CS207252B1 - Prefabricated spatial panel for the hothouses - Google Patents

Description

BACKGROUND OF THE INVENTION The present invention relates to a prefabricated spatial panel for greenhouses consisting of an upper arched part connected to a hollow column support.

Current types of greenhouses generally consist of a load-bearing steel structure on which a glazing structure is mounted, which is usually in the form of a gabled or semi-cylindrical roof. In another case, a modular structure is used which has the character of a slatted system consisting of a series of intersecting triangular surfaces. Most of these greenhouses are equipped with ventilation, heating and irrigation equipment, usually stored in the soil. The current greenhouses are mostly stable in nature and are not easily adjustable, have a constant character of ventilation, it is not possible to add the number of fans or to move them arbitrarily. Also, watering with heated rain or spraying water is generally not used.

According to the invention, the above-mentioned drawbacks are eliminated by a prefabricated greenhouse space panel consisting of an upper arched part connected to the hollow column support. It consists in that the upper arch part, consisting of four identical parts of the cylindrical arches connected to each other in the valleys and at the point of contact of the valleys, is connected to a hollow column support provided with a cap in its upper part and outlet openings along its length. the vaults are provided with connecting flanges on the outer edge.

According to preferred embodiments of the invention, the normal cross-sectional area of identical parts of the cylindrical arches can be limited by equidistant curves of convex or concave shape.

The construction according to the invention makes it possible to assemble the greenhouse easily and quickly, the assembly of the prefabricated spatial panels is simple and consists in the seating of the feet of the supports and in the connection of the flanges of the adjacent panels. Rain or spray water can be retained in the mushroom-like part of the vaults, which can be allowed to enter the interior of the greenhouse after it has been heated by solar radiation or ambient air temperature. Thermal energy and water resources are also saved. If the prefabricated spatial panel is made of non-vitreous material, it can transmit more ultraviolet radiation. Removing the assembly and moving it to another location is quite easy. Any tilting of the side planar plates allows different degrees and character of ventilation.

The invention is described in more detail below with reference to the accompanying drawings, in which: FIG.

Fig. 2 shows a prefabricated spatial panel in front and section along line A-A in Fig. 2;

3 and 4 show suitable normal sectional shapes of a part of a cylindrical arch.

The prefabricated spatial panel consists of four identical parts of the cylindrical arches 1, 2, 3, 4 connected to each other in the valleys 5, 6, 7, 8.

At the point of contact of the valleys 5, 6, 7, 8, a hollow column support 15 is provided, provided with a foot 23 in the lower part. The parts of the cylindrical arches 1, 2, 3, 4 intersect in the four valleys 5, 6, 7, 8 part of the cross vault supported at its heel. The hollow column support 15 has holes 17 evenly distributed throughout its length, and the upper portion of the hollow column support 15 is closable by the closure 16. The cylindrical arches 1,2,3,4 are on their circumference, i.e. the arch closure provided with connecting flanges 18, by means of which adjacent parts can be joined in the entire vault or provided with a tilting flat plate 20 abutting its other end to the ground. Parts of the cylindrical arches 1, 2, 3, 4 may either be convex in shape to provide less space to retain water above the arch, or they may be concave in shape to provide more space for retaining water. Rain or spray water which is retained or accumulated in the space above the cylindrical arches 1,2,3,4, i.e. in the mushroom-shaped part of the prefabricated spatial element, is heated by solar heat or ambient air temperature and after heating it can be released by releasing the closure 16 into the cavity of the hollow column support 15 and from there openings 17 into the interior of the greenhouse. Greater ventilation can be accomplished by tilting the oblique planar plates 20 either against one another or only from one side. Small venting can be done by loosening the closure 16. The ease of assembly of the entire greenhouse from prefabricated space panels is possible by joining the connecting flanges 18 either by means of connecting screws or spring clips.

As can be seen in FIGS. 3 and 4, the normal cross-sectional areas of identical parts of the cylindrical vaults can be limited by equidistant curves 21, 22 of convex or concave shape, as needed to create a water supply in the space above the cylindrical vault.

The prefabricated spatial panel can also be used in other construction fields as a structural or architectural element.

Claims (3)

Prefabricated greenhouse spatial panel consisting of an upper arch part connected to a hollow column support, characterized in that the upper arch part, consisting of four identical parts of the cylindrical arches (1, 2, 3, 4), connected to each other in the valleys (1). 5,6,7,8), and at the point of contact of the valley with the hollow column support (15) provided with a cap (16) in its upper part and outlet openings (17) along its length, the parts of the cylindrical arches (1, 2) 3, 4) are provided on the outer edge with connecting flanges (18). Prefabricated spatial panel according to claim 1, characterized in that the normal sectional area of the identical parts of the cylindrical arches (1, 2, 3, 4) is limited by equidistant curves (21) of convex shape. Prefabricated spatial panel according to claim 1, characterized in that the normal sectional area of identical parts of the cylindrical arches (1, 2, 3, 4) is limited by equidistant curves (22) of concave shape.