UA15806U - Method to control the state of a bee family in a hive during wintering - Google Patents

Abstract

A method to control the state of a bee family in a hive during wintering includes measuring the temperature in a nest of the bee family and bringing indices thereof outside of the hive. The measuring of the temperature is carried out within the limits of the middle swarm of the nest on the way of the potential movement of a cluster with the measuring conducted both in the cluster and beyond thereof. According to the temperature indices, brought outside, the placement of the cluster in the hive is simulated and a way of movement, volume thereof, the state of activity of the family, amount of feed on the way of the movement of the cluster are determined.

Description

Description of the invention

The claimed method applies to agriculture, namely to beekeeping, and may also be suitable in other branches of the national economy, where temperature measurement in a closed volume is required, for example in the environment where insects are located.

A well-known method of monitoring the condition of a bee colony using an episcope - a device that amplifies the sounds made by bees in the nest (Production encyclopedia of beekeeping. K.: Urozhai, 1966. - P.801.

The method is performed as follows: one end of the episcope is inserted into the fly, and the other - to the ear 70 of the beekeeper. Based on the sound, the beekeeper, depending on his experience, determines the approximate state of the bee colony (whether the bee colony is alive or dead).

The known method has the following disadvantages: it is impossible to simulate the place of placement and the path of movement of the bee club on the honeycombs in the nest and its volumetric characteristics; the state of activity of the bee colony and the amount of feed available for further use by bees. 12 Close to the claimed method is "Control of the wintering of bees with the help of a computer" (Russian language)

Iryobochkin A.F., Zakharov I.S. // Beekeeping - 2000 - Mo7 - p. 18-20).

The known method uses a complex computer system with the installation of a control frame in the nest with many thermal sensors - light-emitting diodes and a specialized program for coding beehives, entering indicators into the computer system and obtaining a limited number of results. Live or non-living bee colony and placement of bees on honeycombs.

Convergent features of the known method and the claimed method are that the temperature in the nest of the bee colony is measured to obtain the indicators.

The known method has the following disadvantages: 1. It requires the use of complex and expensive electronic equipment, in the form of electronic computers. 29 2. Complex electronic equipment in the form of electronic computers cannot work in practical conditions, such as underground and semi-underground winter shelters, dugouts or in the open air (dust, moisture, cold), which stops its operation and disables it.

Q. The use of photo diodes is ineffective, as there is insufficient lighting in the winterizers and they do not work or give falsified indicators. ее, 4. In the case of removing a complex electronic system outside the winterizer, a complex and cumbersome electronic network is needed, which would connect the signal of primary sensors, amplifiers, filters, and similar devices with a computer located outside the winterizer. 5. To install and use (operate) the computer-aided bee hibernation control system, specially trained highly qualified experts in the electronic industry are needed, which is unattainable for cooperative,

From farms and collective farms. -- 6. The known method using a computer system provides a limited amount of information - it does not allow simulating the movement path of the bee club on the honeycombs in the nest. 7. It does not allow to determine the amount of feed used and available for further use by "bees." Q 8. It is impossible to determine the change in the strength of the bee colony. c 9. Does not determine the state of activity and its changes. c" The purpose of the proposed method is to improve and simplify the known methods of monitoring the state of the bee colony in the hive during wintering, by determining the movement of the bee club on the combs, the amount of feed used and available for further use by bees, changes in the strength of the bee colony , the state of activity and its changes. - The task is solved by the fact that in the nest of the bee family, the placement of the club on the honeycombs is simulated according to the temperature, which is within the average sl street of the club and beyond it. After that, the path of movement of the bee club on the honeycombs, the amount of feed used and available for further use is determined

With bees, the power of the bee family, the state of activity and its changes. aw! 20 The claimed method has the following operations: in preparation for the winter period, in the middle street of the nest of the bee family, on the potential path of movement of the middle part of the club, temperature sensors are placed at different heights, which are connected to a plug for connecting to the display.

The claimed method is performed as follows.

In the process of wintering, when it is necessary to determine the state of the bee colony, a display is turned on, which records the temperature from sensors located at different heights along the path of the club within the middle street of the nest. Sensors that on the periphery of the club show a temperature of -152С, in the center it is higher up to "352С. Outside the hive, on an imaginary central honeycomb (paper), a model of the location of the nest of the bee family is built. Reproduction of the location of the bee club begins with its center, where the temperature is the highest (up to 352), and as the temperature decreases from -352C to 41593, the periphery of the club is determined. because After a period of time (several days), the layout of the location of the bee club is repeated and thus a new layout is built. Each subsequent layout has an offset relative to the previous one, which determines the path traveled by the club of the bee family.

Part of the path traveled by the club through the honeycombs is equal to the same part of the feed used. Available food in the path of movement of the club remains for further use by bees. b5 The strength of the bee colony is determined by comparing the areas of the layouts of the bee club. A decrease in the area of the layout indicates a decrease in the number of bees in the family, which requires the beekeeper's intervention to determine the cause.

An increase in temperature above 342C in the center of the club of the bee family and an increase in the area occupied by the club indicates the beginning of a new cycle of the family's development (that is, the presence of brood).

Thus, thanks to the measurement of the temperature within the middle street of the bee nest on the path of the potential movement of the club, the set task is achieved and a positive result is obtained, the method of monitoring the condition of the bee colony in the hive during wintering is improved and simplified, the club movement path on the honeycombs is determined, the number forage used and available for further use by bees, changes in the strength of the family, the state of its activity. 70 The claimed method allows overwintering 98-10095 bee families.

Claims (1)

The formula of the invention is a method of monitoring the state of the bee colony in the hive during wintering, which includes measuring the temperature in the nest of the bee colony and outputting its indicators outside the hive, which differs in that the temperature measurement takes place within the middle alley of the nest on the path of potential movement of the club, and the measurement takes place both in the club and outside it, after which the placement of the club in the hive is simulated based on the temperature indicators taken outside the hive and the movement path, its volume, the state of the family's activity are determined, 2o The amount of feed on the movement path club Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2006, M 7, 15.07.2006. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. that 2 (Se) «c) (ee) IF) yo - and? - 1 (ee) («c) 4) 60 b5