CZ308453B6 - Equipment for capturing sediments, especially at the inflow to water reservoirs - Google Patents

Abstract

The device for capturing sediments, especially at the inflow into water reservoirs, consists of a floating tank (1), which is narrower at the inflow and connected to the bottom of the watercourse. The other parts of it are reinforced around the perimeter by a system of floats (2), which give it the shape of a polygon. The side walls (10) from the surface (9) to the bottom (8) of the water tank are made of rubberized fabric. The peripheral side walls (10) have floats (2) with a capacitive perforation (7), through which water escapes from the floating tank (1) into the water tank. The bottom (5) of the floating tank (1) is attached to the bottom (8) of the water tank by anchoring pins (3).

Description

Equipment for capturing sediments, especially at the inflow to water reservoirs

Field of technology

The invention relates to the field of pond farming, in particular to a device for capturing sediments, in particular at an inflow into reservoirs.

Prior art

The gradual muddying of ponds and reservoirs is generally a major problem in the current use of the landscape, especially a major problem in pond farming. The dominant source of sediments in ponds is mainly the agricultural landscape. Inadequate agricultural technology and the composition of cultivated crops lead locally during intense storms to large erosive flushes of omica. This usually ends in ponds or reservoirs, where running water slows down and loses its entrainment. Carried soil and sediment particles settle. The primary area for sedimentation is the inflow area of the reservoir. From here, the sediment gradually gets, thanks to the bioturbation of the fish, to the deepest point of the reservoir - near the pond it is a hunting ground. Sediment or sediment that once enters the area of a water reservoir or pond is already difficult and expensive to remove. In addition, surface mud removal of ponds is a very expensive thing. It is approached only as a last resort.

Mud removal from ponds is a process during which excess mud is removed from the pond. The muddy pond usually contains an average layer of mud at a level of more than 40 cm. With a high layer of mud, the aeration of active mud slows down, and thus the release of nutrients into the water slows down. This also leads to a deterioration in water quality. Parasites and germs of bacterial, viral or other diseases can survive in excessive amounts of mud. Other disadvantages are clogging of fish gills with fine mud and difficult catches.

However, over time, the risk of sediment contamination of the pollutant increases. However, sediment loaded with heavy metals and chemicals cannot be returned to agricultural land and is disposed of as hazardous waste. This is very costly and often economically impossible. In the fishing industry, therefore, it operates the more common regular mud removal only in the area of the pond fishing grounds. However, this only partially solves the problem of excessive muddying. After a short time, after a year or two, the exported fishery is again filled with sediment, which is always enough in the pond basin. The ideal solution is therefore to prevent the entry of flocs into water reservoirs. This requires a change in the management of the river basin, or before the inflow of the watercourse into the reservoir to set up a smaller reservoir, essentially a small pond, in which the inflow water will be able to sediment. This pre-tank would be cleaned as needed, without the need to clear the entire pond. This technology is used in wastewater treatment plants, but little is used in conventional pond farming. It is an efficient and simple, but expensive variant. The construction of lighters at existing ponds will require the occupation of additional land, and the accumulated volume of water at the existing reservoir will probably be reduced. In addition, it is an expensive solution that will require project preparation and building permits. This is economically costly given the actual size of the fortress and the fact that ponds tend to have more problematic tributaries. It would therefore be costly and very time-consuming to set up a large-scale construction of ponds at existing ponds.

Mud removal itself is either partial or total. Partial demudging removes the excess layer of mud in the fishery and the deeper parts of the pond. In total, on the contrary, mud is removed in the majority of the bottom. First, the pond must be drained and drained to drain and dry all mud parts. The mud removal process itself is carried out either directly by picking up and loading the mud, or by cutting off a certain layer of excess mud with a special trailing shovel. If the bottom of the pond is not strong enough, it must first be strengthened before the actual work, eg by laying wooden beams. After removal of mud by heavy equipment, the remaining layer is loosened and pierced, unevenness is removed and the bottom of the pond is leveled.

-1 CZ 308453 B6

With the removal of mud from the pond, the dams are often repaired, the drain is repaired or replaced, and the safety overflow is repaired. The removed sediment is often transported to a landfill, as a so-called landfill.

As can be seen, the removal of mud from ponds is expensive and technically demanding. It is therefore appropriate to take precautionary measures. This consists mainly in the proper management of the basin above the pond. From this point of view, it is highly desirable to prevent sediments from entering the tank. The object of the invention is therefore to provide such a device for capturing sediments, in particular at the inflow into water reservoirs, which would ensure efficient sediment collection, which would be easy to place on different water reservoirs as needed, even with regard to current sowing practices modifications of the given water reservoirs.

The essence of the invention

The stated object is solved by means of a device for capturing sediments, in particular at the inflow to the water reservoirs according to the invention. The essence of the device according to the invention lies in the fact that it consists of a floating tank, consisting of at least one circumferential floating float, of walls of waterproof material fixed to the float and extending to the bottom of the water tank, and of the bottom connected to the wall. At least one wall is provided with an inlet for water inlet and at least one wall is provided with a perforation for water outflow, which is arranged below the float. The side walls and the bottom of the floating tank are separated by water bodies inside, ie trapped sediment and outside, where there is a minimum of sediment. The separate chamber thus formed ensures a suitable separation of pure water and water with sedimenting particles.

In a preferred embodiment, the float is inflatable. In one preferred embodiment, the floating tank consists of two floats separated by a safety overflow. In another preferred embodiment, the floating tank consists of eight floats arranged in the shape of an expanding fan forming a closed hexagon axially symmetrical. The depth of the floating tank is differently adjustable according to the situation on the site. From the inflow of water towards the inflatable floats in the shape of a cylinder, it will gradually increase and will be determined by the slope of the bottom of the water tank and the current height of the water in the water tank. The total volume of water in the floating tank will be commensurate with the water content of the stream to which it will connect.

The wall is preferably provided at the bottom of the water tank with at least one anchoring mandrel for fixing the floating tank inserted through the bottom of the floating tank into the terrain, i.e. the bottom of the water tank, respectively. bank of the tributary. The fixation will be mainly in the area of the water inlet and its immediate surroundings and around the perimeter of the floating tank due to a better definition of the shape of the floating tank.

The inflow area, ie the entrance for the water inlet, will only need to be leveled and any harder vegetation and larger stones removed. Sediment collection equipment cannot be considered as a separate building, so it is very likely that its installation will not be associated with a large administration. It is only a matter of delimiting and separating the water masses on the tributary from the rest of the water reservoir by means of a rubberized fabric. A separate chamber will be created in the device, separated from the rest of the water tank, where the carried flot will be able to sediment. Thanks to a light partition made of a watertight wall, which will be held in a vertical position with respect to the current height of the water in the water tank by floats on the surface, float or sediment will not get further into the water tank, but will be trapped in the inflow area. This inflow section will then be cleaned as required, either manually or by suitable mechanization.

The bottom of the floating tank can also be made of a rubberized fabric, and thus prone to damage due to careless cleaning by mechanization. The treatment of this problem is possible either by using capacitive pool vacuum cleaners, which would be able to gently clean the bottom of the floating tank. The second option is to use a biodegradable fabric, such as jute, to produce the bottom of the floating tank, which will ensure the function of the sediment trapping device, but can be extracted by mechanization together with the sediment, while the side walls of the floating tank will be made of rubberized fabric. Typically, these will be materials used for the production of inflatable boats and amusement elements, such as.

- 2 CZ 308453 B6 polyester, or PES fabric with a surface treatment of rubber or polyvinyl chloride, or PVC with the following properties: airtightness, water resistance, UV stability, high mechanical strength and resistance to abrasion or puncture, smoothness of walls, functionality at ambient temperatures from 30 ° C to 70 ° C. Joints will be designed so that there is no loss of airtightness, such as gluing, vulcanization, welding, etc. With regard to minimizing the cost of equipment, more types of materials can be used for production. For example, a different material for the supporting inflating cylinders, i.e. the floats, and the actual walls of the floating tank, i.e. the sides and the bottom. This is due to the optimization of the total price of the product and the requirements for the properties of individual elements.

After cleaning the sediment, the new jute bottom of the floating tank would be attached to the existing side walls and floats. The third variant is the construction of a device for capturing sediments without the entire surface of the floating tank. Under the floats, the side walls would be made of a rubberized fabric that would extend from the surface of the water tank to the bottom of the water tank, where it would be fixed by anchoring darkness or load. The bottom of the floating tank would be natural and would be cleaned by mechanization as standard. In essence, it would be a nominal wall anchored to the bottom of the water tank.

Users of this facility can be considered all owners and operators of small reservoirs, especially ponds, which stand on watercourses and are burdened by the inflow of water erosion from the river basin, especially agriculture. Furthermore, it is possible to use the device in connection with the construction, respectively. in connection with construction activities. During larger construction projects, soil that is unsecured against water erosion is often exposed or stored. During heavy rain, it escapes uncontrollably into the basin and clogs water bodies.

The device for capturing sediments, in particular at the inflow into water reservoirs according to the invention, represents a simple and inexpensive form of minimizing the negative impact of anthropogenic activity in the landscape on the aquatic ecosystem. The main advantage of the device according to the invention is the simplicity of construction and the inertness of the materials used, which allows for many years of repeated use. The acquisition costs of the equipment can be expected to be significantly lower than with the construction of a classic spillway dam and the construction of a so-called lecture on a tributary. In addition, the device according to the invention will not require a special water building permit. The device is characterized by the ability to retain both heavy floats and light substances floating on the surface, such as petroleum products, oils, etc. Innovative is especially the design of the device and the philosophy of sediment collection equipment, which can be easily installed on existing water tanks, without the need for construction work with minimal investment costs and construction preparation.

Explanation of drawings

The present invention will be further elucidated in the following figures, where:

Fig. 1 shows a top view of the sediment capture device, Fig. 2 shows a side view of the sediment capture device.

Examples of embodiments of the invention

The device for capturing sediments, especially at the inflow into water reservoirs, is made of so-called rubberized fabric and is formed as a floating tank 1 in the shape of a hexagon with an expanding fan-shaped shape, as shown in Fig. 1. The depth of the floating tank 1 will vary according to the situation on site. From the water inlet 4 towards the inflating cylinders, i.e. the circumferential buoyant floats 2, the depth will gradually increase and will be determined by the inclination of the bottom 8 of the water tank and the actual height of the water in the water tank. The total volume of water in the plant will be commensurate with the water content of the stream to which it will be connected.

-3GB 308453 B6

The device will usually consist of one large separate chamber 6. However, in another embodiment not shown, it is possible to divide the floating tank 1 into two to three separate chambers 6 in order to promote sedimentation, direct the flow of water or better capture the pollution floating on the water surface 9. In this case, the partitions between the individual separate chambers 6 will be made of similar materials as the walls 10 of the floating tank 1 and the level 9 will be provided with floats 2 for better reinforcement and delimitation of the space. With regard to the orientation of the trapped pollutant, the perforations 7 for passing the water to the next part will be located at the level 9 for sediment or at the bottom 5 of the floating tank 1 for light substances. The inlet 4 for the water inlet will be made of a smooth impermeable fabric, which will have reasonably large meshes reinforced with press studs. Anchoring darkness 3 will be inserted into these holes. In a similar way, it will be possible to fasten the bottom 5 of the floating tank 1 around its circumference, as shown in Fig. 2.

Around the perimeter of the floating tank 1, inflatable floats 2 with adequate buoyancy will be placed at the level 9, which will keep the side walls 10 of the floating tank 1 in a vertical position and at the same time define the overall shape of the floating tank 1 at the level 9 after inflation. separate segments with a length of 2 m. This will diversify the risk of accidental puncture of one float 2 and the failure of the entire structure of the floating tank L Gaps or joints between the floats 2 will also serve as a so-called safety overflow. The inflation valves of floats 2 will be of PUSH PUSH construction. Drainage of water from the floating tank 1 will be possible along the entire circumference reinforced by floats 2. The vertical wall 10 circumferentially mounted on the float 2 will be provided with perforations 7 10 to 15 cm below the float 2, i.e. made of perforated material. Since the perforations 7 are not made just below the floats 2 at level 9, no oil substances will leak into the water tank. The goal will be to provide a large strainer area that will not suffer from clogging and require regular maintenance.

The floating tank j. Will be anchored by means of anchoring darkness 3 inserted through the bottom 5 of the floating tank 1 into the terrain or the bottom of the water tank, resp. bank of the tributary. Fixation will be mainly in the area of the inlet 4 for water inflow and its immediate surroundings and around the perimeter of the floating tank 1 due to better definition of the shape of the floating tank L. Cleaning of the device will be possible continuously when draining the pond by fine mechanization or by hand to avoid damaging the bottom. Most of the bottom 5 of the floating tank 1 is also made of a biodegradable material, in particular a jute fabric. The floating tank j. Modified in this way can also be cleaned by heavier mechanization, e.g. by an excavator, with the bottom 5 of the floating tank 1 being destroyed, in particular extracted together with the sediments, and a new bottom 5 being produced for reuse.

Industrial applicability

The device for collecting sediments, in particular at the inflow into water reservoirs according to the invention, can be used in fisheries, water management, agriculture and construction, in particular in the protection of stagnant waters against clogging by sediments from small watercourses. Its use is possible, for example, in tributaries to ponds, reservoirs or material pits.

Claims (7)

PATENT CLAIMS Device for collecting sediments, in particular at the inlet to water tanks, characterized in that it consists of a floating tank (1), consisting of at least one circumferential buoyant float (2), of walls (10) of water-impermeable material fixed to the float ( 2) and extending to the bottom (8) of the water tank, and from the bottom (5) connected to the wall (10), at least one wall being provided with an inlet (4) for water inflow and at least one wall being provided with a perforation (7) for water outflow, which is arranged below the float (2). Device according to claim 1, characterized in that the float (2) is inflatable. Device according to claim 2, characterized in that the floating tank (1) consists of two floats (2) which are separated by a safety overflow joint. Device according to claim 2, characterized in that the floating tank (1) consists of eight floats (2) arranged in the shape of an expanding fan forming a closed hexagon axially symmetrical to the axis (o). Device according to one of Claims 1 to 4, characterized in that the wall (10) is provided at the bottom (8) of the water tank with at least one anchoring mandrel (3) for fixing the floating tank (1). Device according to one of Claims 1 to 5, characterized in that the bottom (5) is made of a biodegradable fabric. Device according to one of Claims 1 to 6, characterized in that the wall (10) is made of a rubberized fabric.