RU194077U1 - DISCRETE NUCLEUS Hive - Google Patents

Abstract

The utility model relates to agriculture, beekeeping, and in particular to the construction of the hive (nucleus) for containing a small array of honey bees and the infertile uterus before fertilization. The essence of the utility model is that a single-frame metal mesh insulator with a nesting frame is inserted into the bottom housing and the "fly-in" roof is made without one end wall, for the possibility of its displacement in the horizontal plane and the formation of the upper air hole. A useful model greatly simplifies the settlement process and contains niyah small seeds. The uterus is provided with optimal conditions, including when they are in the nucleus for several hours, but in favorable weather. The upper location of the airway hole, to a greater extent, ensures the protection of the nest and minimizes the likelihood of bee theft. Bees being in the nest of a large family most of the time do not tend to fly from the nucleus when they move into it. The mass of bees that go to colonize the nucleus is 200 g. They can be reused after fertilization of the first uterus and replanting into the isolator of the next infertile uterus. The proposed nucleus design, to a greater extent, is suitable for Central Russian bees and will allow to obtain a larger number of high-quality queen bees of this breed, with a lower consumption of working individuals, going to the formation of temporary seeds.

Description

The utility model relates to agriculture, beekeeping, and in particular to the construction of the hive to contain a small array of honey bees and the infertile uterus before fertilization. In beekeeping, such hives are called nucleus hives.

Currently, multi-seat and single-seat nuclei are used for a reduced frame - 1/16, 1/8, 1/6, 1/4, 1/3 and 1/2 of the nesting frame of the Dadan-Blatt hive (435 × 300 mm). The most common type of nucleus, in the southern regions of the Russian Federation, is a four-frame 1/4 nucleus nucleus (GF Taranov Industrial technology for the production and processing of beekeeping products. M: Agropromizdat, 1987. S. 290-293). In the more northern regions, when working with Central Russian bees, the microclimate in the cores on the reduced frame does not correspond to the optimal one and this can affect the quality of the resulting fetal queens. The gatherings of bees from such nuclei are observed more often, there is a high risk of attack by thief bees and at least 400 g of bees are required to create a nucleus (Vasiliadi G.K. Development of queen bees and factors affecting their quality. M .: Rosagropromizdat, 1991. S . 46).

The prototype is a nucleus using a nesting frame. At the same time, they use a housing with a bottom and a “fly-in” roof, reduced to two or four standard nesting frames. In the nucleus give one or two frames of the printed brood at the exit and one or two frames with food, as well as bees that hatch these frames. Its formation can be carried out in the case of a standard hive. To do this, it is hermetically separated into compartments fenced from each other with individual slots in which small families form. The disadvantage of such nuclei is that as a result, more bees (400-800 g) will be spent on mating each uterus than nuclei on a smaller frame (Komissar A. D. Multiple nucleus and micronucleus hives. Kiev: National Agrarian University, 1997 . S. 5-6).

The essence of the utility model is that in the case with a bottom and a roof with walls (Fig. 1), a single-frame metal mesh insulator (Fig. 2) with a nesting frame is inserted, and the roof with the walls "in the fly hood" (Fig. 3) is made without one the end wall, for the possibility of its displacement in the horizontal plane and the formation of the upper notch hole (Fig. 4).

The technical result achieved by the utility model is: creation of optimal conditions for keeping uterus and small bee colonies, reducing the consumption of working individuals for their formation, eliminating the gathering of bees from the nucleus, reducing the risk of thief bee attacks, using standard nesting frames used in hives in the apiary.

The causal relationship between the essence of the utility model and the technical result is as follows. The proposed nucleus hive is used in the collection discretely, that is, intermittently, most of the time the bees and the infertile uterus, enclosed in a mesh isolator, are kept in the nest of a standard bee family. Only on days favorable for uterine flights, a mesh insulator is installed in the nucleus body and the roof is closed. The nucleus is moved to a distance of 500 m or more from the apiary, the roof is shifted (Fig. 4) and the mesh insulator cover is lifted from one side, making it possible to fly to the bees and the uterus through the slit-shaped opening (a summer hole) thus formed. A discrete nucleus is used for the duration of approximate overflights of the uterus and mating with drones, from 2 p.m. to 6 p.m. After 18 hours, the lid of the mesh insulator is lowered, it is removed from the nucleus body and returned to the family. Similar cycles are performed before the fertilization of the uterus.

Thus, the utility model greatly simplifies the process of colonization and maintenance of small seeds. The uterus is provided with optimal conditions, including when they are in the nucleus for several hours, but in favorable weather. The upper location of the air hole, to a greater extent provides protection for the nest and minimizes the likelihood of bee theft. Bees being in the nest of a large family most of the time do not tend to fly from the nucleus when they move into it. The mass of bees that go to colonize the nucleus is 200 g. They can be reused after fertilization of the first uterus and replanting into the isolator of the next infertile uterus. The proposed nucleus design is more suitable for Central Russian bees, and will allow to obtain a larger number of high-quality queen bees of this breed, with a lower consumption of working individuals going to the formation of temporary seeds.

Claims (1)

A discrete nucleus beehive, comprising a housing with a bottom and a roof with walls, for nesting frames, characterized in that a single-frame metal mesh insulator with a standard nesting frame is inserted into the housing, and the roof is made without one end wall to allow it to shift in the horizontal plane and form the upper pith hole.

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