RU93136U1 - VENTILATION DEVICE FOR ANIMAL LIVING ROOM - Google Patents

Abstract

 A ventilation device for a livestock house containing a supply air duct, a connecting air duct, a dispensing air duct, characterized in that the supply air duct is made in the form of a spiral, in the lower part of which there are openings for condensate discharge, the supply air duct contains two supply air fans equipped with adjustable dampers, supply air fans mounted on opposite sides of the supply air duct, control chambers are intensively installed on each side of the supply air duct heat and mass transfer with holes for condensate drain, equipped with discharge fans and adjustable dampers, the supply air duct and control chambers of intensive heat and mass transfer are connected to the distributing duct by a connecting duct, pressure sensors are installed on the outer surface of the control chambers of intensive heat and mass transfer, which are connected to adjustable dampers and a fan control system by means of electric wires.

Description

The utility model relates to agriculture, in particular to the ventilation of livestock buildings, having large moisture in the form of water vapor.

A device is known for ventilating a livestock building [1], including a fresh air supply fan, a fresh air duct, a heat exchange duct, a connecting duct, a heat and mass transfer control chamber, an indoor air pressure fan, a pressure duct, a pressure sensor electrically connected to the starting system outdoor air fan, condensate collector for collecting and draining condensate.

However, this device has the following disadvantages:

- in the control chamber of intense heat and mass transfer at low temperatures, intense ice formation occurs;

- interruption of outdoor air supply.

The purpose of the utility model is to increase the efficiency of heat and mass transfer and ventilation, ensuring a continuous supply of outdoor air.

This goal is achieved by the fact that the supply air duct is made in the form of a spiral, in the lower part of which openings are made for the removal of condensate. The supply air duct contains two supply fans equipped with adjustable dampers. Supply fans are installed on opposite sides of the supply air duct, control chambers of intense heat and mass transfer with openings for condensate drainage are installed on each side of the supply air duct, they are equipped with discharge fans and adjustable dampers. The supply air duct and control chambers of intense heat and mass transfer are connected to the distributing air duct by a connecting air duct. On the outer surface of the control chambers of intense heat and mass transfer, pressure sensors are installed, which are connected to adjustable dampers and a system for regulating the operation of fans through electrical wires.

Figure 1 shows a ventilation device for a livestock building, a top view; figure 2 is a section aa.

The ventilation device for the livestock building, contains a supply air duct 1 made in the form of a spiral, in the lower part of which there are openings 2 for condensate drainage. The supply air duct 1 contains two supply air fans 3 and 4 equipped with adjustable shutters 5 and 6. The supply air duct 1 is equipped with two control chambers for intense heat and mass transfer 7 and 8 with openings 9 for condensate drain, a condensate collector 10 and pressure fans 11 and 12, and adjustable shutters 13 and 14. Along the side walls of the livestock building, distributing ducts 15 are installed. A connecting duct 16 is installed perpendicular to the distributing ducts 15. Supply duct 1 and control Pressure intensive heat and mass transfer chambers 7 and 8 are connected to the distributing air ducts 15 by connecting duct 16. Pressure sensors 17 and 18 are installed on the outer surface of the intensive heat and mass transfer control chambers 7 and 8.

In the cold season, the ventilation device for livestock buildings works as follows.

Cold air is supplied from the atmosphere by the supply fan 3 to the supply air duct 1. Warm moist air of the livestock building is supplied by the blower fan 11 to the control chamber for intense heat and mass transfer 7. As a result of the supply air duct 1 being made in a spiral, using the blower 11, the air supplied from the livestock rooms inside the control chamber of intense heat and mass transfer 7, swirls and wraps around the supply air duct 1. Between the flow of cold air inside the air intake duct 1 and the inner air flow space in the control chamber 7 is carried intensvnogo teplomassoobmena teplomassoobmena process. As a result, condensate forms on the outer walls of the supply air duct 1, part of which is removed through the openings 9 in the condensate collector 10, and part settles on the turns of the supply air duct 1 in the form of ice formations. As the ice layer builds up, the living section for the passage of air inside the control chamber of intense heat and mass transfer 7 decreases, while the pressure of the air flow increases. The pressure sensor 17 monitors the increase in air pressure inside the control chamber of intense heat and mass transfer 7, and when maximum pressure is reached, it acts on the adjustable shutters 5 and 6, moving the shutter 5 to the "closed" position and the shutter 6 to the "open" position. Adjustable dampers 5 and 6 act to turn on the blower fan 12 and the supply fan 4 and turn off the supply fan 3. From the atmosphere by the supply fan 4, cold air is supplied to the supply air duct 1. The warm moist air of the livestock building, pumped by fan 12, is fed into the control chamber for intense heat and mass transfer 8. In the meantime, the blower fan 11 continues to supply warm, humid air from the livestock building into the control chamber of the intensive lomassoobmena 7, which leads to thaw the ice. The living cross section for the passage of air inside the control chamber of intense heat and mass transfer 7 increases, while the pressure of the air flow decreases. The pressure sensor 17 monitors the change in air pressure inside the control chamber of intense heat and mass transfer 7, and when maximum pressure is reached, it turns off the discharge fan 11 and puts the shutter 13 in the closed position. After a certain time, ice forms in the control chamber of the intense heat and mass transfer 8 as a result of crystallization on the outer walls of a supply air duct 1 made in the form of a spiral. As the ice layer builds up, the living section for air passage inside the control chamber of intense heat and mass transfer 8 decreases, while the air pressure increases. The pressure sensor 18 monitors the increase in air pressure inside the control chamber of intense heat and mass transfer 8, and when maximum pressure is reached, it acts on the adjustable shutters 5, 6, 13, moving the shutter 6 to the "closed" position, and the shutters 5 and 13 to the "open" position. Adjustable shutters 5, 6, 13 act to turn off the supply fan 4 and turn on the discharge fan 11 and supply fan 3. The heat and mass transfer process is similarly repeated. Condensate formed in this case enters the condensate collector 10.

Improving the efficiency of heat and mass transfer and ventilation, and ensuring a continuous supply of outdoor air to the livestock building, is achieved by increasing the surface area of the supply air duct by spiraling it, using two supply fans located on opposite sides of the supply air duct with adjustable dampers, and using two intensive control chambers heat and mass transfer with discharge fans, adjustable dampers and pressure sensors for regulating Bani dampers and fan operation.

THE SOURCE OF INFORMATION

1. Device for ventilation of livestock buildings. Patent RU 2262043 - Publ. 10/10/2005

Claims (1)

A ventilation device for a livestock house containing a supply air duct, a connecting air duct, a dispensing air duct, characterized in that the supply air duct is made in the form of a spiral, in the lower part of which there are openings for condensate discharge, the supply air duct contains two supply air fans equipped with adjustable dampers, supply air fans mounted on opposite sides of the supply air duct, control chambers are intensively installed on each side of the supply air duct heat and mass transfer with holes for condensate drain, equipped with discharge fans and adjustable dampers, the supply air duct and control chambers of intensive heat and mass transfer are connected to the distributing duct by a connecting duct, pressure sensors are installed on the outer surface of the control chambers of intensive heat and mass transfer, which are connected to adjustable dampers and a fan control system by means of electric wires.