SU457446A1 - Microclimate system in teplice - Google Patents

Description

I

The invention relates to the equipment of greenhouses for maintaining the specified parameters of the microclimate and providing other technological processes.

A known device for creating a microclimate in greenhouses, comprising a combustion chamber, a water heat exchanger, a mixing chamber with nozzles for humidifying the air, and a fan for supplying combustion products to the working zone of the greenhouse.

However, the known installation does not allow independent heating of water and air, as well as cooling the air during the use of fuel with varying degrees of harmful combustion products, so it is impossible to maintain the required temperature conditions of air and soil, as well as to regulate the gas composition of the air in the greenhouse as in summer , and in the winter. In such an installation, an additional water heater and a combustion device are installed to heat the water that warms the soil in the greenhouse, which significantly increases the cost of the installation and increases fuel consumption.

Overheating of greenhouses during the summer period is eliminated with the help of evaporation chambers with fine spray nozzles, which have low safety and efficiency factors due to frequent clogging of the nozzles and the use of high-pressure fans.

The known installation is also not equipped with a device for dropping the products of combustion into the atmosphere, which leads to increased gas pollution of the greenhouses during the ignition of the installations and their paladability, which can cause poisoning of the staff and plants.

In addition, the known installation does not allow in the summer period to produce water heating for watering plants and completely excludes the use of fuel with harmful combustion products.

The aim of the invention is to independently control the heating temperature of water and air and ensure uniform distribution of temperature and humidity fields in the working volume of the greenhouse.

This goal is achieved by the fact that a thermally insulated flue duct is installed parallel to the water heat exchanger, and the entrance of the combustion products to the heat exchanger and the flue duct from the combustion chamber is controlled by a gate moved automatically from the pressure impulses of water in the pressure pipe of the water heat exchanger. An ejector connected to the external and recirculated air inlets is connected to the fan; Behind the fan, a tap is installed in the form of a tee, communicating via an adjustable damper with the atmosphere and with the ejector duct.

Due to these features, the microclimate installation in tenits is versatile and provides, depending on technological needs, heating water or air, removes overheating in the greenhouse by water-vapor cooling, allows even temperature and humidity fields to be evenly distributed due to intensive mixing of large volumes of outdoor air with products of combustion and ejection of them into the working volume of the greenhouse, to regulate the gas composition of the air, taking into account: vi safety for health living, its staff and at the same time meeting the needs of plants for feeding with carbon dioxide.

The drawing shows a schematic diagram of the installation.

The installation includes a combustion chamber 1, a water heat exchanger 2, a thermally insulated flue 3, a mixing chamber 4 with coarse spray nozzles 5 connected through an adjustable damper 6 to inlets 7 and 8 of recirculation and outside air, a fan 9 connected through an adjustable damper 10 s branch and into the atmosphere of the combustion products and duct 12 of the ejector 13. The ejector, in turn, is connected through an adjustable valve 14 to the inlets 15 and 16 of the external and recirculated air.

The direction of the combustion products from the combustion chamber to heat water or air separately is controlled automatically by a gate 17 connected via a bellows drive 18 to the pressure pipe 19 of the water heat exchanger 2.

The installation works as follows.

When water is heated without heating the air, the gate 17 under the action of the pressure of water in the pressure pipe 19 moves and closes the inlet of the thermally insulated gas duct 3, the combustion products from the combustion chamber 1 enter the water heat exchanger 2, heat the water to a certain temperature needs, and waste products of combustion, depending on the season, are introduced through the ejector 13 into the working volume of the greenhouse or discharged through the outlet 11 into the atmosphere.

When the air is heated without heating the water, the water supply to the heat exchanger 2 is stopped, and the pressure drops in the pressure pipe 19. The gate 17 is compressed by the bellows drive 18 and the inlet of the water heat exchanger 2 is blocked and closed.

and the combustion products from the combustion chamber 1 are directed through the thermally insulated flue duct 3 to the mixing chamber 4, where they (depending on the required air humidity and saturation with carbon dioxide) are moistened with coarse spray nozzles 5 and diluted with recirculated or outside air entering through Inputs 7 and 8. Next, the mixture of air with the combustion products is mixed with the blades of the fan 9 and is fed through the duct 12 into the ejector 13, where the incoming seam of the combustion products with air is ejected with the outer or the circulator l insulating air entering through inputs 15 and 16 and supplied to the working volume of the greenhouse.

In the case of a decrease in air temperature in case of overheating of the greenhouse without heating water and air, the combustion chamber 1 is turned off, external air is sucked through inlet 8 by fan 9 into chamber 4, where it is moistened with nozzles 5 and then with fan blades of air blower 12 is fed to duct 12 of ejector 13, through the inlet 15, external air is supplied, ejected with humidified air, cooled due to intensive evaporation of moisture and supplied to the greenhouse.

To exclude the content of harmful substances that exceed the normal level in the air of the greenhouse, during the ignition of the installation, the heating of air and water, and also when using fuel with increased harmfulness of the combustion products, the latter are discharged through the outlet 11 to the atmosphere. .

Subject invention

A device for creating a microclimate in a greenhouse, including a combustion chamber, a water heat exchanger, a thermally insulated flue duct, a mixing chamber with ventilation and recirculated air switching valves with nozzles for humidifying the air, and a fan that is different in that and air and ensuring uniform temperature and humidity fields in the greenhouse, the thermally insulated flue duct is installed parallel to the water heat exchanger and is equipped with an automatic gate at the inlet to regulate The flow of combustion products through the heat exchanger into the flue duct is connected to the outlet of the fan through the flue gas discharge valve to the atmosphere, an ejector with recirculation and vent air switching valves is connected,

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