CS231831B1 - Sectional structure of a foil cover for rapid growing of agricultural products - Google Patents

Abstract

The invention solves the problems of modular construction construction of foil cover for agricultural fastening crop by creating modular longitudinal and transverse structures tubes connected by laces, allowing both easy assembly of the structure in any length and its disassembly. Modular the construction is also used for irrigation inside the film cover so that at least one of the longitudinally spaced The pipes are provided with openings along the length and are connected the water source that

Description

The object of the invention is a modular construction of a foil cover for speeding up agricultural. crops made of tubes and joints, which are also used to supply water to irrigate the interior of the foil cover.

In most cases, foil covers for speeding up agricultural crops are installed on a supporting structure made of wood, which is usually non-detachable. At the end of the season, it is necessary to leave such a structure in place during the winter or to disassemble it violently, often causing damage. The wooden structure, which is left in place all year round, suffers from excessive climatic influences. Removable constructions made of wooden prisms connected by fittings or joints made of aluminum Jockel profiles are also known. A disadvantage of such constructions is the costly and technologically difficult production of the fittings as well as the use of wood which, under the foil cover, suffers from the action of a wet microclimate. Metal structures, mostly made of steel tubes or rods, are often severely damaged by corrosion and, when dismountable, are usually difficult and time consuming to handle, especially if they are of larger dimensions. A further disadvantage of the known foil covers is the lack of handling space during irrigation, which can be carried out on low covers only after the foil has been removed or after the entire cover has been removed.

The above-mentioned disadvantages are overcome by the modular construction of the foil cover according to the invention, formed from longitudinally and transversely laid tubes joined by joints, at least one of the longitudinally laid tubes being connected by a hose to a water source and provided with openings along its length.

The joints are formed by tubes for insertion of tubes and reinforcing ribs provided with an opening for passing through the cable reinforcements of the foil cover. The hub axes meet at one point, and the hubs have baffles, the additional perforations of which can be used to connect the individual pipes so that water can be fed into the respective parts of the structure.

The advantage of the modular construction according to the invention is that it can be assembled easily and quickly at any distance and also easily disassembled, and that it allows a perfect irrigation of the inner space of the foil cover without any manipulation.

Another advantage of the modular construction is the possibility of irrigation by spraying from above, as well as irrigation of crops from the lower circumferential tubes to the roots, depending on the type of crops covered, because some crops do not tolerate spraying of above-ground parts of the plant.

Another advantage is the preheating of the feed water in the tubular structure, whereby by suitable perforation of the baffles in the joints, the individual tubes can be interconnected so that the water flows through, for example, the entire perimeter of the structure before being fed into the spray tube.

BRIEF DESCRIPTION OF THE DRAWINGS In the accompanying drawing, exemplary embodiments of a modular foil cover structure according to the invention are shown, FIG. 1 schematically showing a modular foil cover structure in axonometric view, and FIG.

The modular structure of the longitudinally and transversely laid tubes 8B connected by the joints A, 2 'is covered with a foil cover 6 and a hose 6 is connected to a water source, the longitudinally arranged tubes 1 being provided with spraying openings. Individual fields of the foil cover 1 are provided with strand reinforcements 2 to increase wind resistance. The sleeve 6 is formed by hubs 20 reinforcing ribs 12, in which openings 13 are provided for receiving cable reinforcements 2. Barriers 2 are provided with baffles 11, whose individual tubes of the structure may be connected by drilling or piercing. The modular structure is anchored to the ground by pins g. The joints are preferably made of a plastic molding with a 120 ° angle to assemble the roof part of the structure and 90 ° to assemble the lower tubes. However, the modular construction of the foil cover can alternatively be assembled so that the vertical tubes are driven into the ground so that the lower peripheral tubes are not used and only the joints A with a t20 ° angle are sufficient to assemble. Because of the unification, the joints are provided with three hubs so that they can also be used to form corner joints. The joints can be fitted on the sides so that their free hubs direct the cell into the inner space of the foil cover or out. In the first case, these free hubs can be used to connect other transversely laid pipes provided with holes for irrigation.

Loose hubs directed outside the foil cover are used both to connect to the hose 6 and to anchor them to the ground with pins 8 as a protection against overturning the cover by strong wind.

Due to the required strength, low weight and corrosion resistance, thin-walled tubes made of aluminum or aluminum alloys are suitable for assembling the modular construction.

Claims (1)

SUBJECT OF THE INVENTION Modular construction of foil cover for agricultural crop acceleration, made of longitudinally and transversely laid tubes and joints, characterized in that the joints (4, 5) are formed by hubs (9) with partitions (11) for sliding pipes (2, 3) and reinforcing ribs (10) with openings (13) for threading the cable stiffeners (7) of the foil cover (1), wherein at least one of the longitudinally disposed tubes (2) is provided with openings (12) and connected by a hose (6) to a water source.