SK9678Y1 - Regulating system of ground water level - Google Patents

Abstract

Regulating system of ground water level is described, which is formed by an unpaved earth surface (1) with soil capillaries (12), in which one control recess (6) for ground water (5) is formed. At least one discharge channel ( 2) for rain water (4) is connected to an impermeable dam (3). A safety overflow system (31) is arranged at a top region of the impermeable dam (3). At least one passage opening (32) is connected to an adjustable water level region (43). At least one protective basket (41) and at least one adjustable water level region (43) with at least one fishway (42) are attached to the passage opening (32).

Description

The field of technology

The technical solution refers to a system for regulating the water level of the groundwater, in particular by regulating the level of rainwater in a drainage channel, a regulated stream or in a ditch by the road, intended to revive the ecosystem and increase the reserves of groundwater.

Current state of the art

Since the middle of the last century, drainage canals have been built on lowlands and plains, which ensure the drainage of fallen rainwater. Their creation, however, resulted in the drying out of these channels, the gradual reduction of underground water reserves, overheating and drying of the soil, resulting in a lack of moisture over these territories and, subsequently, a greater occurrence of floods during occasional rains.

The known technical solution is described in the Czech registered utility model no. 16,056 entitled Water dam, where a surface covering means is placed on the slope, which extends beyond the crown of the water dam and extends into the valley slope of the water dam, while the surface covering means, which is attached to the water dam in the area of the bottom of the slope, has the shape of strips, which are laid perpendicular to the axis of the water dam, while each strip overlaps the adjacent strip in the direction from the lower point of the crown of the water dam or from the center of the water dam. The disadvantage of this technical solution is that it does not solve the problem of regulating the height of the water level in the dam or the height of the groundwater level.

Another known technical solution is described in the Czech registered utility model no. 17 704 entitled Device for obtaining the fall of water for the use of hydropower, where the pipeline connecting places on the watercourse with different water levels is laid directly in the river bed, bank or near it, while at the entrance of the pipeline in a place with a higher water level there is a modified object , which is located above the dam. The disadvantage of this technical solution is that it does not solve the problem of regulating the height of the water flow or the height of the groundwater level.

Another known technical solution is described in the Czech registered utility model no. 18,987 entitled Drainage, retention and water supply system for the regulation of the water regime in the country where at least two wetlands are created in the places of removed shafts and adjacent parts of pipelines of the pipeline channel of systematic drainage, while the other parts of the pipeline channel are opened as water inlets to the wetlands, while the individual wetlands are connected to each other by an open bed and after the last wetland in the direction of the water flow, they are fed back into a pipe channel or into a watercourse, stream or river. The disadvantage of this technical solution is that it does not solve the problem of regulating the level of groundwater.

Another known technical solution is described in the Czech registered utility model no. 21 754 entitled Regulating element for drainage systems, where the screen and/or plug is inserted into the gap of the drainage pipes of the drainage system, the screen is formed by a plate with an opening and a handle and the plug is formed by a plate with a handle, while the size and shape of the hole is determined by height of drainage water and according to drainage flow at minimum, maximum or average flow rates. The disadvantage of this technical solution is that it does not solve the problem of regulating the water level in the system or the level of groundwater.

Another known technical solution is described in the Czech registered utility model no. 22,386 entitled Expansion of underground water supplies in connection with flood prevention measures, where artificial channels are created on the river separated from the river by means of a dam with an overflow, where these channels are terminated in the area in front of the embankment, where infiltration wells are created, or they are terminated by a retention object . The disadvantage of this technical solution is that it is necessary to build additional artificial channels, which will only increase the problem of reduced groundwater reserves. The disadvantage of this technical solution is that it does not solve the problem of regulating the level of groundwater.

Another known solution is described in Czech patent file no. 302 474 entitled Device for regulating the water regime in wetland systems, where the drive of the openable closure of the water drain from the wetland is directly or through the control unit controlled by at least one level sensor, edge sensor, precipitation sensor, melioration sensor, contamination sensor, flow sensor and the flow of the melioration of water and/or the flow of surface water or ground water can be regulated by another openable valve with a drive, controlled directly by sensors or a control unit, while when the valve is closed, the inflow is released through a bypass into the water flow and the device comprehensively regulates the water regime in the wetland and prevents it from drying out . The disadvantage of this technical solution is the technical complexity and high costs of its production.

Another known solution is described in European patent file EP no. 05 019 003.2 entitled Water management device for rainwater treatment, where flood-proof panels are installed between the vertical stabilization pillars and vertical stabilization pillars and a threshold are installed in the reinforced concrete base plate, while a flexible horizontal sealing bar with profile grooves is placed on the lower edge of each flood-proof panel , which self-lockingly hold the horizontal sealing bar on the anti-flood panel, while a pressure bar with a flexible vertical sealing bar is attached to the stabilization post between the stabilization column and the joint of the adjacent anti-flood panels, and the anti-flood panels are attached to the stabilization columns by means of stirrups, which pass their arms through the mounting holes adjacent flood control panels. The disadvantage of this technical solution is that it does not solve the problem of regulating the level of groundwater.

The essence of the technical solution

The aforementioned deficiencies are largely eliminated by the system for regulating the level of groundwater, which is formed by an unpaved surface with soil capillaries, in which one control well with groundwater and at least one drainage channel with rainwater, into which at least one impermeable dam is attached, is created , which is formed on the upper side by at least one safety overflow opening and at least one permeable opening, according to this technical solution, the essence of which is that at least one protective basket and at least one adjustable level attachment are fixed in the permeable opening, in the upper part of which at least one fishbowl is attached.

Overview of images on drawings

The technical solution will be explained in more detail with the help of drawings, where in fig. no. 1 is a schematic side view of the system for regulating the height of the rainwater level in the drainage channel and the groundwater level, and in fig. no. 2 is a schematic top view of the system for regulating the height of the rainwater level in the drainage channel and the groundwater level, in fig. no. 3 is a schematic side view of a protective basket and an adjustable level attachment with a fish passage in the drainage channel, in fig. no. 4 is a schematic front view of a protective basket and an adjustable level extension with a fishway in the drainage channel, and in fig. no. 5 is a schematic top view of a protective basket and an adjustable level extension with a fishway in the drainage channel.

Implementation examples

Example

A system for regulating the level of underground water, especially by regulating the level of rainwater in the drainage channel, according to fig. no. 1, it is formed by an unreinforced surface 1 with soil capillaries 12. In the unreinforced surface 1, a drainage channel 2 is created, which is intended for collecting fallen rainwater 4. The walls of the drainage channel 2 disturb the soil capillaries 12 and ensure the percolation of rainwater 4 through the water seepage 11 and soil capillaries 12 into groundwater 5. Water seepage 11 and soil capillaries 12 are designed to equalize the level of groundwater 5 with the level of rainwater 4 in the drainage channel 2. Into the drainage channel 2, according to fig. no. 2, an impermeable barrier 3 is attached, which is made of an impermeable material. One permeable opening 32 is created in the upper part of the impermeable dam 3. Into the permeable opening 32, according to fig. no. 5, one adjustable level attachment 43 is attached. The adjustable level attachment 43 prevents the backflow of groundwater 5 through the water seepage 11 and the soil capillaries 12 into the drainage channel 2. The adjustable level attachment 43, according to fig. no. 4, ensures the adjustment of the height of the rainwater level 4 in the drainage channel 2. The adjustable level attachment 43 also ensures the adjustment of the height of the groundwater level 5, by seeping the rainwater 4 through the water seepage 11 and the soil capillaries 12 into the groundwater 5. Into the permeable opening 32 one protective basket 41 is attached, which is designed to contain sediments. On the upper part of the adjustable level extension 43 is, according to fig. no. 3, one fish passage 42 is attached, which is intended for moving fish through the impermeable weir 3. In the upper part of the impermeable weir 3, according to fig. no. 5, a safety overflow opening 31 is created, which is intended for the outflow of excess rainwater 4 in the drainage channel 2, especially during rains and melting snow. In the unpaved area 1, at a distance of approx. 70 m, a control well 6 is created, which is intended for checking the level of the groundwater level 5. The control well 6 is filled with groundwater 5 through water seepage 11 and soil capillaries 12.

Industrial applicability

The system for regulating the height of the groundwater level can be used to significantly slow down the outflow of groundwater from the soil, replenish the groundwater reserves, and thereby heal the hydrological regime of the plains and lowlands, protect the territory from drought and floods, restore biodiversity, stabilize the climate and mitigate 10 weather fluctuations . In addition to saturating the soil and increasing groundwater reserves, there will also be a more uniform occurrence of precipitation and also protection of fish from extinction in case of weather fluctuations. During the construction of impermeable dams in a drainage channel, a regulated stream or in a ditch by the road, the bottom of the sediments between the individual dams must be removed and, if necessary, the adjacent slopes must be cleaned. The technical solution can be used in times of flood for flood prevention 15 and in times of drought for preventive measures against drought, i.e. for overall maintenance of lowlands and plains in good condition to satisfactorily handle increased rainfall totals and ensure sufficient water resources in the country. The use of a technical solution will ensure the ability of the territory to start fulfilling its natural functions in the distribution of rainwater.

List of relationship tags

- unpaved surface

- water seepage

- soil capillaries

- drainage channel

- an impermeable dam

- safety overflow opening

- permeable opening

- rain water

- protective basket

-fishing

- adjustable level attachment

- underground water

- control well

Claims (1)

A system for regulating the height of the groundwater level, which is formed by an unpaved surface with soil capillaries, in which there is one control well with groundwater and at least one drainage channel with rainwater, into which at least one impermeable dam is attached, which is formed on on the upper side, at least one safety overflow opening and at least one permeable opening, characterized by the fact that at least one protective basket (41) and at least one adjustable level attachment (43) with at least one fishway attached ( 42).