RU2775019C1 - Device for inducing air exchange and conditioning for livestock farms with counterflow of liquid and gas phases - Google Patents

Abstract

FIELD: animal husbandry.

SUBSTANCE: invention relates to the field of animal husbandry and can be used to ensure high quality of the air environment in the premises of livestock farms during the hot season. The device includes axial fans installed in a row above the animal keeping areas at an equal distance from one another with a vertical axis of rotation of the blades, enclosed in fiberglass housings and a system of fine water spraying. The fans are equipped with lamella-type diffusers located on the side of the air flow emanating from the fan and a fine water spray system. The device is equipped with a body part freely rotating around the fan axis, made in the form of a cylinder truncated at an angle of 60°, an electric drive for turning the body parts and a system of cables and counterweights associated with a swivel ring placed on the body part. The nozzles of the fine water atomization system face the air stream with their nozzles.

EFFECT: invention provides improvement of indoor air quality.

2 cl, 4 dwg

Description

The invention relates to the field of animal husbandry and can be used to ensure high quality of the air environment in the premises of livestock farms during the hot season.

A device for barn ventilation is known (RU 178643 U1, IPC A01K 1/00, publ. 04/16/2018), which includes axial electric fans installed along the barn at a given distance from one another and having an angle of inclination to the vertical plane, sensors temperature and humidity connected to the control unit. At the same time, axial fans are mounted on hinges and equipped with blade speed controllers, a gearbox used to rotate a number of axial fans due to a link mounted on its output shaft, moreover, the link and hinges of the axial fans are connected by means of a cable to a counterweight mounted at the opposite end from the gearbox and providing their reverse movement, while the electric drive of the gearbox is equipped with a speed controller for the output shaft. Axial fans are also equipped with a fine water spray system with nozzles that saturate the air flow with water vapor.

The known technical solution allows for constant one-sided blowing of animals, which does not fully solve the issue of uniform cooling of livestock in a hot period. The unidirectional air flow creates zones with different airflow rates in the area of the barn located between two adjacent fans. airflow speed decreases with distance from the fan, and the airflow dissipates. At the same time, giving the fans the ability to rotate at a set angle around the vertical axis reduces the reliability of the structure due to the presence of flexible connections between its elements, in particular sections of the high-pressure water pipeline, the spray nozzles of which are mounted directly on the fan.

A device for inducing air exchange and air conditioning for livestock farms is known (RU 2744179 C1, IPC A01K 1/00, publ. 03/03/2021), including axial fans installed in a row above the animal keeping areas at a given distance from one another, axial fans with electric drive, reversible electromagnetic starter, three-way solenoid valve, shut-off solenoid valves, high-pressure water supply, nozzles for fine water spraying, pumping unit, filter for water purification and demineralization, temperature and humidity sensors and control unit. In this case, axial fans are fixedly installed in such a way that the axes of rotation of the fan blades are oriented along the room in a horizontal plane, and the spray nozzles are placed on both sides of the fans and directed in the same direction as the air flow coming from the fan. The reversible electromagnetic starter provides a change in the direction of rotation of the fan blades and, accordingly, a change in the direction of the air flow by 180°. A three-way solenoid valve directs the water supply to one of the branches of the water supply to the spray nozzles.

The known technical solution makes it possible to apply the alternation of normal and reverse modes of operation, which leads to the formation of non-stationary air flows throughout the entire volume of the room and to the prevention of the formation of stagnant zones. However, spraying water in the direction coinciding with the direction of the air flow causes a decrease in the relative velocity of the water and air components of the flow, without providing the maximum intensity of water evaporation and the degree of air cooling. In addition, switching of axial fans from normal operation to reversible and vice versa is possible only after a complete stop of all fans, which creates periods of low air flow rate, and during numerous simultaneous starts of fan drives, a significant load on the electrical network is created.

A ventilation device is known from a patent for an industrial design (US D733283 S, publ. 06/30/2015), including an axial fan enclosed in a fiberglass housing and a fixed diffuser mounted on the fan housing from the side of the outgoing air flow. In this case, the fan axis in the working position occupies a vertical position, and the diffuser lamellas divide the air flow created by the fan into two oppositely directed flows.

The known technical solution makes it possible to create two air streams directed in opposite directions, which reduces the volume of air mass moved per unit time by half and significantly reduces the cooling effect from each of the air streams separately. At the same time, there is practically no air exchange under the fan and near it, which makes this area not comfortable for animals during the hot season.

The closest to the claimed technical essence and the achieved result is a device for ventilation and air conditioning (https://www.facebook.com/VentecVentilation/videos/1872906413018466/), including an axial fan enclosed in a fiberglass housing and a diffuser fixedly fixed on the fan housing on the side of the outgoing air flow, a fine water spray system. At the same time, the diffuser lamellas divide the air flow coming from the fan into two parts and direct them in opposite directions. The placement of ventilation devices in the barn is carried out in a row along the longitudinal axis of the room in such a way that the axes of the fans are in a vertical position, and the direction of the air flows created by the axial fans is perpendicular to the longitudinal axis of the room. In a predetermined position, the ventilation devices are held by metal cables. The nozzles of the fine water spray system are located on the diffuser lamellas and spray in directions coinciding with the directions of the outgoing air flows.

The known technical solution provides for the creation of air flows perpendicular to the longitudinal axis of the livestock premises, however, it does not independently provide effective ventilation along the premises. In this case, poorly ventilated zones are formed on the sides of the ventilation unit and under it, which requires the use of additional accelerating fans. If the devices are installed in such a way that the air flows generated by them have a direction coinciding with the longitudinal axis of the room, mutual deceleration of oncoming air flows from neighboring fans will occur, which will reduce their cooling capacity and will not solve the issue of ventilation of the zone in the immediate vicinity of the fans . At the same time, the device does not have the ability to quickly change the direction of the air flow it creates, and the coincidence of the directions of the air flow and water spray leads to the fact that the energy of both phases is not fully used, which reduces the intensity of air cooling in the farm room.

From the analysis of existing technical devices that use the phenomenon of direct air cooling with adiabatic humidification and are designed to create comfortable conditions in the premises of livestock farms, it was revealed that the presented analogues do not provide a high quality of the air environment in the premises during the hot season and a sufficient level of structural reliability of their individual elements.

The technical objective of the present invention is to increase the productivity of animal husbandry by improving the quality of the air in rooms intended for keeping animals in a hot period.

The technical result is achieved by the fact that the device for inducing air exchange and air conditioning for livestock farms, including axial fans installed in a row above the animal keeping areas at an equal distance from one another, with a vertical axis of rotation of the blades, enclosed in fiberglass housings, equipped with lamella-type diffusers located on the side of the air flow emanating from the fan and a system of fine water spraying, according to the invention, it is equipped with a body part freely rotating around the fan axis, made in the form of a cylinder truncated at an angle of 60 °, an electric drive for rotating body parts and a system of cables and counterweights associated with a rotary ring located on the body part, the nozzles of the fine water spray system are turned by nozzles to the air flow.

In addition, the fan housing is provided with an additional housing part with a diffuser, freely rotating around the fan axis, located on the side of the incoming air flow, while the housing parts face opposite sides, and their rotation by 180° around the fan axis is synchronized.

The device is illustrated by drawings:

In FIG. 1 shows the layout of the device in the livestock building (top view); in fig. 2 shows a diagram of the main unit of the device (top view); in fig. 3 shows a diagram of the main unit of the device (side view); in fig. 4 shows a diagram of the main unit of the device (front view).

The device for inducing air exchange and conditioning for livestock farms with a counterflow of liquid and gas phases contains axial fans 1 installed in a row at an equal distance from one another, enclosed in a housing 2 made of fiberglass, equipped on the side of the air flow emanating from the fan 1 freely rotating around its axis body part 3 with a lamellar type diffuser 4 and a rotary ring 5. The device is equipped with an electric drive 6 for turning body parts 3, which is an asynchronous reversible motor with a gearbox. The device is equipped with a system of cables and counterweights, consisting of two drums 7 located on the shaft of the electric drive for turning body parts 3, two main cables 8, which at one end are fixed on drums 7 with different winding directions, and at the other end they hold counterweights 9, connecting cables 10 , the ends of which are fixed on the main cables 8, and the middle part - on the rotary rings 5 of the body parts 3 of the fans 1. The device also contains temperature sensors 11 and humidity 12 connected to the control unit 13 and a fine water spray system consisting of a pump unit 14, water purification and demineralization filter 15, water tank 16, three-way solenoid valve 17, two high-pressure water pipes 18 and 19, two shut-off solenoid valves 20, 21, spray nozzles 22 and 23. Spray nozzles of the fine water spray system 22 and 23 located on both sides of the fan 1 at a distance exceeding the length of the spray jet of water from the nozzle to the point where the jet is overturned by the air flow of fan 1.

The device for inducing air exchange and air conditioning for livestock farms with countercurrent liquid and gas phases operates as follows.

In the hot period, on command from the control unit 13, the electric drives of a number of axial fans 1 are switched on, in parallel, the control unit 13 sends a signal to the pumping unit 14, the three-way solenoid valve 17, and water from the reservoir 16 is supplied through the high-pressure water supply line 18 to the spray nozzles 23 , located in the direction of movement of the flow injected by the fans 1, where water is sprayed in the opposite direction to the flow. Shut-off solenoid valves 20, 21, in this case, are in the closed state. After the expiration of the set time for blowing air in this direction, at the command of the control unit 13, the electric rotation drive 6 of the body parts 3 rotates the shaft with the drums 7, while one of the main cables 8 is wound onto the drum 7, and the second one is unwound from the drum 7 under the action of counterweight 9. Together with the longitudinal movement of the main cables 8, the connecting cable 10, fixed on the swivel ring 5, also moves, moving it from one main cable 8 to another. Together with the swivel ring 5, the body part 3 rotates 180° around the axis of the fan 1, with the diffuser 4. Having rotated the body part 3 by 180°, on command from the control unit 13, the electric drive for rotation 6 of the body parts 3 is turned off. Simultaneously with the change in the direction of the air flow in the room to the opposite, the pumping unit 14 stops pumping water through the water supply line 18, the solenoid valve 20 opens and the water in the water supply line 18 is discharged into the reservoir 16. At the same time, at the command of the control unit 13, a three-way the solenoid valve 17 closes the branch of the high-pressure water pipeline 18 and opens the branch 19, after which, at the command of the control unit 13, the pumping unit 14 is started and water is pumped through the water pipeline 19 to the nozzles 22, the nozzles of which are directed towards the air flow blown by the fan 1. Nozzles 22 produce a fine spray of water. After the expiration of the set time for blowing air in this direction, at the command of the control unit 13, the electric drive of rotation 6 of the body parts 3 turns on the reverse mode and rotates the drums 7 in the opposite direction, while the body parts 3 with diffusers 4 also rotate around the axis of the fan 1 in the opposite direction by 180°. In parallel with this, the control unit 13, in the sequence described above, stops spraying water from the nozzles 22 and starts spraying from the nozzles 23. Water spraying is carried out cyclically. The duration of the spray cycle depends on the readings of temperature sensors 11 and air humidity 12 located in the room and is regulated by the control unit 13.

In the cold and transitional periods of the year, only axial fans 1 operate, and with the help of the control unit 13, the electric rotation drive 6 of the body parts 3 and the system of cables and counterweights, the direction of the air flow in the room is changed. Fine spraying of water during these periods is not performed.

If it is necessary to single out one, the most priority direction of air mass intake by the fan 1 for the formation of a non-stationary air flow, the case 2 of the fan 1 is equipped with an additional rotating body part 3 with diffusers located on the side of the incoming air flow. Case parts 3 face opposite sides, while the rotation of the parts by 180° around the axis of the fan 1 is carried out synchronously.

A systematic change in the direction of the air flow, together with the use of the effect of counterflow of the liquid and gas phases, will ensure the destruction of stagnant zones in the air volume of the room, increase the assimilation capacity of air and improve its quality indicators, increase the local speed of turbulent air jets in the air volume, increase the intensity of air cooling in indoors and, consequently, will increase the level of comfort of the microclimate for animals during the hot season, which together will increase the productivity of animal husbandry.

Claims (2)

1. A device for inducing air exchange and air conditioning for livestock farms, including axial fans installed in a row above the animal keeping areas at an equal distance from one another, with a vertical blade rotation axis, enclosed in fiberglass housings, equipped with lamella-type diffusers located on the side of the outgoing air flow fan, and a system of fine water atomization, characterized in that it is equipped with a body part freely rotating around the fan axis, made in the form of a cylinder truncated at an angle of 60 °, an electric drive for rotating body parts and a system of cables and counterweights associated with a swivel ring placed on the body part, the nozzles of the fine water spray system face the nozzles to the air flow. 2. The device according to claim 1, characterized in that the fan housing is provided with an additional housing part with a diffuser, freely rotating around the fan axis, located on the side of the incoming air flow, while the housing parts face in opposite directions with their front side, and their rotation by 180 ° around the axis of the fan is synchronized.

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