RU2711940C1 - Device for regulation of microclimate in apiaries beehives - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to beekeeping and can be used on individual and collective apiaries. Device for regulation of a microclimate in a beehive contains a housing-beehive for bees with a temperature control system consisting of a temperature sensor, a heating element with a temperature regulator and a power supply. In the volume of the hive extra space there is additionally a vessel with a vacuum valve and water, a calibrated tube for water supply, and at the bottom of the beehive – a drinking bowl of a rectangular shape with a floating grid and an acoustic sensor in the form of a hydrophone or a sealed laryngophone and an additional heater under the bottom of the drinking bowl. Water temperature control system comprises series-connected acoustic sensor, narrow-band amplifier, band-pass filter with amplifier, relay element with delay time for disconnection with output closing contact, connecting plus power supply with additional heater, made in form of composite transistor with integral temperature sensor at its input.EFFECT: invention provides higher reliability and accuracy of microclimate adjustment in beehives in winter-spring periods of the year due to change of level of supplied power by separate heaters for water heating, which contributes to increase of eggs laying by bee uterus and dynamics of family development.1 cl, 5 dwg

Description

The invention relates to the field of beekeeping and can be used in individual and collective apiaries to improve the adequacy and accuracy of microclimate control in apiary hives in the winter and spring periods of the year by changing the level of input power by individual heaters for heating water, which will increase the laying of the number of bee eggs uterus and family development dynamics.

In the transition period of bees from diapause to the period of reproduction, the microclimate in the hive changes. With the advent of brood, the temperature regime of the nest of the bee family changes in the direction of increasing temperature. In the brood zone, the bees begin to maintain the most stable and highest temperature of 32-34 ° C.

During winter dormancy, bees spend a relatively small amount of feed. Feed consumption increases with the start of brood feeding, i.e. starting from late January to early February, and growing all the time. With abundant and high-quality fodder reserves, the uterus lays more eggs, the family develops better in the spring and builds up more power to the main honey collection. At the same time, water consumption is increasing. Therefore, it is necessary to create technical devices for supplying water with the given parameters to the hives. You also need to create conditions inside the hive for access to water. The problem is to accurately determine the time of laying (appearance) of the brood, when the intensive consumption of water by bees begins. One of the solutions to this problem is to use devices for diagnosing the conditions of bee colonies by their acoustic noise.

The famous "Acoustic analyzer of the swarm state of bee colonies" (RF patent No. 2407284, IPC AK 47/00, Publ. 27.12.2010; Bull. 36).

In this acoustic analyzer of the swarm state of bee colonies containing an external microphone, an amplifier with a bandpass filter and an automatic gain control unit, the output of the bandpass filter is connected to the frequency channel of the swarm state of the bee family and to the frequency channel of the working state of the bee family. The outputs of the channels through the comparison unit are connected to the information display unit, and the frequency channel of the swarm state of the bee family contains sequentially connected two-stage series-resonant gyrator, narrow-band amplifier, the first detector, the first integrator, and the frequency channel of the working state of the bee family contains sequentially connected narrow-band filter, the second detector, second integrator. The outputs of the first and second integrators are connected to the comparison unit, the output through an analog-to-digital converter is connected to the information display unit, made in the form of a digital liquid crystal indicator.

The disadvantage of this technical device is that the final decision on the state of the bee colonies and the necessary actions is taken by the beekeeper according to the readings of a digital liquid crystal indicator. This decision is subjective.

The well-known "Method and device for diagnosing conditions of bee colonies by their acoustic noise" RF patent №2259041, IPC A01K 47/00, Published: 08.27.2005; Bull. Number 24.

In this invention, to highlight the most informative narrow frequency bands, a block of bandpass filters with frequency bands 205-225 Hz, 280-300 Hz, 325-345 Hz, 390-410 Hz is used. The sound signal of the bee colony removed from the microphone is normalized by the average intensity and filtered in the selected frequency range. Then, with the help of narrow-band filters tuned to pre-selected frequency bands, the most informative frequency components are extracted from it. The output signals of narrow-band filters are detected and compared in pairs using comparators, the number of which is found by the number of paired combinations from the number of used narrow-band filters. The binary codes received at the outputs of the comparators are fed to the input of a microcomputer, where they are converted to octal (or decimal). The obtained values of the converted codes are recorded continuously for several minutes, after which the resulting dynamic picture of the stability and changes of the received codes is analyzed, based on which a conclusion is made about the state of the bee family.

The disadvantage of the technical device of this method:

1. The complexity of the implementation of the device (the presence of micro-computers and 4 channels for signal analysis);

2. There is no system for automatically switching on actuators that support and regulate the microclimate in the hive. Conclusions about the state of the family and the regulation of the microclimate in the hive are made by the beekeeper, based on the testimony of the computer, his experience and knowledge.

A common drawback of these devices is the presence of a microphone, which the bees cover with wax and their waste.

The closest in technical solution and the achieved effect to the claimed device and selected as a prototype is “Device for controlling the microclimate in the hive” / Zmitrovich B.C., Prudnikov A.G., Prokhorova A.N. // Patent RU 2134507, IPC A01K 47/06, A01K 47/00 Publ. 08/08/99.

The device has a system for controlling the temperature of the air in the hive and a system for controlling the humidity and temperature of the air supplied to the hive, the system for controlling the temperature of the air in the hive consists of a heating element and a temperature sensor placed in the hive, and a thermostat receiving power through the switching device from the power source and energy storage device. The humidity and temperature control system includes humidity sensors and a temperature sensor located in the hive, a voltage regulator acting on the electric fan of the air conditioner, which has devices for humidification, cooling and heating of the passing air, which is passed through the duct into the channels between the walls of the hive, which has double walls. The voltage regulator and air conditioner receive power through a switching device from a power source and an energy storage device.

The disadvantage of the device is its complexity, high consumption of electric energy, narrow functionality for optimizing the temperature inside the hives and the lack of technology for drinking bees during the appearance of the brood.

The technical result, the invention is aimed at, improving the reliability and accuracy of microclimate regulation in apiary hives in the winter and spring periods of the year due to the new technology of drinking bees with heated water, which will increase the laying of eggs by the queen bee, the family develops better in spring and builds up more power to the main medical collection.

The technical result is achieved by the fact that the device for controlling the microclimate in the hive, comprising a beehive housing with a temperature control system consisting of a temperature sensor and a heating element with a temperature regulator and a power source, according to the invention, a container with a vacuum valve is additionally placed in the roof space of the hive and water, a calibrated tube for supplying water, and at the bottom of the hive a rectangular drinking bowl with a floating grid and an acoustic sensor in the form of a hydrophone or hermetically of the laryngophone and an additional heater under the bottom of the drinker, and the water temperature control system contains an acoustic sensor, a narrow-band amplifier, a bandpass filter with an amplifier, a relay element with a delay time for switching off with an output closing contact connecting the power supply with an additional heater, made in as a composite transistor with an integrated temperature sensor at its input.

The invention is illustrated by drawings. The figure 1 shows a section of the hive with structural elements; figure 2 shows the device of the drinking bowl for bees: view from the side; figure 3 shows the device for drinking bowls for bees: a section along aa in figure 2; figure 4 shows the design of a floating grid; figure 5 shows a structural diagram of a system for controlling the microclimate.

The device for controlling the microclimate (Fig. 1) contains the hive’s body 1, frames with honey 2, on top of which there is a canvas 3 with top insulation 4 in the volume of the under-roof space 5. At the bottom of the hive 6 there are existing heaters 7 for heating the air in the hive, a drinking bowl for rectangular bees 8 with water 9 and an additional heater 10, an acoustic sensor 11, a floating grid 12, for bees a container with water 13 and a vacuum valve 14, a calibrated tube for supplying water 15.

The structural diagram of the device for controlling the microclimate (Fig. 5) contains: a series-connected acoustic sensor 11, a narrow-band amplifier 16, a band-pass filter with an amplifier 17, a relay element with a delay time of 18, with an output closing contact 19 connecting plus a power source 20 with an additional heater for heating water 10, made in the form of a composite transistor 21, operating in analog mode with an integrated temperature sensor 22 and a variable resistor 23 at the input.

Heaters 7 with a temperature controller can be made according to patent No. 2639324 "Device for controlling the temperature in the hive" (published on December 21, 2017).

The surface of the water 9 in the drinking bowl 8 is a good acoustic concentrator of sounds made by bees. Using this property of the water surface, it is proposed to use a hydrophone or a sealed laryngophone as an acoustic sensor, providing good sound transmission.

An additional heater 10 is made in the form of a rectangular metal plate according to the size of the drinker. In the center of this plate is a composite transistor 21 and an integral temperature sensor 22 nearby. The composite transistor 21 operates in an analog mode, as an adjustable active resistance. Its current, resistance and power dissipation depends on the parameters of the integrated temperature sensor 22, which can be used, for example, КР 1019EM1 (analogue LM235) and the position of the variable resistor 23.

The variable resistor 23 (Fig. 5) pre-sets the current (and accordingly the temperature) of the composite transistor 21, which is automatically supported by an integrated temperature sensor with an accuracy of ± 1 ° C.

Floating mesh 12 is made of a material with a density less than water, for example, foam or dry wood impregnated with waterproof varnish.

Capacity 13 is made of food grade polyethylene or other inactive material. Through the vacuum valve 14, air is pumped out from the tank 13 with water 9 before connecting to a calibrated tube for supplying water 15.

A device for regulating the microclimate in an apiary hive works as follows. Depending on the climatic conditions of the region, the beekeeper in a certain period of time prepares for a brood, which is characterized by the beginning of water consumption by bees and the activation of movements creating a certain range of sounds.

The tank 13 is filled with water and through the vacuum valve 14 creates a primary vacuum. Through a faucet (not shown in the drawings), a container 13 with water 9 is connected to a calibrated tube for supplying water 15. Water enters the drinking bowl for bees 8 to the level of contact with the calibrated tube 15.

The circuit of the device for controlling the microclimate (Fig. 5) is supplied with a supply voltage 20. The circuit goes into "sleep" mode with low current and power consumption.

In the process of life, the bees approach the drinking bowl 8 and are located on the floating grid 12. They make a sound of a certain frequency. This signal is transmitted through water 9 to the acoustic sensor 11. The signal is amplified by a narrow-band amplifier 16, limited by a band-pass filter with an amplifier 17 in the range of 200-600 Hz. At a certain amplitude of the frequency signal from 200 to 600 Hz, the relay element with a delay time of 18 is activated and the output closing contact 19 connects the plus of the power supply 20 with an additional heater 10, in the form of a composite transistor 21 with an integral temperature sensor 22 at the input.

The heating of water 9 to a temperature previously set by the beekeeper begins. The integrated temperature sensor 22 automatically maintains it by changing the base current of the composite transistor 21. The input power of existing heaters 7 also increases.

With a decrease in the activity of bees, the signal from the acoustic sensor 11 decreases, the relay element with a delay time of 18 disconnects its contact 19 and disconnects the plus of the power supply 20 from the additional heater 10, in the form of a composite transistor 21. The process of heating water 9 is stopped and the electric consumption is reduced energy.

The advantage of the device for regulating the microclimate in apiary hives is as follows:

1. Automatically maintains the water temperature at a predetermined level. For bees, this reduces the consumption of internal energy, and therefore, the consumption of feed.

2. The presence of warm water in the hive will increase the laying of the number of eggs by the queen bee and the dynamics of the development of the family.

3. The presence of an acoustic sensor in the form of a hydrophone or a hermetic laryngophone increases the sensitivity and accuracy of the climate control system.

Claims (1)

A device for controlling the microclimate in the hive, comprising a beehive housing with a temperature control system, consisting of a temperature sensor, a heating element with a temperature controller and a power source, characterized in that a tank with a vacuum valve and water is calibrated in the under-roof space of the hive, calibrated a tube for supplying water, and at the bottom of the hive - a rectangular drinking bowl with a floating grid and an acoustic sensor in the form of a hydrophone or a sealed laryngophone and an additional heater b under the bottom of the drinker, and the water temperature control system contains a series-connected acoustic sensor, a narrow-band amplifier, a bandpass filter with an amplifier, a relay element with a delay time for switching off with an output closing contact connecting the power supply plus with an additional heater, made in the form of a composite transistor with integrated temperature sensor at its input.

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