CS254715B1 - Textile tubing system for impulsive irrigation - Google Patents

Abstract

The textile hose system made of two-layer hollow fabric coated with plastic or rubber is designed for impulse irrigation of agricultural crops. It consists of an irrigation water supply cavity, narrow discharge cavities and an impulse cavity, in the functional design of the system, overlapping, after folding along the line I-I, the area in which the discharge cavities and fabric contact surfaces are firmly joined by full-area welding, vulcanization or gluing. By increasing and decreasing the pressure of the water in the impulse cavity, the discharge cavities are closed and released, thereby interrupting the water flow for irrigation in the pulses. The spacing of the irrigation water outlets can be adjusted by cutting through the blinded orifices of the outlet cavities.

Description

BACKGROUND OF THE INVENTION The present invention relates to a textile hose system for the impulse irrigation of agricultural crops

Agricultural crops are currently irrigated nationwide or locally, ie by supplying water to individual plants only. For local irrigation a droplet or pulse system is used.

The drip irrigation systems consist of a supply line with outlets at the required distances from which very little water drips. Individual drip irrigation systems differ in the way the pressure in the outlet is reduced. The simplest way to speak is the long capillary discharge, which is either built directly in the pipeline or in a special body called a dropper, which connects to the manifold. The second solution uses self-regulating elements, such as flexible membranes, that adapt to the pressure difference. Both of these solutions have extremely high demands on water purity, as the holes are very small and clog easily. Another system is pulsed, where openings of relatively large clearance are periodically opened and closed. These systems have less water purity requirements, but are structurally complex, costly and less reliable when using movable elements - such as valves.

The drawback of the described system is overcome by a textile hose system in the form of a plastic or rubber double-layered two-layer hollow fabric. According to the invention, a double-layered hollow-woven fabric is a fabric which, by locally interconnecting the warp and weft yarns of the two layers of fabric, a series of arbitrarily arranged, separated or interconnected cavities.

SUMMARY OF THE INVENTION The double-layered cavity fabric has a cavity for the supply of water for irrigation, outflowing cavities formed therefrom formed by three sections perpendicular to each other, the central section of which is parallel to the cavity and whose blind mouths extend away from the cavity and finally parallel to the cavity of the impulse cavity, wherein the two-layered cavity fabric is folded longitudinally along the line passing through the mouths of the outlet cavities, so that the imaginary axes of the middle sections of the outlet cavities and the pulse cavity are superimposed and the interface surfaces are firmly joined.

Thus, the system consists of two cavities running in parallel in a woven state, with narrow, blind, angled outflow cavities extending from the first wider cavity, the width of which is at most half the width of the narrower cavity and their spacing is 50 to 1000 mm. In order to obtain the final shape of the hose system and to achieve the desired effect according to the invention, the woven and subsequently coated double-layered fabric is folded longitudinally just behind the blinded mouths of the outlet cavities by 180 °, applied to the surface of the rest of the fabric and welded to it Thus, the narrower longitudinally extending cavity now overlaps with the two continuous cavities the parallel portions of the outlet cavities extending from the first wider longitudinal cavity and blinded, perpendicular to the two longitudinally extending cavities, the outlets of the outlet cavities reaching the edge of the hose system. . Before use, only the outlets of the outlet cavities corresponding to the clip of the irrigation of agricultural crops are cut.

An exemplary embodiment of a textile hose system according to the invention is shown in the drawing, where the overall view of the woven and loaded hose system is before it is formed, folded and joined.

The textile hose system comprises a wider water supply cavity 7 and a narrower pulse cavity 2, the cavity being connected to a plurality of outlet cavities 2, the width of which is at most half the width of the pulse cavity 2 and formed by three sections perpendicular to each other. their central, generally the longest section is parallel to the cavity 1. The outflow cavities 3 have blind openings facing away from the cavity K On both outer sides, the plastic or rubber-coated tubing system is folded in the longitudinal direction along the line I-I so that the imaginary axes of the middle sections of the outlet cavities 3 and the pulse cavities 2 are superimposed. The folding surfaces are then firmly joined by welding, vulcanizing or gluing.

The function of the illustrated hose system is as follows. Before the system is filled with water, the individual layers of the two-layer fabric abut one another. Depending on the plant clip, some of the outlet cavities 2 are cut off their blinded orifices 4. Thereafter, the impulse cavity 2 is first filled with water. The pressure of the water increases its volume, thereby compressing the discharge cavities 2 and thereby closing them. A cavity 1 is then connected to a source of water for irrigation. After filling the cavity 2 with water, the hose system is ready for operation.

By decreasing the pressure of the water in the pulse cavity 2, the pressure of the outlet cavities 2 is released ^{and the} water flows out of the cavity. This is followed by refilling the cavity 2 with water for irrigation. This cycle is repeated at intervals given by the pressure impulse function, the water source capacity and the required irrigation intensity.

An example of a textile hose system according to the invention is a two-layer hollow fabric of a total width of 125 mm, length 100 m in the arrangement according to the drawing.

The fabric is made of low stretch PES silk fineness 167 dtex with 36 filaments using a hollow base linen weave. The width of the outer interwoven strip adjacent to the cavity 2 ^{e e} 13 mm, the width of the cavity 2 40 mm. The width of the pulse cavity 2 is 20 mm, and the width of the outer band adjacent to the pulse cavity 2 is 8 mm. The central strip between the two cavities 2 ^and Z 'in which the outlet cavities 3 are accommodated is 44 mm wide. The width of the outlet cavities 3 is 8 mm and the length of the section of the outlet cavity 2 parallel to the cavities 2 ^and Z is 30 mm. The axial distance between two adjacent outlet cavities is 100 mm. The impermeability of the entire fabric is ensured on both sides by a 1 mm thick PVC coating. The hose system is then folded along the line II for proper function and the contact surfaces joined by welding.

The pulse irrigation textile hose system can be used to irrigate or fertilize agricultural crops and garden crops or fruit trees. However, they can also be used for distribution and dosing of other non-aggressive liquids in other areas of the national economy.

Claims (3)

A textile tubing system for the impulse irrigation of agricultural crops with a plastic or rubber-coated two-layer hollow fabric, characterized in that the two-layer hollow fabric has (1) for irrigation water supply, outflowing cavities (3) projecting therefrom formed three having perpendicular sections whose central section is parallel to the cavity (1) and whose blinded mouths (4) extend from the cavity (1) and finally a pulse cavity (1) arranged parallel to the cavity (1) 2), wherein the two-layer hollow fabric is folded longitudinally along the line passing through the mouths (4) of the outlet cavities (3) so that the imaginary axes of the middle sections of the outlet cavities (3) and the pulse cavity (2) lie on each other and the interface surfaces are firmly connected. The textile hose system according to claim 1, characterized in that the width of the water supply cavity (1) is greater than the width of the impulse cavity (2) and the width of the outlet cavities (3) is at most half the width of the impulse cavity (2). .