RU2134507C1 - Apparatus for regulating microclimate in beehive - Google Patents

Abstract

FIELD: apiculture. SUBSTANCE: apparatus has moisture content regulating system with power source, commutating device, energy accumulator, voltage regulator, electric fan drive, conditioner and moisture sensors. Moisture sensors are disposed in double-walled beehive. Apparatus is further provided with temperature control system having heating member and temperature sensor, which are disposed in beehive, and temperature regulator. Power is supplied to temperature regulator from power source or energy accumulator through commutating device. Temperature regulating system has temperature sensor positioned in beehive, and temperature regulator disposed in conditioner. Joint functioning of mentioned systems allows temperature and moisture content parameters to be followed and regulated. EFFECT: increased efficiency by creating flexible system for creating optimum temperature and moisture content conditions within beehive. 1 dwg

Description

 The invention relates to agriculture, in particular to means for optimizing the indoor temperature and humidity, and can be used in industrial and amateur apiaries.

 A known installation for controlling the temperature in the bee pavilion (see USSR, and.with. 1616560, class A 01 K 47/00, 1988), containing heating elements with a temperature regulator.

 Also known is a device for regulating intra-zero temperature (see USSR, AS 1625460, class A 01 K 47/00, 1991, taken as a prototype), containing a switched electronic temperature controller, heating elements, an acoustic threshold device, a temperature sensor .

 A disadvantage of the known proposal is the lack of the ability to stably maintain the temperature and humidity conditions throughout the year.

It is difficult for bees to maintain temperature and humidity conditions in the hive due to constantly changing weather conditions. In winter, to maintain the temperature in the center of the club at 32 ... 34 ^o C, the bees process honey, releasing up to 0.7 liters of water per 1 kg of consumed honey. Water in the form of vapors creates increased air humidity, which affects the life expectancy of bees. So at a relative humidity of 25% of the bees live 35 days, and at 93% - only 8 days. Thus, in the hive, in addition to temperature, it is necessary to maintain a stable air humidity.

 The technical solution to the problem is to reduce feed costs and reduce the death of bees by creating the optimal temperature and humidity regime inside the hive during the year.

 The task is achieved in that 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 a power source and an 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 novelty of the proposed proposal is due to the fact that due to the presence of a humidity control system, a universal power supply system, including both stationary and autonomous (wind turbine, solar panels, autonomous gas power plants), with a switching element and an energy storage device and an improved temperature control system, stabilization and regulation are provided temperature and humidity conditions throughout the year.

 According to the patent and scientific literature, the claimed combination of features is not found, which allows us to judge the inventive step of the proposal.

 The invention is illustrated by the drawing, which shows a block diagram of a device for controlling the microclimate in the hive.

 The device for controlling the microclimate in the hive comprises a hive housing 1 with double walls, equipped with a temperature control system consisting of a heating element 2 and a temperature sensor 3 located in the housing 1 and connected to a temperature controller 4, connected to a power source 5 and an electric energy storage device 6 through a switching device device 7. The humidity and temperature control system is made of a voltage regulator 8, which through the electric fan 9 supplies air to the air conditioner 10, including a device means for heating, cooling and humidifying the air supplied to the housing 1. The voltage regulator 8 is connected to a humidity sensor 11 located in the housing 1, and to a power source 5 and an energy storage 6 through a switching device 7. The air conditioner 10 is connected to a temperature sensor 12, and a humidity sensor 13 located in the housing 1, and a power source 5 and an electric energy storage device 6 through a switching device 7. The power source 5 can be connected to a stationary power network or made in the form of an autonomous source (wind unit, solar panels, or a gas station).

A device for controlling the microclimate in the hive works as follows:
To provide energy for this device, there can be a multi-input power source 5 using a stationary electrical network or an autonomous installation that receives energy from a wind turbine, solar panels, or a gas-electric station. The power source 5 through the switching device 7 provides electricity to a temperature control system, a temperature-humidity control system and an energy storage 6 (for example, a battery). The temperature control system, receiving power from the switching device, provides energy to the thermostat 4, through which the heating element 2 is energized as a function of the set temperature in the hive 1, which is controlled by the temperature sensor 3 and compared with the set temperature t ₃ in the thermostat 4. The humidity control system and temperature, receiving power from the switching device, provides energy to the voltage regulator 8 and air conditioning 10. The voltage regulator 8 in the function specified in lazhnosti hive 1 is monitored by a humidity sensor 11 and compared with a predetermined moisture ψ _s, adjusts the drive voltage of the fan 9, changing its performance. Air is supplied through air conditioning 10 through the duct to the hive 1 having double walls. Air flows through the channels between the walls from bottom to top and, passing over the air channels from the hive’s inner box due to the ejection effect, draws in air containing water vapor from the hive’s living quarters.

 passing through the air conditioner 10, the air can additionally be humidified if the humidity sensor 13 located in the hive signals a decrease in humidity below the normal value, cools down in case of internal overheating of the air, which is controlled by temperature sensor 12, and heats up if supplied in beehive air subcools intra-zero temperature. Air ducts are provided in housing 1, which can be blocked by dampers that allow directing the air flow inside the hive depending on the requirements of the technological process (for example, to facilitate the activity of bees - ventilators engaged in aeration of the nest).

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 and a heating element with a temperature controller, characterized in that the device has a universal power source with a switching element and an energy storage device and a humidity and temperature control system, consisting of a voltage regulator connected to a fan electric drive and an air conditioner supplying air through an air duct to a double-walled hive, sensors are wet installed in the housing for bees and connected to a voltage regulator and air conditioner, which are connected through a switch to a power source and energy storage device, and temperature sensors installed in a housing for bees and connected to an air conditioner and temperature controller, connected through a switch to a power source and storage device energy.