SU1060144A1 - Hothouse - Google Patents

Abstract

1. GREENHOUSE, including a frame with a film transparent coating, filled with fertile soil, air ducts made of high thermal conductivity material, placed in fertile soil, characterized in that, in order to increase the efficiency of heat use by ensuring the natural circulation of air of the greenhouse through the pipes, each The airway pipe is endowed with a stove made of a material of high thermal conductivity, elevated above the bulk of the soil and pokrytym on the outward surface of a warm solids, and 2. Heat Itza claim. 1, characterized in that the riser is provided with a closing device. NSX m WJ FIG. 7

Description

The invention relates to structures intended for growing plants in artificial conditions.

A greenhouse is known, containing a frame, a translucent coating, one hundred c, pipes connected to it, placed under the ground of the brick, and a fan 1.

A disadvantage of the known greenhouse is low heat utilization efficiency.

The famous face includes a frame with a film transparent coating, bulk fertile soil and air outlets made of high heat-conducting material and placed in fertile soil 2.

A disadvantage of the known greenhouse is the low efficiency of using tetl.

The purpose of the invention is to increase the efficiency of heat utilization by ensuring the natural circulation of air in the greenhouse through pipes.

The goal is achieved by the fact that each air duct is provided with an end face, made of a material of high thermal conductivity, raised above the bulk soil and thermally insulated on the outer surface, with a stopper equipped with a locking device.

FIG. 1 shows a greenhouse, side view; in fig. 2 - the same, top view; in fig. 3 shows section A-A in FIG. one.

The greenhouse includes a frame with a transparent film cover 1, a fence 2 for the soil, a loose fertile soil 3, air ducts 4 placed in the soil 3 with a high thermal conductivity material with a stack 5 on the end of each pipe (also from a high thermal conductivity material). One hundred and five on the outer surface is covered with thermal insulation 6 and provided with a locking device 7. The free end 8 of the pipe 4 is brought out of the fence 2 and placed above the tray 9 for collecting condensate 10. In the middle of the greenhouse there is a floor 11.

Greenhouse works as follows.

In the daytime, the air in the greenhouse heats up faster than the bulk fertile soil 3. Temperatures arise: the air in the pipe 4 has a temperature lower than the air in the greenhouse. The walls of the pipe 4 from 5 pick up the tetl at the walls of the stand 5. Therefore, the temperature of the walls of the stand 5 is lower than the temperature of the greenhouse air. Heat from the greenhouse air is not transmitted through the shelves of the stowed stand 5 due to thermal insulation. Air

(O in stand 5 gives heat to its walls. The temperature of this air becomes lower than the temperature of the greenhouse air. As a result of the increase in density, the air from stand 5 flows into the pipe 4. This results in a decrease in pressure in stand 5. Due to the pressure drop, warm air from the greenhouse through the free end of the sink 5 flows into the stand of 100, cools and flows into the pipe 4. Under the pressure of air flowing from the stand of 5, the air from the pipe 4 flows out through the free end 8, mixes with the warm greenhouse air and rises up. stable c The airflow of the greenhouse air transfers heat to the ground 3. In this way, the daily temperature peak is reduced.

At night, the air in the greenhouse cools faster than the soil 3. Process: The heat and mass transfer occurs in the opposite direction. Heat from the ground is transferred to the greenhouse air. The night temperature peak rises.

Since the humidity in the greenhouse. For example, when growing cucumbers, it can be increased, at the end of the greenhouse there is a tray 9 for collecting condensate draining from pipe 4. To regulate the speed of circulating air flow, a stop device 7 is placed on the stand 5. The number of pipes 4 and their location in the ground depth 3 is determined by calculation.

This greenhouse provides an increase in the efficiency of heat utilization by ensuring the natural circulation of air in the greenhouse.

FIG. 2

Fig.Z

Claims (2)

1. GREENHOUSE, including a frame with a film of a light-permeable coating, loose fertile soil ή air ducts made of material of high thermal conductivity, placed in fertile soil, characterized in that, in order to increase the efficiency of heat utilization by ensuring the natural circulation of greenhouse air through the pipes, each duct the pipe is equipped with an end pipe with a riser made of a material of high thermal conductivity, elevated above the bulk soil and insulated on the outer surface with thermal insulation. 2. Greenhouse by π. 1, characterized in that the riser is equipped with a locking device.