CS229801B1 - Inner pneumatic closure for drainage systems - Google Patents

Abstract

An inline pneumatic closure for shaftless drainage systems, particularly suitable for regulating the groundwater level at higher gradients. The application of the invention belongs to the field of land reclamation and irrigation in the agricultural sector. The purpose of the invention is to ensure the regulation of draining groundwater, especially during droughts, preferably by adjusting the groundwater levels in the sloping relief of the soil so that the insufficient water can be used by plants as bottom irrigation. The essence of the invention lies in the use of a pneumatic closure, which is fixed to a cutout in the drainage pipe, and this pipe closure prevents the flow of water by opening the membrane, which is caused by a pressure medium introduced from the central point of the space between the flexible membrane and the outer cover. Several of these closures are always included in the drainage pipe. The use of the invention is possible in the production facilities of some construction land reclamation cooperatives, or in other simple production facilities.

Description

In-line pneumatic shutter for shaftless drainage systems, especially suitable for groundwater level control at larger gradients.

The use of the invention belongs to the field of soil improvement and irrigation in the agricultural sector.

The purpose of the invention is to provide control of the run-off of groundwater, especially during drought, preferably by adjusting groundwater levels in the gravity of the soil so that scarce water can be used by plants as underwater irrigation.

SUMMARY OF THE INVENTION The invention is based on the use of a pneumatic closure which is fastened to a cut-out in a drainage pipe, which closure prevents the flow of water by opening the diaphragm, causing a pressure medium admitted from the central space between the flexible diaphragm and the outer cover. Several of these closures are inserted into the drainage pipes.

Application of the invention is possible in the production plants of some building amelioration cooperatives, or in other simple plants.

BACKGROUND OF THE INVENTION The invention relates to a pneumatic closure for drainage systems, which is particularly suitable for the control of drainage at a larger gradient, allowing the control of meliorated water in the drainage pipe outside the drainage wells in the field.

Known closures for regulating the drainage water level are used in practice as mechanical closures used in an open shaft. Closing is done by shearing the debris. The drain is interrupted by damming the drain hole. The beds can also be placed in front of the drainage pipe and the height by adjusting the bed could also increase the groundwater level up to the height of the overflow over the bed. The disadvantages of this method of control are that the barrier could not be sealed successfully; the control had to be carried out separately in each shaft, which required considerable labor. This method can be used in a flatter area where the density of open shafts is low. In order to reduce laboriousness, automatic • control systems for groundwater level control are being built, based on the control of gates included in drainage pipes in open shafts.

These gate valves are controlled by servomotors, which are controlled centrally by a controller. This method has drawbacks in complexity, high acquisition costs, electrical dependency, etc. Due to the complexity, the devices are less reliable in operation. Another method of closing the drainage pipe is by means of flaps that close the drain pipe in open drainage shafts. Opening is done mechanically with a pull rod. The disadvantages of this method are the same as the described disadvantages of closing the pipeline with debts. There are also known pressure regulating closures based on the principle of air opening of the bag, these bags are usable for mounting only in the open shaft and do not allow level control during longer drainage water drainage especially during larger slopes when open shafts are not so densely constructed. horizon in the dry period the groundwater level at the appropriate height usable by plants.

The above-mentioned disadvantages are overcome by the in-line pneumatic closure for the shaftless drainage systems according to the invention, which consists of an outer cover which is hermetically fastened to its flexible membrane and to the pipe cut-out at its edges. A pressure medium inlet opens into the outer casing.

The integrated pneumatic closure for shaftless drainage systems and its connection in the drainage system brings a number of advantages, the most important of which is the reduction of investment costs, acceleration of investment construction and reduction of labor in operation. It allows the use of affordable and more advantageous materials with a longer service life. The device works very reliably, both at closing and at controlled flow through the drainage pipe. It allows for further shifting of the sediment at the bottom of the drainage pipe and does not cause the subsequent poor closure of the pipe, as occurred in the slide system. The advantage is that the closure of any sections of the drainage pipe where the shutters are installed, the shutters can be operated from a single operator location. It is advantageous to use this system especially in terrain with a larger gradient. It also exploits all the benefits of regulatory drainage, such as the fact that water does not come into direct contact with the underground part of crop plants, thus reducing the possibility of spreading certain plant diseases, not damaging the soil structure, reducing the demands on agrotechnical soil treatment, water accumulation underground, the purification effect of the drainage pipes, the increase in the culture of work and, last but not least, the present invention can be used to supply water in an infiltration area. The shutter works reliably also on long drainage drains, where it is advisable to include several of these shutters in order to regulate the level of groundwater levels in individual terrain reliefs. Operation of the entire series of closures is only from a suitably defined central location. Possibility of drainage water regulation, which is closed in several places of the drainage pipeline order. allows the groundwater level to be adjustable in arbitrarily set sections of the main drainage, and the level from the inflow side tongues is also affected. This makes it possible to use the ground water for the lower irrigation during the drought, even at larger gradients. This system makes it possible to eliminate the construction of expensive open manholes, as the regulation is adapted directly in the underground pipeline and therefore the manholes do not have to be built. The flow rate for shaftless drainage systems can also be regulated by introducing the specified medium pressure into individual pneumatic valves.

An example for guiding an intermediate pneumatic closure for shaftless drainage systems is shown in the drawing, wherein Fig. 1 is a side view of the closure in open flow condition; Fig. 2 is a front view of the closure in section A-A in open flow condition; Fig. 3 is a side view of the cap in a closed flow condition.

An inlet pneumatic closure for shaftless drainage systems is located on the drainage pipe 1, in which a pipe cutout 5 is provided. The pneumatic closure is formed by an outer cover 3, into which the pressure medium inlet 2 is connected. A flexible membrane 4 is located below the outer cover 3. The outer cover 3 is hermetically connected to the flexible membrane 4 at its edges and at the same time the outer cover 3 is hermetically fixed at the edges of the pipe cut-out 5.

The pneumatic closure of the drainage systems is mounted on a part of the drainage pipe 1, which has a pipe cutout 5. The outer cover 3 is fitted to the drainage pipe 1 either by gluing or by other fastening which ensures the hermetic connection of the outer cover 3, flexible membrane 4 and 5. After the drainage pipe 1 has been fitted with a pneumatic closure, the treated drainage pipe 1 is placed in the order of an unmarked drainage pipe, which is inserted into the grooves of the newly refurbished soil. The insertion of the pneumatic closure in the length of the dreamer pipe is preferably carried out below. opening of the transverse tongues of the drain into this main unmarked drainage pipe. Before including the entire order, the pressure medium inlets 2 are connected by parallel, unmarked gas medium conductors, which are routed in the trench along the pipeline surface from the individual pneumatic closures to a single central control location where an unmarked pressure medium source such as a cylinder is located.

Any sections of the unmarked drainage pipe are closed by injecting the pressure medium to the individual pneumatic valves.

The air medium passes through the pressure medium inlet 2 into the space between the outer casing 3 and the diaphragm spring 4. The gas pressure causes the diaphragm 4 to bulge toward the interior of the drainage pipe 1, the pipe cutout 5. The drainage pipe 1 closes after the diaphragm 4 has bulged and 1. In the case of series products of pneumatic closures having the same parameters, it is also possible to determine the inlet pressure, which, after the inlet of a certain quantity of pressure determined by an unmarked pressure gauge, closing the flow of the drainage pipe 1 and thus water.

Claims (2)

SUBJECT An inlet pneumatic closure for drainage systems located on a drainage pipe, characterized in that it consists of an outer cover (3j), which is metically fastened to its flexible membrane (4) and to the pipe cut-out (5) at its edges, and into the outer cover (3). 3j there is an inlet (2) of the pressure medium. 2 Drawing Matrix