CS256669B1 - Device for greenhouses' vegetation heating - Google Patents

Description

The invention relates to a device for vegetative heating of greenhouses with open soil.

At present, the heating of greenhouses with free soil is realized in the upper part of the greenhouse, around the side walls, or in the space between the supporting columns of the greenhouse, there is a set of hot-water heating registers.

Thus, the entire interior of the greenhouses is heated, which is energy-intensive and less suitable for cultivated crops in terms of lower temperatures in the soil. A further disadvantage of the existing heating device is that the heating registers, which are located between the supporting columns of the greenhouse, limit the actual cultivation of the soil.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a vegetative heating device which substantially reduces the energy demand and improves the thermal conditions in the soil while heating the air layer in the vegetation space.

This object is solved by the invention, which is a device for vegetative heating of greenhouses with open soil. It is an object of the invention that the heating consists of a plurality of heating pipes, preferably of plastic pipes which are placed on the surface of the growing soil at a distance of 250 to 600 mm and connected to a source of heating water at a temperature of 50 ° C.

Another object of the invention is that the heating pipes are arranged parallel to one another in the direction of the longitudinal axis of the greenhouse, or that a pair of manifolds, a supply pipe and a return pipe are arranged around the transverse greenhouse walkway below the cultivation soil. it consists of separate loops, 2 of which each end is connected to the supply pipe and the other end to the return pipe of the manifold.

The device according to the invention achieves a higher effect by purposefully heating the necessary part of the cultivated soil and creating a layer of heat in the greenhouse production space, which is a plant stand. In the longitudinal arrangement of the heating pipes, sufficient working and growing space is created between them. The heating system of the device according to the invention can be easily disassembled in order to allow undisturbed mechanical treatment of the soil in the greenhouse between the planting of the new crops.

An exemplary embodiment of the device according to the invention is shown schematically in the accompanying drawing, in which Fig. 1 is a perspective view of a greenhouse with tubular distribution. Fig. 2 is a section I-I of Fig. 1 and Fig. 3 is a section II-II of Fig. 1.

The apparatus consists of a set of heating pipes 1, which are laid on the surface 7, of the cultivation soil in a greenhouse 8 at a pitch of 250 to 600 mm.

Preferably, plastic pipes such as rPE may be used. The system of heating pipes 1 is constituted by separate loops lb guided parallel to the longitudinal axis 11 of the glasshouse from the eighth transverse pavement 0 3 to the side wall 9. Each individual greenhouse-loop _lk ³ and one end c connected to the supply pipe 2a and a second end for return Ic the pipe 2b of the manifold 2. The connection of the heating pipes to the manifold 2 is effected by a conventional screw connection, preferably a corner fitting.

Piping 2 consisting of two pipes, inlet 2a. and a return pipe 2b (a pipe made of conventional steel tubes) guided around a transverse walkway 10 below the surface of the cultivation soil 7 ^{in a} groove or in a lined conduit, the inlet pipe 2a being located lower than the return pipe 2b.

The piping 2 is to be connected according to Tichelmann shown in the drawing. The manifold has the lowest point 2c at the inlet of the heating system and the highest point 2d at the outlet of the heating system.

The conduit 2 is connected to a heating water source 6. The heating water preheated in the heating water source to the required vegetation temperature according to the respective plants, however, to a maximum of about 55 ° C, is a circulation pump 5 whose flow rate must be designed so that the thermal gradient in the proposed heating system is not higher than 6 ° C, transported by piping 2, which has to be installed so that the supply pipe 2a is lower than the return pipe 2b, to the heating pipe system 1, where the heat transfer from the heating water takes place from about 1 / 3 to the soil and 2/3 to the atmosphere in the stand. Since the heating system cannot be completely vented when it is filled with water, it must be taken into account that the complete venting takes place only after a certain period of operation of the circulation pump 5.

For the same reason, it is necessary to select about twice the pressure of the circulation pump 5 against the calculated system loss of the system (using an independent system).

In an independent system, it is advisable to use an open expansion tank or an automatic air vent at the highest point of the system.

Claims (1)

An apparatus for vegetative heating of greenhouses with open soil, characterized in that it consists of a set of heating pipes (1) placed on the surface of the cultivation soil, which run from the transverse walkway (10) to the bonnet (9) of the greenhouse (8) and back to a transverse walkway (10), wherein the heating pipes (1) are connected at one end (1c) to the supply pipe (2a) and the other end (1c) to the return pipe (2b) of the manifold (2) which is arranged around the transverse walkway 10 / below the cultivated soil level. 1 drawing