RU166490U1 - Greenhouse for growing seedlings - Google Patents

Abstract

A greenhouse for growing seedlings, including a transparent fence, a base frame, a above-ground air cavity and soil for sowing seedlings, characterized in that the transparent fence is made in the form of a continuous frame, for example, of polycarbonate, and the base frame is made in the form of a box of corners, based on square pipes and forming a subsoil cavity with the soil surface; in this case, a rigid insulation is placed in the duct, on the surface of which layers of heat-reflecting foil, thermofilm, and polyethylene are successively laid a marketing and waterproofing film, on which is laid a box filled with planting soil.

Description

The utility model relates to the field of agriculture and is intended for growing seedlings of early crops in closed ground.

A warm bed is known that includes a above-ground heating system in the form of rods buried in the ground (A.S. USSR No. 1055419, 1595396, class A01G 9/14). The disadvantage of these devices is their low efficiency, the need for additional energy costs for heating, since they use only convective heat of the soil and do not use the heat of vaporous soil moisture.

A greenhouse is also known, including a supersoil heating system made in the form of hollow rods buried in the ground connecting the subsoil zone with the atmosphere (RF Patent 2127036, class A01G 9/14; 9/24).

The disadvantage of this warm beds is its low efficiency. This is because in order to achieve the desired result, it is necessary to install a large number of hollow rods, which occupy a significant part of the usable area.

The closest in its technical essence is a warm bed, including a plot of land, under which a closed cavity is made, communicating with the atmosphere with intake and exhaust ducts of different lengths, installed with lower ends at different cavity heights, a heat-generating nozzle (film cover) is installed above the upper end of the exhaust duct (RF patent 2190317, class A01G 9/14).

The disadvantage of this design is that it is unprofitable to use it for small areas of soil, since installation of the frame and a large amount of covering translucent material are required. Since the film cover covers not only the opening of the upper end of the exhaust duct, but also the entire bed, then the air is heated under the film cover, and not in the duct. As a result, there is a large temperature gradient between the air under the film and the air in the duct, and the air at the upper end of the exhaust duct has a temperature lower or in extreme cases the same as under the film.

To eliminate the above disadvantages, it is necessary to prevent the outflow of heat through the planting soil.

The technical essence of the present invention is to increase the efficiency of the greenhouse by preventing heat loss due to its outflow through contact with the soil under the planting soil and moistening it with vaporous moisture generated due to the greenhouse effect.

The objective of the present invention is to develop a design of the greenhouse, which allows to increase the efficiency of the greenhouse by reducing heat loss due to its outflow through contact with the soil under the planting soil and moistening it with vaporous moisture generated due to the greenhouse effect.

The specified technical result (increasing the efficiency of the greenhouse) is achieved by the fact that in the well-known greenhouse for growing seedlings, including a transparent fence, a base frame, a ground air cavity and soil for sowing seedlings, a transparent fence is made in the form of a continuous frame, for example, of polycarbonate, and the frame the base is made in the form of a box of corners, resting on square pipes, and forming a subsoil cavity with the surface of the soil, while a rigid insulation is placed in the box, on the surface of which th layers sequentially stacked heat reflecting foil, heating film, polyethylene film and insulation, which is laid on which the stacked box filled with planting soil.

- The combination of these signs gives a technical effect - increasing the efficiency of the greenhouse.

An additional search for similar technical solutions in the scientific and technical literature showed that there is no technical solution with a given set of features that provide a given technical result, therefore, this technical solution has novelty, it does not follow from the existing level of technology, therefore, it has an inventive step, and the possibility of implementing the proposed design emphasizes that it is industrially applicable.

The greenhouse for growing seedlings is illustrated by the following drawing: in FIG. 1, where it is shown in section.

The greenhouse for growing seedlings consists of a transparent fence - 1, a base frame made in the form of a box of corners - 2 and square pipes - 3, a soil above the air cavity - 4, while a rigid insulation - 5 is placed in the box, on the surface of which layers are laid sequentially heat-reflecting foil - 6, thermofilm - 7, polyethylene film - 8 and waterproofing - 9, on which it is laid, on which the box is laid - 10, filled with planting soil - 11, above which there is an under-ground space - 12.

The greenhouse for growing seedlings operates as follows.

In the daytime, the sun's rays or solar radiation (in cloudy weather) heats the soil 11 through transparent light-transmitting material, which transfers its heat to the air surrounding it, located in the above-ground part of the greenhouse, as well as a small part of it due to the low heat transfer of the insulation - 5 is transmitted of the entire subsoil air cavity - 4, which also serves as a heat insulator between the cooled soil and hard insulation 5. Moreover, the moisture that is present in the soil - 11 and in the above-ground air space - 12, hiccups in the aerial air cavity 4 and the greenhouse gas, thereby increasing the efficiency of the greenhouse.

The application of the proposed invention in comparison with the known [2] will ensure the achievement of the expected technical effect - increasing the efficiency of the greenhouse by reducing heat loss due to its outflow through contact with the soil under the planting soil and moistening it with vaporous moisture formed due to the greenhouse effect.

Sources of information used in the preparation of the description of the utility model:

1. Warm bed. A.S. USSR No. 1055419, 1595396, class A01G 9/14.

2. Greenhouse. RF patent 2127036, cl. A01G 9/14; 9/24

3. Warm bed. RF patent 2190317, cl. A01G 9/14

Claims (1)

A greenhouse for growing seedlings, including a transparent fence, a base frame, a above-ground air cavity and soil for sowing seedlings, characterized in that the transparent fence is made in the form of a continuous frame, for example, of polycarbonate, and the base frame is made in the form of a box of corners, based on square pipes and forming a subsoil cavity with the soil surface; in this case, a rigid insulation is placed in the duct, on the surface of which layers of heat-reflecting foil, thermofilm, and polyethylene are successively laid a marketing and waterproofing film, on which is laid a box filled with planting soil.

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