with it and resting on the bottom 11 (Fig. 2 , 4) the bottom body, which is made removable (Fig. 8).

 The main summer 14 (Fig. 2, 4, 7) is made of a rectangular shape with a length of a = 245.. .255 mm (Fig. 2) and a height b = 9 ... 11 mm (Fig. 7) on the front wall of the socket housing. The sizes are selected based on the biological characteristics of the bees, ensuring their free passage. Additional (biological) letok 15 (Fig. 4, 7), made in the form of a circular hole with a diameter of d = 35. . . 45 mm, placed in the middle of the width of the front wall of the nesting housing. The distance between the center of the main notch and the additional is L = 210. . . 220 mm (Fig. 7). The distance L is selected based on experimental data for the selected design of the nesting frames. In the experiment, a longitudinal cut was made in the center of the frontal wall of the nest housing, which was covered with bees (bee glue) in a fairly short time, while with constant persistence, the bees left an additional notch in the indicated place, ensuring their biological need.

 The height of the armpit according to the internal size was obtained from operating experience h = 100.. .140 mm (Fig. 7) and due to the need to create, together with a system of ventilation holes, the most favorable temperature and humidity conditions in the hive.

The beehive is equipped with a store extension V (Fig. 1), made in the form of a rectangular parallelepiped with side, rear and front walls, located between the nest housing I and the roof cover III, and with honeycomb frames, while the height of the store case in internal size is h ₁ = 235 ... 245 mm (Fig. 2) and is due to the necessary volume of the nest for the bee family during the honey collection period, which ensures the greatest accumulation of honey.

The height according to the internal size of the nest housing is H = 400 ... 430 mm (Fig. 7), and the bottom housing is H ₁ = 230 ... 270 mm, while the conditional dividing line between the nest and the bottom housing runs along the main notch. The heights H and H _{1 of the} nesting and bottom bodies are selected from the condition of the most favorable bee keeping based on observations and experiments. So, the selected height H of the nesting enclosure provides sufficient honey accumulation for wintering of the bee family and its favorable distribution, taking into account the biology of the bee, which in aggregate does not require feeding the bee family for the winter period. This imitates the natural habitat of bees in the hollows, corresponding to their biological need for the movement of the bee club up as honey is eaten in the winter. The height of the bottom of the hull is due to the presence of the necessary gap between the club of bees in winter and the ventilation hole 13 (Fig. 3, 7). This gap allows the air in the bottom housing to mix with the incoming air from the outside and eliminates direct contact of the outside air with the club of bees during wintering, providing a temperature and humidity regime close to the natural conditions in the hollows.

Ventilation holes are made in the rear and in the front walls of the armpit and in the side walls of the bottom body IV (Fig. 1) in the form of slots of a rectangular shape. The ventilation openings in the rear, in the front walls of the armpit are made on the outer surface of each wall in the form of 12 rectangular slots with a size of 100x3 mm. The ventilation holes in the side walls of the bottom housing IV (Fig. 1) are made in the form of four slots of a rectangular shape with a size of 40x3 mm. A slot height of 3 mm prevents the penetration of small rodents into the hive. Each slit on the front wall of the armpit and on the side wall of the bottom body is connected to a channel made with an inclination in the downward direction, while the angle of inclination of each channel is A = 14 ^o . . .16 ^o (Fig. 2). The inclination of the channel of the ventilation openings is necessary to protect the internal volume of the hive from the ingress of rain moisture. The number and size of ventilation openings in the roof liner is determined from the condition of the summer keeping of bees, since for winter keeping the bees the air flow is regulated by the openings in the ceiling boards (not shown in the figures), and for winter keeping a part of the ventilation openings in the roof liner is covered with plugs. The number of ventilation openings in the bottom housing and their sizes are calculated from the conditions of winter keeping of bees. The location of the ventilation holes (in the bottom housing on the side walls, and in the roof cover on the rear and front walls) provides the most equal supply of air to the inner areas of the hive.

 Overlap 10 (Fig. 4) of the bottom hull is installed with a slope towards the main notch, creating a gap C = 19 ... 21 mm between its plane and the lower cut of the frames of the nesting hull in the region of the main notch, and in the region of the back wall this gap D will be 14 ... 16 mm. This ensures the passage of bees along the entire plane of overlapping and at the same time, because of its smallness, does not create a condition for the creation of stocks of honey in this area by bees. At the same time, the slope contributes to the natural direction for the bees to remove garbage from the hive by them.

 Ceiling bars 9 (Fig. 2, 3, 7) in winter are installed without a gap between their long sides, while on the long sides of the ceiling bars are made quarters. In the winter period, the bars are laid tightly to each other and separate the volume of the nesting body from the volume of the roof cover. Air passage is provided through openings in two extreme ceiling bars located along the side walls of the hive (not shown in the figures).

 Ceiling bars 9 in the summer are installed with a gap between their long sides due to their sliding after removing one board, and the gap is E = 1 ... 4 mm, chosen from the condition that the bee cannot pass from the nesting body into the roof space of the roof.

 The nest housing is equipped with two protective shields 20 (Fig. 2, 3), each installed between the side wall and the honeycomb frame with a gap between the protective screen and the side wall. In the summer, when the store case is completely covered with honeycomb frames, a protective screen is installed with a gap of 1. ..4 mm between the side walls of the hive and makes it easier to inspect these frames. This is achieved by first removing the protective screen and thereby providing a convenient approach to the honeycomb frames (it is possible to push them apart, which is especially important since the frames are glued by bees from the properties of their biological needs). In the winter period (Fig. 3), the protective screen plays the role of additional thermal insulation due to the possibility of installing them tightly to the nesting frames left for the winter keeping of bees.

 The frame sizes S = 425 ... 435 and T = 325 ... 335 (Fig. 5), selected from experience with bees from the condition of the minimum necessary sufficiency of honey reserves for keeping bees in winter without feeding.

 The walls of the nesting housing, the roof cover, the bottom housing and the store extension, as well as the roof of the roof cover and the bottom of the bottom housing are made of three-layer panels. The thickness of the three-layer panels (Fig. 6) is F = 90 ... 110 mm, while the thickness of the outer layer of fiberglass panels is K = 0.3. ..2 mm, the thickness of the inner layer of wood is G = 9 ... 11 mm, and the thickness of the intermediate layer of foam is P = 80 ... 97 mm. The thickness of the three-layer panel provides optimal heat consumption when the bees maintain the temperature and humidity conditions in the club and in the hive, which is selected from the thermal calculation. (The average outdoor temperature of the coldest five-day period, SNiP II-A.6-72: -38 degrees C, Ulan-Ude and -25 degrees C, Moscow, was selected as the calculated outdoor temperature. The calculated heat dissipations of the club are 15, 20, 25 W. The calculated surface temperature of the club is 8 degrees C. The club is located in the center of the nest. The diameter of the club is 300 mm).

 In the plug 17 of the bottom of the housing from the outside there are two holes 21 (Fig. 4) of 35 ... 45 mm each with flanges at the outer surface of the hole. In the bottom of the bottom shell from the side oriented inward to the hive, two holes 22 (Fig. 4) of 35 ... 45 mm each with flanges at the outer surface of the hole are also made. The holes in the bottom of the bottom body are closed with wooden corks 23. The holes are used to remove both the plug 17 and the bottom 11 of the bottom body. The fingers of the beekeeper’s hands are drawn into these holes and thereby their retention and removal is possible. The bottom excavation process is shown in FIG. 8. The technological hatch 16 of the bottom body is made of a rectangular shape with dimensions of 600 x 180, which ensures the beekeeper's hands pass into the bottom body and the bottom itself. The overlap exhibit 10 is shown in FIG. nine.

 The hive is equipped with a mite-pollen-swarm-catcher VII (Fig. 1), made integrally with the arrival board 26 (Figs. 10, 12, 14) and mounted on the outside of the nest housing, attached to it, and the upper plane of the arrival board is aligned with the lower edge of the main slit-like notch.

The tick-pollen-catcher (Fig. 10) is equipped with a filter grate 24 oriented parallel to the front wall of the nest housing and installed with a gap between them L ₁ = 40 ... 50 mm (Fig. 12), while in the filter grate it is made a through rectangular hole with a width of B = 35 mm (Fig. 10) and a height of Z = 13 mm (Fig. 12). A pencil case 25 (Fig. 12) of black color is inserted into the rectangular hole, placed on the arrival board 26 and protruding beyond its dimensions. In the filter grate 24 (Fig. 10, 12, 14), through circular holes are made with flats facing up, placed in five longitudinal rows and in 36 vertical columns. Circular holes with a flat in the filter grate are made with a diameter of D ₁ = 4.9 ... 5.1 mm and a distance to the flat of C ₁ = 4.2 ... 4.4 mm (Fig. 11). Under each longitudinal row of holes on both sides of the filter grate, trapezoidal ribs are made with corrugated surfaces and a trapezoid height H ₂ = 3.8 ... 4.1 (Fig. 13), fastened to the grate by a large base, the value of which is l ₁ = 2, 7 ... 3.1 mm, and the smaller base has a size l ₂ = 1 ... 1.5 mm.

The mite-pollen-catcher is equipped with a Hahnemannian grate oriented parallel to the front wall of the nest housing and placed in front of the filter grate with a gap between them L ₂ = 40 ... 50 mm (Fig. 14), while instead of the pencil case 26 (Fig. 12 ) black color there is an additional (swarm) pencil case of black color with a gap between the Hahnemann lattice and the end face of the pencil case equal to Δ = 10 ... 15 mm (Fig. 14). The experience of the beekeeper allows you to determine the time of swarming. Anticipating the moment the swarm leaves, the beekeeper sets up the Hahnemann lattice and a white pencil case. Thus, the beekeeper creates artificial conditions that facilitate the exit of the uterus from the hive into the space between the filtering and Hahnemannian gratings, and thereby organizes space to accommodate the newly formed swarm of bees, saving the beekeeper the strength and time to capture the swarm of the bee family.

 The mite-pollen-sweeper-collector is equipped with two trough-shaped containers 29 (Fig. 12, 14) located on both sides of the filter grate, and under the intake board, while holes in the intake board above the containers are formed to form the grate. The container in front of the filter grate is designed to collect pollen, which is discharged from the bee’s body when it passes through the hole in the filter grate from the outside to the hive. The second tank is designed to collect parasites that are discharged from the body of a bee when it passes through an opening in the filter grate from the hive into open air. Parasites (ticks) during a bribe by a bee when approaching the hive move to the most convenient place for themselves - the cervical region of the bee. Observations of the behavior of bees showed that the tick does not have time to occupy a comfortable position during the flight of the bee. The process of movement of the tick to the cervical region of the bee is mainly observed while the bee is in the hive and ends by the time it leaves the hive. Due to the shape of the hole (a circular hole with a flat at the top), a tick (which managed to accommodate in the cervical area of the bee) is mechanically exposed and discharged into the container.

 The filter grate is installed in a mite-pollen-swarm-trap with the possibility of displacement in the horizontal direction and fixation in a predetermined position (not shown in the figures).

The filter grate is made of polyethylene with a thickness of S ₁ = 1.9 ... 2.1 mm (Fig. 13) white.

 The nest housing houses 15 honeycombs for the summer season and 10 honeycombs for the winter season. The store extension has 15 honeycombs. The size of the frames and their number determines the most efficient use of the bee family for honey collection and creates a favorable condition for keeping bees in the winter. So the size of the nesting frames S = 425 ... 435 mm and T = 325 ... 335 mm (Fig. 5) and their number (10 pcs. For winter keeping) are selected from experience with bees from the condition of minimum required supply honey for keeping bees in winter without top dressing.

 On the outside, the corners of the nesting housing, the roof liner, the store extension and the bottom housing are rounded with radiuses of 55 ... 65 mm (not shown in the figures). During operation of the hive with the indicated roundings, a decrease in the likelihood of mold inside the hive was noted.

 In the lower part of the bottom body there are supporting struts 25 ... 45 mm high for installing the hive (not shown in the figures).

 The ends of the contacting walls of the nesting housing, the roof liner and the magazine case are made stepwise. The size of the step of the contacting ends of the walls of the nesting housing, the roof liner, magazine extension and the bottom housing is 5.. . 40 mm (not shown in the figures). This prevents their displacement relative to each other and the penetration of moisture.

 Due to the designated size of the nesting frame (Fig. 5), in the winter period the club of bees approaches the shape of a ball, which allows the bees to spend heat economically. Also, these frame sizes eliminate the need for spring dressing, which always causes infection. In summer, the hive is loaded with two swarms with a total weight of 5 ... 5.5 kg. The experience of operating the hive showed that during May-June all 15 nesting and 14 store frames were completely rebuilt, filled with honey and perga, and managed to give 3 generations during the season. No disease was observed.

 The implementation of the side, rear and front walls, as well as the roof cover and the bottom of the three-layer panel made it possible to lighten the hull and at the same time ensure the wintering of bees without placing the hive in the winter house.

 Under normal weather conditions and a good food base, the design of the hive allows you to get marketable honey 80 kg, pollen 15 kg, propolis 0.2 ... 0.3 kg. The hive was tested in the Moscow region - Silver Ponds, although weather conditions were below normal. The test results in the Tula region were within the calculated data, although the feed base, as you know, is not quite normal, not to mention the abnormal ecology. The scope of the hive is the areas where the free-flight period lasts 5 months or more.

Claims (71)

 1. A beehive containing a nesting housing made in the form of a rectangular parallelepiped with side, rear and frontal walls, honeycomb frames placed in the nesting housing and oriented with their planes parallel to its side walls, an arrival board, a roof liner made in the form of a rectangular parallelepiped with lateral, rear, front walls and with a roof and ceiling placed at its ends, respectively, a bottom body made in the form of a rectangular parallelepiped with side, rear, front walls, with placed at its ends by a slab and a bottom, ventilation holes made in the roof cover and the bottom body, the main notch made in the front wall of the bottom body, characterized in that the roof of the roof cover is made of a set of rectangular bars in plan, oriented long sides parallel to the side walls of the roof cover, an additional tap hole is made in the front wall of the nesting housing, and a technological hatch with a plug is made in the rear wall of the bottom housing, with the overlapping of the bottom housing with replays with its front wall is detachably pivotal connection and is provided with struts pivotally fastened to it and resting on the bottom of the housing bottom, which is removable.  2. The hive according to claim 1, characterized in that the main notch is made in a rectangular shape, and the additional notch is in the form of a circular hole located in the middle of the width of the front wall of the nest housing.  3. The hive according to one of claims 1 or 2, characterized in that the length of the main notch is 245 - 255 mm, its height is 9 - 11 mm, and the diameter of the additional notch is 35 - 45 mm, and the distance between their centers is 210 - 220 mm  4. The beehive according to claim 1, characterized in that the height of the armpit in terms of internal size is 100-140 mm.  5. The hive according to claim 1, characterized in that it is equipped with a store extension made in the form of a rectangular parallelepiped with side, rear and front walls, located between the nest housing and the roof liner, and with store honeycomb frames, while the height of the store extension on the inside the size is 235 - 245 mm.  6. A beehive according to claim 1, characterized in that the height of the nesting body in terms of internal size is 400-430 mm.  7. The hive according to claim 1, characterized in that the height of the bottom body according to the internal size is 230 - 270 mm.  8. The hive according to claim 1, characterized in that the ventilation holes are made in the rear and in the front walls of the roof liner.  9. The hive according to claim 1, characterized in that the ventilation holes are made in the side walls of the bottom body.  10. Beehive according to one of claims 1 or 8, characterized in that the ventilation holes in the front walls of the roof cover are made in the form of slots of a rectangular shape.  11. The hive according to one of claims 1 or 9, characterized in that the ventilation holes in the side walls of the bottom body are made in the form of slots of a rectangular shape.  12. The hive according to one of claims 1, 8 or 10, characterized in that the ventilation holes in the rear and in the front walls of the roof cover are made on the outer surface in the form of rectangular slots with a size of 100 x 3 mm.  13. The hive according to one of claims 1, 9 or 11, characterized in that the ventilation holes in the side walls of the bottom body are made in the form of rectangular slots with a size of 40 x 3 mm.  14. Beehive according to one of claims 1, 8, 10 or 12, characterized in that 12 slots are made in the rear and in the front walls of the underwing.  15. The hive according to one of claims 1, 9, 11 or 13, characterized in that four slots are made in each side wall of the bottom body.  16. A beehive according to one of claims 1, 8, 10, 12 or 14, characterized in that each gap in the front wall of the roof cover is made with a downward inclination.  17. A beehive according to one of claims 1, 9, 11, 13 or 15, characterized in that each slot in the side wall of the bottom body is made with an inclination downward. 18. The hive according to one of paragraphs.1, 8, 10, 12, 14 or 16, characterized in that the angle of inclination of each gap in the front wall of the roof cover is 14 - 16 ^o . 19. The hive according to one of claims 1, 9, 11, 13, 15 or 17, characterized in that the angle of inclination of each gap in the side wall of the bottom body is 14 - 16 ^o .  20. The hive according to claim 1, characterized in that the overlapping of the bottom body has a slope towards the main notch and flush with it.  21. The hive according to one of claims 1 or 20, characterized in that the slope of the overlapping of the bottom shell is 0.008 - 0.02.  22. The hive according to claim 1, characterized in that the bars of the ceiling of the roof cover are installed without a gap between their long sides.  23. The hive according to claim 1, characterized in that the bars of the ceiling of the roof cover are installed with a gap between their long sides.  24. The hive according to one of claims 1 or 23, characterized in that the gap between the long sides of the bars of the ceiling of the roof cover is 1 to 4 mm.  25. The hive according to claim 1, characterized in that quarters are made on the long sides of the ceiling bars.  26. The hive according to claim 1, characterized in that the nest housing is equipped with protective shields.  27. The hive according to claim 1 or 26, characterized in that there are two protective shields.  28. A hive according to one of claims 1, 26 or 27, characterized in that the protective screens are each installed between the side wall and the honeycomb frame.  29. A beehive according to one of claims 1, 26, 27 or 28, characterized in that the gap between the protective screen and the side wall is 1 to 4 mm.  30. A beehive according to one of claims 1, 26, 27 or 28, characterized in that the gap between the protective screen and the honeycomb frame is 1 to 4 mm.  31. The hive according to claim 1, characterized in that the sizes of the honeycomb frames installed in the nest housing along the inner contour are 425 - 435 mm in the vertical and 325 - 335 mm in the horizontal direction.  32. The hive according to claim 1 or 31, characterized in that the honeycomb frames are oriented in a nest housing of 430 mm in size along the side walls of the hive.  33. A beehive according to one of claims 1, 31 or 32, characterized in that the honeycomb frames are installed in the nest housing with a gap between their lower laths and the overlapping of the bottom housing.  34. The hive according to one of claims 1, 31 or 33, characterized in that the gap between the honeycomb frame and the overlapping of the bottom housing at the rear wall of the nesting housing is 14-16 mm and 19-21 mm at the front wall.  35. A beehive according to one of claims 1, 31 or 32, characterized in that the honeycomb frames are installed in the nest housing with a gap between their lower laths and the bottom of the bottom body.  36. A hive according to one of claims 1, 31, 32 or 35, characterized in that the gap between the lower ends of the honeycomb frames and the bottom of the bottom body is 230 - 270 mm.  37. The beehive according to claim 1, characterized in that the walls of the nesting housing, the underbody, the bottom housing and the store extension, as well as the roof of the underwing and the bottom of the bottom housing are made of three-layer panels.  38. The hive according to claim 1 or 37, characterized in that the thickness of the three-layer panels is 90 - 110 mm.  39. The hive according to one of claims 1, 37 or 38, characterized in that one of the outer layers of the panels is made of fiberglass, and its thickness is 0.3 - 2 mm.  40. A beehive according to one of claims 1, 37 or 38, characterized in that the other outer layer is made of wood, and its thickness is 9 - 11 mm.  41. The hive according to one of claims 1, 37 or 38, characterized in that the intermediate layer is made of foam, and its thickness is 80 - 97 mm.  42. A beehive according to one of claims 1, 37 to 41, characterized in that the walls of the nesting body, the roof cover, the bottom body and the store extension, as well as the roof of the roof cover and the bottom of the bottom body are oriented with a layer of wood inside the hive.  43. The beehive according to claim 1, characterized in that in the technological plug of the bottom body from the outside there are two holes with a flange each at the outer surface of the hole.  44. The hive according to claim 1, characterized in that in the bottom of the bottom of the hull, on the side oriented inward of the hive, two holes are made with a flange each at the outer surface of the hole.  45. The hive according to claim 1 or 44, characterized in that the hole in the bottom of the bottom body is plugged with a stopper.  46. The hive according to claim 1 or 43, characterized in that the technological plug of the bottom body is rectangular in shape with dimensions of 500 - 600 mm in the horizontal direction and 170 - 180 mm in the vertical direction.  47. The hive according to claim 1, characterized in that it is equipped with a tick-pollen-swarm-trap.  48. The hive according to claim 1 or 47, characterized in that the tick-pollen-swarm-trap is made integrally with the arrival board.  49. A beehive according to one of claims 1, 47 or 48, characterized in that the pollen-pollen-swarm-trap is attached to it from the outside of the nest housing, and the upper plane of the arrival board is aligned with the lower edge of the main notch.  50. The hive according to one of claims 1 or 47 to 49, characterized in that the mite-pollen-swarm-trap is equipped with a filter grate oriented parallel to the front wall of the nest housing and installed with a gap between it.  51. A beehive according to one of claims 1 or 47 to 50, characterized in that the mite-pollen-swarm-trap is provided with a black pencil case, a through-hole with a size of 13 x 35 mm is made in the filter grate, in which a black pencil case is inserted placed on the arrival board and protruding beyond its dimensions.  52. A beehive according to one of claims 1 or 47 to 51, characterized in that through the filter grate the mite-pollen-swarm-trap are made through circular holes with a flat, oriented upwards.  53. The hive according to one of claims 1 or 47 to 52, characterized in that the circular holes with a flat in the filter grid of the tick-pollen-swarm-trap are located in five longitudinal rows and in 36 vertical rows.  54. A beehive according to one of claims 1 or 47 to 53, characterized in that the circular holes with a flat in the filter grating of a tick-pollen-swarm-trap are made with a diameter of 4.9 - 5.1 mm and a distance to the flat of 4.2 - 4.4 mm.  55. Beehive according to one of claims 1 or 47 to 54, characterized in that under each longitudinal row of circular holes on both sides of the filter grill of a mite-pollen-swarm-trap are made trapezoidal ribs with corrugated surfaces and a height of 3.8 - 4 , 1 mm, bonded to the grill with a large base, the value of which is 2.7 - 3.1 mm, and a smaller base - 1 - 1.5 mm.  56. The hive according to one of claims 1 or 47 to 50, characterized in that the pollen mite-pollen-trap is equipped with an additional black pencil case and a Hahnemann grating oriented parallel to the front wall of the nest housing and placed in front of the filter grating with a gap between them 40 - 50 mm, a rectangular hole with a size of 13 x 35 mm is made in the filter grill, into which an additional black pencil case is inserted, while the additional black pencil case has a gap, respectively, between the Hahnemannian lattice and its end face, avny 10 - 15 mm.  57. The hive according to one of claims 1 or 47 to 55, characterized in that the pollen mite-pollen-trap is equipped with two trough-shaped containers placed on both sides of the filter grill and under the arrival board, with holes made in the intake board above the containers forming a lattice.  58. The hive according to one of claims 1 or 47 to 57, characterized in that the filter grate is installed in a mite-pollen-swarm-trap with the possibility of displacement in the horizontal direction and fixing in a predetermined position.  59. The hive according to one of claims 1 or 47 to 58, characterized in that the filter grate is made of polyethylene with a thickness of 1.9 - 2.1 mm in white.  60. The hive according to one of claims 1 or 47 to 55, characterized in that the filter grating of the mite-pollen-swarm-trap is installed in such a way that the gap between the front wall of the nest housing and it is 40-50 mm.  61. The hive according to one of claims 1 or 47 to 55, characterized in that the pollen mite-pollen sweeper is provided with end walls rigidly fastened to it and placed in the gap between the front wall of the nest housing and it.  62. The beehive according to claim 1, characterized in that 15 honeycomb frames are placed in the nest housing.  63. The beehive according to claim 1, characterized in that 10 honeycomb frames are placed in the nest housing.  64. The hive according to claim 1 or 5, characterized in that 15 honeycombs are placed in the store extension.  65. The hive according to claim 1 or 5, characterized in that on the outside the corners of the nesting housing, the roof cover, the store extension and the bottom housing are rounded.  66. A beehive according to one of claims 1, 5 or 65, characterized in that the rounding on the outside of the corners of the nesting housing, the roof liner, the store extension and the bottom housing is made with a radius of 55 - 65 mm.  67. The hive according to claim 1, characterized in that the bottom body is equipped with supports rigidly attached to it.  68. The hive according to claim 1 or 67, characterized in that the supports of the bottom body are made in the form of four risers, rigidly fastened to its walls.  69. The hive according to claim 1 or 67, characterized in that the supports of the bottom body are made in the length of 25 - 45 mm.  70. A beehive according to one of claims 1 or 5, characterized in that the ends of the contacting walls of the nest housing, the roof cover, the store extension and the bottom housing are stepped.  71. The hive according to one of claims 1, 5 or 70, characterized in that the step size of the contacting ends of the walls of the nesting housing, the roof liner, the store extension and the bottom housing is 5 - 40 mm.

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