RU2022503C1 - Queen bowl - Google Patents

Abstract

FIELD: bee-keeping. SUBSTANCE: case of queen bowl is made in lower part in form of a cylinder, and in top part in form of a cone. Walls of the case are inclined one to another at angle of 110-120 deg.. Internal diameter of cross-section of cylindrical part of the case relates to its external diameter as 0,82 ≅ d₁/d₂≅ 0,93. Length l₁ of setting element of the case relates to height l₂ of external part of the case as 0,97 ≅ l₁/l₂≅ 1,3 when these values relate to height l₃ of cylindrical part of the case as 2,2 ≅ (l₁+l₂)/l₃≅ 3,2. Height l₃ relates to diameter d₁ as 0,54≅ l₃/d₁≅ 0,75. EFFECT: improved harvest of queen milk. 2 dwg, 1 tbl

Description

 The invention relates to beekeeping and can be used for the manufacture of uterine bowls intended for collecting royal jelly and removing queen bees.

 A known uterine bowl containing a chamber for excretion from the bee uterus larva. The disadvantage of this bowl is the difficulty and inconvenience of the beekeeper working with it.

 Also known is a uterine bowl containing a chamber in the housing for collecting royal jelly and removing the queen bee, a prototype. The disadvantage of the prototype is the incomplete use of collection capabilities using a bowl of royal jelly due to the non-optimal design.

 Achievable technical result of the invention is to increase the operational efficiency of the uterine bowl and the relative increase in the amount of collected royal jelly by optimizing the design of the bowl.

Achievable technical result is provided in the proposed uterine bowl containing a chamber in the case for collecting royal jelly and removing the queen bee, in that the case with the camera is made in the form of a conical-cylindrical glass, the angle α of the solution of the conical part of the chamber is selected in the range 110-120 ^about and the diameter d _{1 of the} inlet of the glass with respect to its outer diameter d _{2 is} determined by the ratio of 0.82 ≅ d ₁ / d ₂ ≅ 0.93, the bottom of the glass is equipped with an installation rod, the length l _{1 of} which is selected with respect to the length l _{2 of the} stack within 0.97 ≅ l ₁ / l ₂ ≅ 1.3 and is interconnected with the depth l _{3 of the} chamber with a ratio of 2.2 ≅ l ₁ + l ₂ / l ₃ ≅ 3.2, and the depth l _{3 of the} chamber is selected in relation to diameter d ₁ within 0.54 ≅ l ₃ / d ₁ ≅ 0.75.

 In FIG. 1 shows a uterine bowl, side view; figure 2 is the same in isometry.

The uterine bowl contains a chamber in the housing 1 for collecting royal jelly and removing the queen bee. With a camera body 1 is formed as a cup konusoidalno-cylindrical shape, the cylindrical portion 2 which mates with konusoidalnoy part 3. The angle α solution konusoidalnoy chamber portion 3 is selected in the range ^of 110-120, while the diameter d ₁ of the cylindrical inlet nozzle portion 2 in relation to its outer diameter d ₂ defined by the ratio of 0.82 ≅ ≅d ₂ / d ₁ ≅ 0.93.

The bottom (conical part 3) of the glass is equipped with an additional mounting rod 4, the length l _{1 of} which is selected with respect to the length l _{2 of the} glass in the range of 0.97 ≅ l ₁ / l ₂ ≅ 1.3 and is interconnected with the depth l _{3 of the} chamber by the ratio of 2, 2 ≅ ≅l ₁ + l ₂ / l ₃ ≅ 3.2. Moreover, the depth l _{3 of the} chamber is selected with respect to its diameter d ₂ within 0.54 ≅ l ₃ / d ₁ ≅ 0.75.

 The design of the uterine bowl has axial symmetry, and the mounting rod 4, located along the axis of symmetry, allows you to conveniently fasten the bowls to the bar of the hive frame and directly to the honeycomb. At the same time, the optimal placement of the bowls is ensured, which contributes to an increase in the efficiency of collecting royal jelly and removing queen bees. The rod 4 for tighter fixing when using a bowl has a conical shape with a radius of 1.5 mm of the rod at the point of attachment to the glass and a radius of 1.25 mm from the end of the rod 4. The rod also serves to attach the uterine bowls in the additional work table during transfer time of larvae from bee cells to bowls. The inner edge of the inlet of the cylindrical part of 2 cups of the bowl for the convenience of the bees is rounded with a radius of 0.2-0.3 mm. Uterine bowls are made from food grade plastic, for example UPM 0508 polystyrene, yellow, light blue, pink, light brown. White and red colors, as shown by experiments, are undesirable, for example, eggs and larvae are poorly visible on a white background of a bowl.

 To fix the uterine bowls, holes with a diameter of 3 mm are drilled on the frame. For better reception by bees of larvae, a frame with bowls is placed in the center of the nest of the bee family a day before vaccination.

 As shown by experimental studies, the achieved technical result is achieved only with strict observance of all the design features of the bowls in accordance with the claims. The limiting values of numerical ratios given in the claims were obtained as a result of statistical processing, analysis and generalization of experimental studies. For convenience, the specific values of the main structural parameters characterizing the proposed bowl for various options for its practical implementation are given in the table.

 As can be seen from the table, the best results in the ratio of the amount of royal jelly collected in the proposed bowl, compared with the prototype, ceteris paribus, amounted to 1.7-1.8 (option 1). The lower and upper boundaries of the ratios reflected in the claims are obtained on the basis of statistical processing of experimental data on the basis of the conditions for approximating the operational efficiency of the proposed bowl in comparison with the prototype (options 2 and 3). Exceeding the upper and lower boundaries of the parameters given in the claims, as follows from the table, makes it impossible to ensure the achieved technical result, i.e., to reduce the efficiency of milk collection using the proposed bowl compared to the prototype (options 4 and 5).

 Options 6 and 7 illustrate other examples of the practical implementation of the proposed bowls with finding specific values of the parameters within the declared limits (option 6) and going beyond the stated limits (option 7).

 The pilot operation of the uterine bowls of the proposed improved design identified positive feedback from beekeepers. It is also advisable to additionally note that the design features of the proposed uterine bowl were worked out in conjunction with and in coordination with the development of other objects of beekeeping equipment, for example, a work table for uterine bowls, a cage for the queen bee, grafting frame, artificial honeycomb, etc.

Claims (1)

A UTERINE BOWL, including a housing with a mounting element, characterized in that the housing is made in the lower part in the form of a cylinder, and in the upper - in the form of a cone, the walls of which are located at an angle of 110 - 120 ^o to each other, while the ratio of the inner diameter is d ₁ the cross section of the cylindrical part of the housing and its outer diameter d ₂ is
0.82 ≅ d ₁ / d ₂ <0.93,
the ratio of the length l _{1 of the} mounting element of the housing and the height l _{2 of the} outer part of the housing is
0.97 ≅ l ₁ / l ₂ ≅ 1.3,
when their ratio with a height l _{3 of the} cylindrical part of the body equal to
2.2 ≅ (l ₁ + l ₂ ) / l ₃ ≅ 3.2,
the ratio of height l ₃ and diameter d ₁ is
0.54 ≅ l ₃ / d ₁ ≅ 0.75.

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