CZ7689U1 - Irrigation plant for stepwise irrigation - Google Patents

Description

Technical field

The technical solution concerns the construction of irrigation equipment for step irrigation of large-scale grassed land or land with agricultural and cultural plants.

BACKGROUND OF THE INVENTION

In addition to the basic types of irrigation by water, underground or surface water distribution, a number of machines and equipment for large-area irrigation of land are known.

The most widespread devices are coil irrigation machines, the so-called belt irrigators, which according to the method of winding and pulling the sprayer tip over the irrigated land are divided into irrigators with coiled or trailed hose. A common disadvantage of both types of belt irrigators is that a hose with an average length of 300 meters and wound on a spool has to be deployed as a rule by means of a tractor, thereby compaction of the soil. Further disadvantages are the large purchase costs and relatively high energy operating losses, when all the volume of process water has to flow through the entire hose and some of the energy has to be spent on winding or pulling the hose.

For large-area irrigation of areas, wide-width frontal or pivot irrigators are used, which consist of a pipe with an average length of 500 meters, equipped with sprinklers, which is carried on a truss structure fitted with bogies. In a pivot sprinkler, water is supplied to a pivot element around which the entire device is rotated, and to the front sprinkler water is supplied via a pump from a trailing hose or a longitudinal irrigation channel.

The disadvantage of these devices is the high purchase costs and limited usability only on land without major unevenness, in which there must be no other obstacles, such as trees or power poles.

A general disadvantage of all the above-mentioned devices is that the irrigation water is mostly sprayed over the plants to relatively high heights and distances by means of nozzles and sprinklers, thereby causing a large evaporation of the water without being used for irrigation. Further disadvantages are that the efficiency and uniformity of irrigation is very sensitive to wind and in many cases undesirable moistening of the above-ground parts of the plants creates a favorable climate for the development of fungal and fungal diseases.

The essence of the technical solution

These disadvantages are overcome to a large extent by a step irrigation irrigation system comprising at least one flexible irrigation hose, which is provided with irrigation water outlets or sprays along its entire length and which is connected to a source of irrigation water, which consists in: a loop is formed laterally in the irrigation hose, in which a guide element is attached to the irrigation hose and coupled to the carriage by means of a boom.

In a preferred embodiment, the carriage is provided with at least two traveling wheels, of which at least one is driving and coupled to the drive. In this case, one of the wheels can be mounted laterally as an arm support, which can be rotatably mounted on the carriage when the drive can be equipped with a control and control block. The carriage wheels may be arranged one after the other and are provided with a guide groove on the periphery, being mounted on the irrigation hose, and the carriage is provided with folding stabilizing legs connected to the control and control block.

Another principle of the solution is that the guide element is mounted in the middle part of the arm, on whose free end a laying element is mounted, which is mounted on the irrigation hose and is provided with a catch hook, the laying element can be formed by a carriage

The wheels have a circumferential groove which is mirrored on the irrigation hose relative to the trolley mounted on the irrigation hose.

It is also essential that the irrigation hose is provided with a catch element at the end of the opposite connection to the irrigation water source or at both ends, and at the end with the irrigation water connection attached to the coating device and the irrigation device may consist of two or more interconnected or multi-stranded irrigation hoses where one of the irrigation hoses is free of holes.

The new design of the irrigation system significantly reduces purchase costs, facilitates the handling and operation of the equipment and ensures high uniformity of the irrigation dose. At the same time, the effect of wind on the irrigation of irrigation is eliminated, in the case of higher plants, the upper leaf part is not wetted during irrigation and the amount of evaporated water is reduced and the energy efficiency of irrigation is increased by using lower operating water pressure.

Description of the figures in the attached drawings

Specific embodiments of the invention are schematically illustrated in the accompanying drawings, in which Fig. 1 represents the three basic phases of operation of the irrigation device, in the lower part of the figure the irrigation hose in the basic position without the change carriage. in the direction and at the top of the figure, the alignment of the trolley on the irrigation hose at the dead center after the overturned loop for reverse movement. Giant. Fig. 2 is a detail of the basic design of the trolley; Fig. 3 an alternative solution of the irrigation trolley with two parallel irrigation hoses; and Fig. 4 an alternative embodiment of the trolley for unmanned tilting. FIG. 5 shows the structure of the carriage with a pivotable and laterally adjustable arm supported by one of the wheels provided with tires; and FIG. 6 shows an alternative embodiment of the carriage of FIG. 5 adapted to travel one of the wheels on the irrigation hose.

Examples of technical solution

The irrigation device consists of a flexible irrigation hose L, preferably made of polyolefin, which has openings 101 for the irrigation water outflow or spraying along its entire length and which is connected to a source 4 via a quick coupling 2 and a connecting hose 3 provided with a shut-off valve. irrigation water, such as a pump, and at the opposite end is blinded and provided with a retaining element 102, for example an eye. At the end of the connection of the connection hose 3, the irrigation hose 1 is then attached to a coating device 103, for example a hydropower winch, to allow it to move during irrigation, thereby ensuring an increase in uniformity and a reduction in the local intensity of the irrigation dose. A trolley 5 is mounted on the irrigation hose 1, which is provided with two successive traveling wheels 51, the circumference of which has a guide groove 511. One of the traveling wheels 51 is driven and coupled, for example by a V-belt 6, with a drive 7, e.g. The drive 7 is equipped with a control and control block 71 for controlling the direction of movement, stopping the carriage 5 at the headland, tipping over the irrigation hose loop 1 and regulating the irrigation time. This control and control block 71 is also connected to an inclined, preferably at an angle of 45 °, of the hub 8, in which the arm 9 is rotatably mounted on a pin (not shown). The arm 9, preferably articulated and adjustable in length and height, is centrally provided with a guide element 91, for example a guide pulley or fork, and at the end with a laying element 92, for example a guide pulley, and a catch hook 93. Further, the carriage 5 is provided with hinged stabilizing legs 10 also interconnected with the control and control block 71.

Before starting the irrigation, the operator unfolds the irrigation hose, connects it to the irrigation water source 4 and then irrigates the first strip of land. After the selected period of time, the irrigation water supply is closed and the operator disconnects the irrigation hose 1 from the connecting hose 3,

Irrigation hose 1 loop into which the guide element 91 of the arm 9 and the carriage 5 and the laying element 92 are inserted. Subsequently, it connects the hoses i and 3, opens the irrigation water supply and starts the drive 7 of the carriage 5. to its opposite end when the formed loop rolls like a wave. At the end of the irrigation hose 1, the laying element 92 travels with its catch hook 93 to the fixed gripping element 102 where the forward movement of the carriage 5 is stopped and the irrigation hose 1 is in a position to irrigate another strip of land. After a given irrigation period, on the basis of a pulse from the control and control block 71, the process of lateral adjustment of the irrigation hose J is started by a further step. First, the stabilizing legs 10 are tilted to rest on the ground, and by rotational movement of the hub 8 the arm 9 is tilted 180 ° so that the laying element 92 with the hooked end of the irrigation hose J first performs an upward and then downward arcuate movement. the end of the irrigation hose 1 is laterally displaced by a distance given by the double reach of the boom 9, thereby bringing the carriage 5 to the mirror position shown in the upper part of Fig. 1. when the truck 5 reaches the dead center and after it stops, the next strip of land starts to be irrigated. After the selected time and closing of the irrigation water inflow, the operator disconnects the hoses 1 and 3 and manually adjusts the carriage 5 and the irrigation hose loop i and the next irrigation cycle can be realized from another starting position laterally shifted one step.

The described construction is not the only possible embodiment according to the invention, in which Fig. 3 shows an irrigation device consisting of two or more interconnected or more stranded parallel irrigation hoses 1, which guarantee better stability of the direction of water flowing out of orifices 101 where the wheels 51 In this case, one of the irrigation hoses J need not be provided with apertures 101 and can only have a function when connected to the opposite end of the irrigation hose I itself with the apertures 101. It is not then decisive whether the springs of the irrigation hose I are closed they are not separate and are only coupled together.

In the alternative embodiment of the irrigation device of FIG. 4, at the end of the boom 9, instead of the laying element 92, another trolley 5 with a separate drive 7 and a control and control block 71 for mirroring and running is mirrored. the control and control blocks 71 must be coupled together to synchronize their drive and the operator only connects and disconnects the connecting hose 3. The tilting of the carriages 5 is then effected by extending and retracting the telescopic supports 94 of the arm 9, the function of which is phased by rotating the hub pin 8.

Step irrigation can also be achieved by a self-propelled trolley 7 or a human-powered trolley, in which one of the wheels 51 is laterally supported and serves as a support for the boom 9 whose position can be rotated 180 ° relative to the trolley movement. The direction of movement of the carriage is then directed by the steering wheel 52 instead of the laying element 92. The arm 9 in this case is provided only with a guide element 91 disposed at its end. The wheels 5 of the carriage 5 in this case move outside the irrigated soil strip and are not provided with a guide groove 511 but tires 512 on the circumference. As shown in Fig. 6, the wheel 51 of the carriage 5 supporting the arm 9 can be moved over the irrigation hose 1. thus ensuring a more accurate laying of the irrigation hose JL

The shape and material design of the irrigation hose 1 as well as the size, shape, density and uniformity of the distribution of the apertures 101, which are determined by the required general irrigation quality criteria, are not critical to the basic design concept of the irrigation device and need not be specified for this solution. Likewise, the irrigation hose J need not be integral but can be made up of segments connected by quick couplings without affecting the functionality of the device and the quality of the irrigation.

Claims (12)

-3 CZ 7689 Ul PROTECTION REQUIREMENTS A step irrigation irrigation device comprising at least one flexible irrigation hose, which has openings for the irrigation water outlet or spout along its entire length, and which is connected to a source of irrigation water, characterized in that the irrigation hose (1) has: a loop is formed laterally in which a guide element (91) is mounted on the irrigation hose (1) and coupled to the carriage (5) by means of an arm (9). Irrigation system according to Claim 1, characterized in that the carriage (5) is provided with at least two wheels (51), at least one of which is drive and coupled to the drive (7). An irrigation device according to claims 1 and 2, characterized in that one of the wheels (51) is mounted laterally as a support of the arm (9), which can be rotatably mounted on the carriage (5). An irrigation device according to claims 1 to 3, characterized in that the drive (7) is equipped with a control and control block (71). Irrigation device according to claims 1 to 4, characterized in that the traveling wheels (51) of the carriage (5) are arranged one behind the other and are provided with a guide groove (511) on the circumference and are mounted on the irrigation hose (1). Irrigation system according to claims 1 to 5, characterized in that the carriage (5) is provided with folding stabilizing legs (10) connected to the control and control block (71). Irrigation device according to one of Claims 1 to 6, characterized in that the guide element (91) is mounted in the central part of the arm (9), on the free end of which the laying element (92) is mounted, which is mounted on the irrigation hose (I). ) and is provided with a catch hook (93). Irrigation system according to claims 1 to 7, characterized in that the laying element (92) is formed by a carriage (5) with successive traveling wheels (51) with a circumferential groove (511), which is mirrored on the irrigation hose (1). relative to the trolley (5) mounted on the irrigation hose (1). Irrigation device according to claim 1, characterized in that the irrigation hose (1) is provided with a catch element (102) at the end of the opposite connection to the irrigation water source (4) or at both ends. Irrigation device according to claim 1, characterized in that the irrigation hose (1) is attached to the coating device (103) at the end connected to the irrigation water source (4). An irrigation device according to claim 1, characterized in that it comprises two or more interconnected or multi-strand irrigation hoses (1) An irrigation device according to claim 11, characterized in that one of the irrigation hoses (1) is free of apertures (101). 6 drawings -4GB 7689 Ul FIG -5J CZ 7689 Ul FIG -6GB 7689 Ul FIG -7GB 7689 Ul