CS251830B1 - Device for regulating fluid outflows from pipe manifolds - Google Patents

Abstract

The solution relates to a device for regulating fluid outflows from openings of pipe distributions, usable e.g. in drainage and irrigation systems. The essence of the solution lies in the fact that it consists of tubular distributions with outflow openings connected to the pipe distributions by flow distributors, whereby this arrangement together with the inserted resistances directs the required pressure drop and outflow from the outflow openings. To regulate fluid outflows from openings, the flow distributors can be equipped with flow regulators and the outflow openings with outflow stabilizers.

Description

BACKGROUND OF THE INVENTION The present invention relates to a device for regulating the flow of fluid from pipe openings. Hitherto known comparable irrigation systems are point and drip irrigation, control drainage and drainage controllable drainage, the essence of which is based on the pressure discharge of water from openings into the soil environment.

The disadvantages of the point and drip irrigation are frequent clogging of the outflow openings and uneven water outflow, requiring difficult repairs, making operation more difficult and increasing operating costs, while subsurface installations have not yet been satisfactorily solved. A disadvantage of the existing control drainage or drainage with controllable drainage is the difficulty of realizing under established conditions in soils with low drainage porosity and low wicking intensity.

Furthermore, in a sloping area where it is necessary to build a large number of control shafts to achieve the desired level of water in the soil environment and more even soil irrigation.

The essence of the device for controlling the fluid outflows from the openings of the pipework consists in that it consists of tubing with outflow openings connected to the pipework of the flow manifold, while the arrangement together with the resistors directs the desired pressure drop and outflow from the outflow openings. Flow controllers and outflow openers can be provided with flow stabilizers to control fluid outflows from the orifices.

The main advantages of the device for controlling the outflows of fluid from the openings of the pipework are the possibility of subsurface placement at depth depending on the crops being grown, the physical properties of the soil, the way the soil is cultivated and the ability to control irrigation doses.

This eliminates the existing disadvantages of surface operation of point and drip irrigation, such as damage to equipment by mechanization and agricultural operations, wind, snow, ice, shortening of the lifetime due to sunlight and oxygen in the case of plastics, further changes in position of watering elements due to thermal expansion, clogging outlets, higher evaporation losses.

An advantage is also the reduction of labor in the application of the present invention in combination and central way of control of pressure and flow modes of water in low-pressure irrigation systems controlled by pneumomechanical control elements, thereby achieving high automation. Advantages of control drainage or drainage with adjustable drainage are expanded in the soil conditions with lower drainage porosity or low capillary wicking intensity, ie that the device according to the invention can be positioned in the soil environment so that the water outflow is at the required time and quantity and well communicated to topsoil and root zone.

In a sloping area, it is possible to achieve a faster wetting between drainage gauges, controlled by a pressure drop from the control element or shaft, as the water rises more rapidly into the drainage trench fill. of desired height and then gravitationally seeps through the subsoil layer along the hump. This latter method is advantageous in the case of uneven surface with soil depressions, where due to lower drainage porosity or higher soil layers above the drainage level, the required pressure level of the water level has to be achieved.

In this way, it is possible to control a larger irrigated area from one control element or shaft while maintaining a uniform deep water level from the soil surface. This reduces the number of control shafts or elements per area and reduces investment and operating costs. Production of the subject invention is undemanding and does not require foreign participation. It can be used in plant production, vegetable production, fruit growing, new construction, reconstruction and modernization as an intensification means.

The object of the invention is shown schematically in the drawing. The device consists of pipe distributions g, to which the flow distributors 4 are connected and to the outflow openings 6 are connected the outlet stabilizers 2. If desired, the distributors 6 may be provided with regulators 24 for finer flow control.

The water distribution lines X and e supply water to the flow divider 6, from where it is further guided through the pipe distribution system i to the outlet openings provided with outlet stabilizers 2. The distributors 6 may be provided with regulators 2 as required to provide finer flow control. The present invention is spatially positioned taking into account hydropedological and soil conditions and soil management methods to provide optimal soil moisture at a desired time.

The pressure and flow rate of the water from the manifolds X is controlled by the pressure losses in the flow manifold 6, possibly with the flow regulators 2, further by the pressure losses in the manifolds 11, and further by the flow stabilizers 2 connected to the outflow openings χ. The pressure and flow of water in the pipe system X and thus also in the pipe system X can also be controlled by means of control shafts (not shown) on the pipe system X, preferably pneumomechanically actuated in length.

Claims (1)

SUBJECT OF THE INVENTION A device for regulating fluid outflows from the openings of pipe distributions, to which tubular distributions equipped with an outlet are connected! orifices, characterized in that flow distributors (4) are connected to the piping (3) and outflow stabilizers (6) are connected to the outflow openings (2).