RU2190317C2 - Greenhouse - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: greenhouse has light-transmitting covering and aboveground heating system made in the form of hollow rods driven into ground. Rods are adapted for communicating underground zone with atmosphere. Lower ends of hollow rods are positioned in closed cavity formed in underground zone. One part of rods are communicated to atmosphere under covering and other part of rods are communicated to atmosphere beyond covering. Height of hollow rods under covering exceeds height of hollow rods beyond covering. Lower ends of rods communicating closed cavity with atmosphere under covering are shorter than ends of rods communicating closed cavity with atmosphere beyond covering. EFFECT: increased efficiency in utilizing subsurface heat. 3 cl, 1 dwg

Description

 The invention relates to agriculture, namely, to designs of greenhouses with a heating system.

 A greenhouse is known, including a translucent coating and a above-ground heating system in the form of rods buried in the ground (A.S. USSR 1055419, 1595396, class A 01 G 9/14). The disadvantage of this greenhouse is its low efficiency, since it uses only convective heat of the soil and does not use the heat of vaporous soil moisture.

 The closest in its technical essence is a greenhouse, including a translucent coating and a subsoil heating system installed under it, made in the form of hollow rods buried in the ground connecting the subsoil zone with the atmosphere (RF Patent 2127036, class A 01 G 9/14 /, 9 / 24).

 The disadvantage of this greenhouse is its low efficiency. This is due to the fact that the duration of the negative temperatures that occur in the spring period is insignificant per day - 2-3 hours. During this time, there is no sufficient release of vaporous moisture from the soil, and consequently, no heat, since its passage through soil pores encounters great resistance. Therefore, to achieve the desired result, it is necessary to install a large number of hollow rods, which occupy a significant part of the useful area of the greenhouse.

 An object of the present invention is to increase the efficiency of using subsoil heat.

 The present task is achieved by the fact that in a greenhouse including a translucent coating and an installed above-ground heating system made in the form of hollow rods buried in the ground connecting the subsoil zone with the atmosphere, a closed cavity is created in the subsoil zone and the lower ends of the hollow rods are installed in it, while some rods are connected to the atmosphere under a translucent coating, and some outside. The height of the hollow rods protruding under the translucent coating is greater than the height of the rods protruding beyond it. The lower ends of the rods connecting the closed cavity with the atmosphere under a translucent coating are shorter than the ends of the rods connecting the closed cavity with the atmosphere beyond.

 The novelty of the proposed technical solution lies in the fact that a closed subsoil cavity connected to the atmosphere by hollow rods located in different temperature conditions is used as a heat accumulator in the greenhouse.

 The greenhouse (Fig. 1) consists of a translucent coating 1, under which a subsurface heating system 2 is installed, made in the form of a closed cavity 3, installed under a layer of soil 4. The closed cavity 3 is connected to the atmosphere by hollow rods 5 and 6. Moreover, the rods 5 connect the closed cavity 3 with the atmosphere under a translucent coating 1, and the rods 6 beyond.

 The lower ends 7 and 8 of the rods 5 and 6 are installed in the closed cavity 3, the lower end 7 of the rods 5 connecting the closed cavity 3 with the atmosphere under a translucent coating, shorter than the lower end 8 of the rod 6 connecting the closed cavity 3 with the atmosphere beyond.

 The hollow rod 5 under the translucent coating has an upper end 9 located higher than the upper end 10 of the hollow rod 6 located behind the translucent coating.

 The placement of the lower and upper ends of the hollow rods 5 and 6 with their indicated height relative to each other allows to intensify the process of air exchange.

The greenhouse operates as follows. In the daytime, the temperature outside the translucent coating 1 is lower than the temperature under the coating, but higher than the temperature of the closed cavity 3. Therefore, the air exchange process will be of low intensity, with the air flow under the coating. At night, the air temperature outside the translucent coating 1 becomes lower than under the translucent coating 1 and below the air temperature of the closed cavity. As a result of this, the process of air movement through the pipes is activated and warmer air of a closed cavity begins to flow under the translucent coating, displaced by the incoming cold atmospheric air. This prevents a decrease in air temperature under a translucent coating below 0 ^o C.

Claims (3)

 1. A greenhouse, including a translucent coating and an installed above-ground heating system, made in the form of hollow rods buried in the ground, connecting the subsoil zone with the atmosphere, characterized in that the subsoil zone has a closed cavity in which hollow rods are installed at the lower ends, part of the rods is located under a translucent coating, and part - beyond.  2. The greenhouse according to claim 1, characterized in that the height of the hollow rods located under the translucent coating is greater than the height of the rods located outside it.  3. A greenhouse according to claim 1, characterized in that the lower ends of the rods connecting the closed cavity to the atmosphere under a translucent coating are shorter than the ends of the rods connecting the closed cavity to the atmosphere beyond.