RU203918U1 - DEVICE FOR VENTILATION OF THE Hive - Google Patents

Abstract

The utility model relates to beekeeping, namely to devices that provide ventilation of the hive and maintain a given level of humidity in the hive. A utility model consisting of a separate housing of a multi-hive hive, Wi-Fi fan control and management device, a power source, a duct fan, a humidity sensor, removable grilles and nets, is installed between the hive hive bodies or between the body and the sub-roof. The utility model, using a Wi-Fi device for monitoring and controlling a fan and a humidity sensor, monitors the relative humidity in the hive and controls, including remotely, turning the fan on or off when the humidity level in the hive exceeds or decreases from the humidity value set remotely via Wi-Fi.

Description

The utility model relates to beekeeping, namely to devices that maintain an intrahive microclimate. The utility model can be used in amateur and industrial apiaries.

During the period of the main honey collection, with an intensive flow of nectar into the hive, as well as in the autumn-winter period in the hives with insufficient ventilation, the relative humidity can significantly increase. At the same time, high humidity in the hive has a negative effect on the state of the bee colony and its vital activity.

The technical problem to be solved by the utility model is to control and regulate the humidity inside the hive by ventilation of the hive and wireless ventilation control.

A device for controlling the microclimate in a hive is known (Patent for invention RU 2134507 C1, 11.12.1997), which in particular contains an air humidity sensor, a fan, a switching fan control device, and a power supply. The disadvantage of this device, used to regulate humidity in the hive, is that the device is used only with hives that have a double-walled body, between which a humidity sensor is located, and air is fed into the channels between the walls of the hive through an air duct from an external fan, which, in in turn, requires design changes to the standardized hives to connect the duct to the hive.

Also known is a system for controlling the microclimate in apiary hives (Patent for invention RU 2411723 C1, 23.09.2009), which in particular contains an air humidity sensor, a fan, a switching fan control device, a power supply, a PC. The disadvantage of this system, used to regulate humidity in the hive, is that the individual elements of the device are located inside the hive body, in particular, the fan is located in the upper part of the side wall of the hive, which makes it difficult for air exchange inside the hive between the honeycomb frames, and requires the removal of several honeycomb frames ... To control the system, a PC is used, which is located in the beekeeper's house and, accordingly, requires the creation of a wired communication line between the beekeeper's house and the hive.

The closest technical solution to the proposed utility model is a device for regulating the microclimate in the hive (Patent for invention RU 2378826 C1, 16.07.2008), which in particular contains an air humidity sensor, a fan, a switching fan control device, a power supply, and a microcomputer. The disadvantage of this device, which is also used to regulate humidity in the hive, is that the elements of the device are placed inside the hive body, including the motor with a fan located at the bottom of the hive near the entrance, the humidity sensor inside the hive is located in the center of the hive at the front wall of the hive. The location of the fan at the bottom of the hive near the hive requires an increased subframe space of the hive, which, in turn, requires making structural changes to standardized hives, removing several honeycomb frames or changing their size, and can also impede the free movement of bees to and from the taphole inside. hives.

For all the devices listed above, a significant drawback is the presence of wires connecting various elements of devices inside the hive, including for their connection to a control device, microcomputer, PC, which significantly complicates the sanitization of the hive and technological operations with frames and hive bodies.

For the organization of wireless control of devices, including for remote control and establishment of temperature and humidity, a number of devices using Wi-Fi technology have been developed and produced. For example: Sonoff wireless Wi-Fi devices (https://sonoff.ru/catalog/wifi-rele), which are used to switch (turn on / off) electrical appliances and work, in particular, with connected external temperature and humidity sensors.

The problem is solved by the inventive device for ventilation of the hive and is illustrated by drawings: Fig. 1 shows the device in section, side view; in fig. 2 shows a general view of the device, top view.

The inventive device includes the following structural elements: a separate housing (1) of a multi-body hive, in which there are upper and lower horizontal walls (2), forming an inner box, inside which a wireless Wi-Fi device for monitoring and controlling a fan (3) is located, a source power supply (4), duct fan (5), humidity sensor (6), removable grill (10). The upper and lower horizontal walls of the box have two through holes, which are protected from above and below by nets (7) from the ingress of bees and large debris, and the side walls between the holes form two casings (8,9), which are placed between the horizontal walls. The first casing (8), located in the center of the casing, houses a duct fan and a humidity sensor; the casing inlet and outlet are aligned with the through holes in the top and bottom walls of the box to ensure free air movement through the fan. The second casing (9), the inlet and outlet of which are aligned with the through holes in the upper and lower walls of the box, is used to provide, if necessary, free passage of bees between the bodies.

The technical result of using the device is to control humidity and maintain a given humidity regime inside the hive.

Placing the proposed device in a separate housing of a multi-hive hive and the use of Wi-Fi to control the device and ventilation does not require structural changes in the device of hives or a reduction in the number of honeycomb frames, and also does not interfere with the sanitization of the hive and the performance of technological operations with frames and hive bodies.

An example of the implementation of the utility model.

The device in a separate housing of a multi-hive hive is placed between the hive housing and the sub-roof (hive roof) or between the hive hive bodies. If the device is placed between the body of the hive and the under-roof, then a removable grid (10) is used as a support for the insulation and the lap, while the edge of the insulation and the lap is folded back to ensure free passage of air flow. If the device is placed between the bodies, then remove the upper and lower nets from the casing (9) to ensure free passage of bees between the bodies, and also remove the lattice (10). In the absence of a taphole in the upper body, the edge of the insulation and the lap is folded back to ensure free passage of air flow. With the help of an external device - a computer, tablet, laptop, smartphone, using a wireless connection for a Wi-Fi device for monitoring and controlling the fan, the humidity value is set (for example, for the period of the main honey collection with an intensive flow of nectar into the hive, the relative humidity in the hive should be 70-88 %). A device for monitoring and controlling a fan with a connected humidity sensor, when the set humidity inside the hive, controlled by a humidity sensor, is exceeded, turns on the fan. The fan creates the required air pressure and increases the air flow through the hive body, tap holes and air vents in the hive cover. In this case, the humidity inside the hive decreases. When the humidity drops below the set humidity value, the Wi-Fi fan control and management device turns off the fan. If necessary, you can use the remote switching on or off the fan regardless of the change in the humidity level.

Claims (1)

A device for ventilation of the hive, consisting of a separate case of a multi-body hive, in which there are upper and lower horizontal walls that form an inner box, inside which a wireless Wi-Fi device for monitoring and controlling a fan is located, a power supply, a duct fan, a humidity sensor, a removable grill, the upper and lower horizontal walls of the box have two through holes, protected from above and below by removable nets from the ingress of bees and large debris, and the side walls between the holes form two casings, which are placed between the horizontal walls, in the first casing located in the center of the case, a channel fan and humidity sensor, the inlet and outlet openings of the casing are aligned with the through holes in the upper and lower walls of the box to ensure free air movement through the fan, the second casing, the inlet and outlet openings of which are aligned with the through holes in the upper and lower walls of the box, is It is used to ensure, if necessary, free passage of bees between the hulls.

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