RU2770883C1 - Device for creating microclimate in a poultry house - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. The device for creating a microclimate in the poultry house is characterized by the fact that it consists of a microcontroller, roof fans, temperature sensors and gas analyzers, which are designed to collect and transmit data to a microcontroller designed to control the microclimate in the poultry house, frequency converters, which are designed to convert the rotation frequency of roof fans, and the microcontroller designed for automatic control collects and analyzes data of microclimate parameters not only from temperature sensors, but also from gas analyzers, which show the concentration of carbon dioxide in each zone of the poultry house with a cellular content and can affect the operation of roof fans both in conjunction with temperature sensors and regardless of the readings of temperature sensors.

EFFECT: invention makes it possible to create a device for increasing the efficiency of the ventilation system of a henhouse with cage housing and improving the sanitary and hygienic conditions of poultry cage housing.

1 cl, 2 dwg

Description

The device for creating a microclimate in a poultry house belongs to the field of agriculture and is designed to improve the sanitary and hygienic conditions for keeping poultry.

A known method for creating a microclimate in poultry houses and a device for its implementation [RU 2239995 C1, A01K 31/06 (2000.01), 11/20/2004], in which the microclimate system in cage batteries is created by forming additional air circulation in the poultry house in a vertical plane from the floor to ceiling using additional vertical air ducts that take air from under the cell space of the lower tiers of cell batteries, and air circulation in the vertical air ducts is stimulated by using the heat of light sources placed in the lower part of the air duct and simultaneously used for local lighting of cell batteries.

The disadvantage of this invention is the unsolved problem of stagnant zones in the poultry house, since the ventilation system does not analyze and does not take into account the microclimate in certain areas of the poultry house, in particular, the concentration of harmful gases.

A device for the microclimate in poultry houses is known [RU 2339220 C1, A01K 31/00 (2006.01), 27.11.2008], which differs in that an air purification apparatus is installed at the inlet of the exhaust duct to the process room.

The disadvantage of this invention is the unsolved problem of stagnant zones in the poultry house, since the ventilation system does not analyze and does not take into account the microclimate parameters in individual areas of the poultry house.

Known invention is a system for humidifying and cooling ventilation panels of supply windows of poultry houses [RU 2734557 C1, A01K 31/00 (2006.01), F24F 5/00 (2006.01), F24F 6/02 (2006.01), F24F 13/30 (2006.01), A01K 31 /00 (2020.08), F24F 5/00 (2020.08), F24F 5/0035 (2020.08), F24F 6/02 (2020.08), F24F 13/30 (2020.08), 10.20.2020], which has a humidification and cooling system supply ventilation panels of supply windows of poultry houses to reduce the temperature of the air supplied to the poultry house in summer.

The disadvantage of this invention is the unresolved problem of stagnant zones in the poultry house, since the ventilation system does not analyze and does not take into account the microclimate parameters in individual areas of the poultry house.

The objective of the invention is to create a device for increasing the efficiency of the ventilation system of cage houses and improving the sanitary and hygienic conditions of bird cages, reducing energy costs by eliminating stagnant zones and effectively ventilating the entire cage house.

The claimed device differs from analogues in that the microcontroller intended for automatic control collects and analyzes data on microclimate parameters not only from temperature sensors, but also from gas analyzers that show the concentration of carbon dioxide in a poultry house with a cage and can affect the operation of roof fans both in conjunction with temperature sensors, and regardless of temperature sensor readings, which helps to more effectively find and eliminate stagnant zones with poor air circulation in a cage house.

The device and the principle of operation of the invention will be clear from the following description and the accompanying drawings.

In FIG. 1 shows a general view of the possible location of roof fans, temperature sensors and gas analyzers in the aviary cages.

In FIG. 2 shows a diagram of the device.

The essence of the invention lies in the fact that to implement this task, a device is proposed for creating a microclimate in a poultry house, consisting of a microcontroller 1, temperature sensors 2 and gas analyzers 3, which are designed to collect and transmit data to a microcontroller designed to control the microclimate in a poultry house, frequency converters 4, which are designed to convert the rotational speed of the roof fans 5 in accordance with the given signals from the microcontroller.

The device for creating a microclimate in a poultry house consists of a microcontroller 1, which is designed to collect and analyze data on microclimate parameters, temperature sensors, gas analyzers and frequency converters connected to the microcontroller, roof fans connected to frequency converters. Each frequency converter regulates the rotational speed of the fans located in a specific area of the house.

The principle of operation of the device for creating a microclimate in the poultry house will be clear from the following description.

According to the presented diagram (Fig. 2), the parameters of the ventilation operation, temperature and the rate of carbon dioxide concentration are set on the memory device of the microcontroller 1. According to the regulations, the input of microclimate and air parameters is programmed for every day during the entire period of poultry rearing. In the process of operation, the memory device of the microcontroller 1 receives information from all temperature sensors 2 and gas analyzers 3 located in the house, which measure the concentration of carbon dioxide in the house with a cage.

If the signals from the sensors, including at least one gas analyzer, deliver information about exceeding at least one of the controlled parameters, then a “Yes” signal is automatically generated in the microcontroller 1 and a signal is sent to the frequency converters 4 of each control zone to change the rotational speed of the roof fans 5 corresponding to the zone in the room where the deviation of the parameters from the set values is registered.

If the microclimate parameters in all areas of the poultry house are at the level of the set values, then the system is in the “No” signal state. In this case, the frequency converters 4 do not receive a signal about changing the rotation parameters of the roof fans 5 and the microclimate system is in the “waiting” state, i.e. system parameters are not changed.

Thus, the device for creating a microclimate in the poultry house collects data using temperature sensors and gas analyzers in order to determine the concentration of carbon dioxide in the air, determine the location of stagnant zones with poor air circulation and, based on the data obtained, changes the rotation parameters of the roof fans, thereby increasing the effectiveness of the ventilation system of poultry houses and improving the sanitary and hygienic conditions of poultry keeping, while reducing energy costs due to effective zone ventilation of the entire poultry house with cages.

Information sources

1. RU 2239995 C1, A01K 31/06 (2000.01), 11/20/2004;

2. RU 2339220 C1, A01K 31/00 (2006.01), 27.11.2008;

3. RU 2734557 C1, A01K 31/00 (2006.01), F24F 5/00 (2006.01), F24F 6/02 (2006.01), F24F 13/30 (2006.01), A01K 31/00 (2020.08), F24F 5/00 (2020.08), F24F 5/0035 (2020.08), F24F 6/02 (2020.08), F24F 13/30 (2020.08), 20.10.2020.

Claims (1)

A device for creating a microclimate in a poultry house, characterized by the fact that it consists of a microcontroller, roof fans, temperature sensors and gas analyzers that are designed to collect and transmit data to a microcontroller designed to control the microclimate in a poultry house, frequency converters that are designed to convert the rotational speed of roof fans, and the microcontroller intended for automatic control collects and analyzes data on microclimate parameters not only from temperature sensors, but also from gas analyzers that show the concentration of carbon dioxide in each zone of the house with a cage and can affect the operation of roof fans, both in conjunction with temperature sensors, regardless of temperature sensor readings.

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