RU2561462C1 - Device for monitoring state of hive weight - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: device for monitoring the state of hive weight comprises an apiary controller consisting of a beekeeper computer (PC), a receiving unit, an analysing unit, a distribution unit, a graphic unit to show the data obtained, and a microcontroller of the hive. The microcontroller of the hive comprises a processor unit, a memory unit and a communication unit, a measuring device mounted in the hive, and wireless data transfer channel from the hive microcontroller to the apiary controller. The measuring device is used as strain gauges connected to the hive microcontroller, and the hive is provided with a box, where on the bottom the hive microcontroller with strain gauges are mounted, and the hive is located on top. The box has a size greater than the hive, for possible formation of an air layer, and between the hive and the box the plugs are mounted on top to ensure the natural thermoregulation. The wireless data transfer channel is used as Bluetooth module.

EFFECT: increase in accuracy of measuring the hive weight, increase in the measurement rate.

2 dwg

Description

The invention relates to beekeeping, namely to control the amount of honey in individual and collective apiaries.

The prior art method and device for controlling the amount of honey in the hive (RF patent No. 2163758, A01K 47/00, 1991), the device contains a capacitive transducer formed by insulated flat, conductive plates attached to the side walls of the hive with the inside. The device’s action is based on a change in the electrical capacitance between the plates when filling the frames in the hive with honey.

Closest to the claimed technical solution is an automated system for year-round control of the amount of honey in the hives of bee colonies (see patent No. 2461 188, authors: Rybochkin L.F., Dreisen V.E., Savelyev S.V. 2010), which has an apiary controller, consisting of a beekeeper’s computer (personal computer), a receiving unit, an analysis unit, a distribution unit, a graphic unit for demonstrating the received data, and a hive microcontroller containing a processor unit, a memory unit and a communication unit, a device, a controller The initial weight condition of the hive, and the wireless channel for transmitting data from the hive microcontroller to the apiary controller, also has blocks of hive capacitors located in the hive bodies and acting as a measuring device, the walls of which consist of three insulating materials: wood-plywood, foam, puff wood and metal plate. A recess has been made in the hive housing on the outside to accommodate the hive controller. The insulated conductors from the four hive plates are connected to the hive controller circuit. The advantage of the known device is the use of computer technology, which really allows you to get reliable information about the amount of honey.

However, the disadvantage of this device is the presence in the hive of an electrostatic field created by the measuring device, which significantly affects the brood and the queen bee and can lead to miscarriage of the oviparous uterus, that is, to a complete or partial loss of the ability to reproduce female offspring. Edwards (1961) reports that under the influence of a constant electric field with a voltage of 180 V / cm among the hatched offspring of the moth, the percentage of males increases, and the average number of eggs laid by one female decreases.

The technical result is to improve the environmental living conditions of bee families.

The technical result is achieved in that in a device for monitoring the condition of bees in a hive containing an apiary controller, consisting of a beekeeper's computer (personal computer), a receiving unit, an analyzing unit, a distribution unit, a graphic unit for demonstrating the received data, and a hive microcontroller containing a processor unit , a memory unit and a communication unit, a measuring device installed in the hive, and a wireless data channel from the hive microcontroller to the notch controller according to the invention as Strain gauges connected to the hive microcontroller are used in the measuring device, while the hive is equipped with a box, on the bottom of which the hive microcontroller with strain gauges is installed, and the hive is located on top, and the box is larger than the hive to allow air to form, and between plugs are installed on top of the hive and box to ensure natural thermoregulation.

The novelty of the proposed proposal is due to the fact that due to simplification of the design, namely the use of strain gauges, measuring the weight of the hive becomes more accurate and faster.

The invention is illustrated in the drawing, where in FIG. 1 is a block diagram of a device for monitoring the condition of bees in a hive; in FIG. 2 - general view of the hive.

The device for monitoring the state of bees in the hive contains an apiary controller 1, consisting of a beekeeper's computer 2 (personal computer), in which the receiving unit 3, the analyzing unit 4, the distribution unit 5, and the graphic unit for demonstrating the received data are connected in series 6. The hive microcontroller 7 contains a power supply unit 14, a processor unit 8, a memory unit 16 and a communication unit 9. The measuring device 10 is installed in the hive and strain gauge sensors 17 are used as a measuring device, connected with the hive microcontroller 7, while the hive is equipped with a box 11, on the bottom of which the hive 7 microcontroller is installed with a measuring device 10 in the form of strain gauges, and the hive is located on top, and the box is larger than the hive, for the formation of an air gap 12. Between stub 13 is installed on the top of the hive and box, to ensure natural thermoregulation. As a wireless data channel used Bluetooth module 15.

A device for monitoring the condition of bees in the hive works as follows. The apiary staff connects the beekeeper 2 computers to a power source, after which he requests information from the hives. The beehive microcontroller 7 receives information about the change in the beehive mass from the measuring device - strain gauges 10 and transfers the numerical information to the beekeeper 2 using the Bluetooth module (wireless communication channel) 15, the information goes to the analyzing unit 4, where it is analyzed and distributed using the distribution unit 5 into tables, then graphic block 6 demonstrates the obtained tables, graphs on the monitor, on the basis of which complex expandable systems of accounting, control and monitoring are created for a certain time.

Claims (1)

A device for monitoring the state of the hive’s mass, containing an apiary controller, consisting of a beekeeper’s computer (personal computer), a receiving unit, an analysis unit, a distribution unit, a graphic unit for demonstrating the received data and a hive microcontroller containing a processor unit, a memory unit and a communication unit, a device that controls the initial weight state of the hive, and a wireless data channel from the hive microcontroller to the apiary controller, characterized in that as a device, polishing the initial state of the hive, strain gauges connected to the hive microcontroller were used, while the hive was equipped with a box, the hive microcontroller with strain gauges was installed at the bottom, and the hive was located on top, and the box was larger than the hive to allow air to form, and between the hive and the box on top are plugs to ensure natural thermoregulation, while the Bluetooth module is used as a wireless data transmission channel.

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