CN216129376U - Active pond capable of treating sewage - Google Patents

Abstract

The utility model discloses a running pond capable of treating sewage, which has large difficulty in treating the whole water environment, changes a pond into a small sewage treatment plant, uses a dead pond which can not be adjusted and is collected at the side of a living body as a main pond, selects the dead pond close to the main pond as an auxiliary pond, uses a surrounding edge platform to surround the mouths of the main pond and the auxiliary pond, is provided with a rainwater collecting port with a net grate, strengthens and modifies a pond body by using a waterproof material for preventing water loss of the pond, prevents the main pond of the dry pond from leading the domestic sewage around the pond into the pond to be intensively treated and used as a resource supply for pond water, stores the water for a long time, can sink garbage at the bottom of the pond to destroy the water quality of the whole pond, uses a sludge-cleaning water pond between the main pond and the auxiliary pond, controls a pond water channel of a gate-cleaning pond, can return the treated pond to the auxiliary pond, can naturally convey the domestic sewage which is absorbed by the main pond to the auxiliary pond after returning the rainwater, and the auxiliary pond, and the main sewage can be naturally conveyed to the auxiliary pond to the overflow pond, and the auxiliary pond with small pollution, the auxiliary pond can supply and convey the surplus water into a far-end river through the river discharge water port, so that the whole water environment is circulated.

Description

Active pond capable of treating sewage

The technical field is as follows:

the utility model relates to an infrastructure for changing a natural geographical dominant pond into a pond with sewage treatment capacity.

Technical background:

at present, the shortage and pollution of water resources become more serious day by day, the water ecology which can not be kept is degraded, and the natural hierarchical relation of the water ecology is: the pond is supplied with pit overflow, the lake is supplied with pond overflow, the river is supplied with lake overflow, the river overflow is supplied with river, the river overflow is supplied with sea, and the sea overflow is supplied with ocean. The pit and the pond are water tanks bestowed by the world! "to prevent water deterioration and deterioration to control water run to rivers and lakes, the great land area is vacated beside rivers and lakes to build sewage treatment plants and reclaimed water plants, etc., the sewage discharged by inland plains is too far away from rivers and lakes and is farther away from the sewage treatment plants, the actual sewage in the water does not enter the plants at all, and the sewage effect at the plants is not good enough.

The utility model content is as follows:

the technical problems to be solved by the utility model are as follows: ecological pits, ponds and lakes are generally stored under the feet of the life of inland plain land, land lives are allowed to graze for taking, water energy is only buoyancy, and accumulated water in the circulating pond is promoted without external power to deteriorate and consume the whole pond for a long time. The technical scheme for solving the problems is as follows: selecting a pond closest to the living side of people as a main pond for convenient management, and selecting a pond closest to the main pond as an auxiliary pond; in order to prevent excessive greedy of life around a water environment on the requirements of a main pond and an auxiliary pond, the inner wall of the whole pond is completely reinforced and modified by using a water-resistant material, the main pond is arranged in a living circle of people, so that water abandoned by people in life can be conveniently collected in time to increase the water quantity of the main pond, the water quantity of the main pond is supplemented and reinforced at any time, namely pond water circulation is realized, a water inlet and a water outlet are arranged on a pond body, a water filtering device is arranged on the water inlet and the water outlet, the pond water circulation is also convenient to treat by using the water inlet and the water outlet, the ecological pond is directly made into a miniature sewage treatment plant, and domestic sewage of various villages can be treated in situ and remotely and is far from the sewage treatment plant in a centralized conveying way; the capacity of a main pond is insufficient, the sewage cannot be treated, a sewage treatment pond is additionally built beside the main pond to help, an auxiliary pond is designed to supplement the shortage of the main pond, water in the main pond and the auxiliary pond can be complemented and interchanged, the auxiliary pond is only responsible for collecting rainwater, the load is not long, pollution factors are few, the two ponds are complemented and are not easy to dry, a plurality of ponds are arranged in a region with much rainwater in the south, the main pond and the auxiliary pond can be connected together in a connecting mode, a plain ecological water tank is kept, and the occasional need in the old and dry days and the disaster pressure of the water quantity on rivers and lakes reduced due to excessive daily water are prepared. The beneficial results of such a design are: the rural areas are provided with ecological pits of villages, the ecological pits of the villages are changed into the pits of the villages, the domestic abandoned water is directly discharged into the main pit to be treated, then the domestic abandoned water is poured into the auxiliary pit in time to be reused, the treatment needs to be carried out in factories such as remote non-drainage riverways, small areas are treated in time, large areas are survived, the water environment is recovered to the original hierarchical complementary circulation state in an effort, and the country can save a large amount of land.

Description of the drawings:

FIG. 1 is a schematic diagram of the position structures of a primary ecological pond 1 and a secondary ecological pond 2;

FIG. 2 is a schematic structural diagram of an original ecological pond main pond 1 which is transformed into an ecological pond main pond 3 in situ;

FIG. 3 is a sectional view of the ecological main pond 3A-A after being transformed;

FIG. 4 is a schematic structural view of an auxiliary ecological pond 15 formed by modifying an auxiliary ecological pond 2 in situ;

FIG. 5 is a sectional view of the ecological secondary pond 15B-B after being transformed;

fig. 6 is a schematic structural diagram showing the positional relationship among the main pond 3, the auxiliary pond 15, the sludge-cleaning and water-treating pond and the overflow water conveying pipe.

The specific implementation mode is as follows:

in the figure 1, a primary pond 1 and a secondary pond 2 of an original ecological pond are both large pits with a certain water area reserved on the land surface.

Fig. 2 shows a main pond 3, a pond surrounding edge platform 4, a rainwater collecting port 5 and a collecting port mesh grate sorting and filtering facility 6 after being reformed. Fig. 3 is a sectional view of the main pond 3A-a clearly showing the positional relationship of the impermeable pond body 7, the weirs 8, the weirs control device 9, the domestic sewage receiving discharge opening 10, the discharge opening sorting facility 11, the sludge cleaning gate 12, and the sludge cleaning gate 13 facility on the main pond 3.

Fig. 4 shows the reformed auxiliary pond 15, the pond surrounding edge platform 4, the rainwater collection port 5 and the collection port mesh grate sorting and filtering facility 6. The section view of the auxiliary pond 15B-B in FIG. 5 clearly shows the position relationship of the impermeable pond body 7, the overflow receiving opening 16, the river discharging opening 17, the river discharging opening sorting facility 18, the sludge cleaning gate 12 and the sludge cleaning gate 13 on the auxiliary pond 15.

Fig. 6 clearly shows the functional relationship between the main pond 3 and the auxiliary pond 15 through the sludge-cleaning gate 13 and the sludge-cleaning and water-treating pond 19, and the pond water of the main pond 3 and the auxiliary pond 15 can be complemented through the overflow water conveying pipe 14.

Firstly, two ponds with similar original ecology are selected as a main pond 1 and an auxiliary pond 2, and the mouths of the main pond 1 and the auxiliary pond 2 are dead ponds which are parallel to the ground, have no edges and no platforms, and only can collect water without regulating and controlling water capacity.

Engineering efforts such as manpower, material resources, financial resources and the like are invested in on-site engineering efforts to transform the main pond 1 into a main pond 3 which has multifunctional purposes and is adaptive to natural ecology, the main pond flows on the ground in rainy days, the pits are water tanks which are awarded to plain life in the upper sky, each ecological pit has a certain condition area in the natural field to supply water resources to the pits, the survival experience of people tells which pit has a long service life, the people sit around the pit and settle down, and the people are swept into the pits by rainwater continuously along with everything, the water in the pits is eaten through, and the people can be disintegrated to consume the water, so that the quality of the human system pool water on the side of the pool is the only day of the service life of the human system on the side of the pool. The closer the site selection of the main pond 3 to the living accommodation place is, the better, the surrounding edge platform 4 surrounds the pond opening of the main pond 1, so that the main pond 1 becomes the main pond 3 with the environmental interference resistance; arranging a rainwater collecting port 5 on the surrounding edge platform 4 by utilizing the water collecting condition of the original ecological pond boundary, preventing garbage from entering the pond along with rainwater, arranging a grid sorting and filtering facility 6 on the rainwater collecting port 5, and reserving solid garbage in water along with the water to the collecting port 5 outside the main pond 3 for cleaning; the purpose of the main pond 1 is improved, namely water retention and water accumulation are realized, and the pond body with water storage is made into a water seepage prevention pond body 7; compared with the main pond 1, the main pond 3 is additionally provided with the functions of water collection and filtration and water storage without water loss, the capacity of the pond can not be changed due to condition relations such as regions and the like, the main pond 3 with difficult water storage is additionally provided with the function of pond protection, pond water can be redundant, redundant pond water can overflow into the auxiliary pond 15 through the overflow gap 3 designed on the pond body 7, and in order to ensure that the redundant pond water of the main pond 3 overflows into the auxiliary pond 15 without influencing the water quality of the auxiliary pond 15, the overflow gap control device 9 is arranged on the overflow gap 8; each original ecological pool has a boundary with a certain condition area in the natural boundary to supply pool water resources, people living around the ecological pool can easily and directly convey domestic waste water to the main pool 3 at the side of the body through a short water conveying pipeline, a domestic sewage receiving discharge port 10 can be designed on the pool body 7 of the main pool 3 to prevent the domestic sewage from entering the waste water quality waste, and a sorting facility 11 is arranged on the domestic sewage receiving discharge port 10 to directly and timely sort and manage the domestic waste in the water; in the open natural environment of main pond 3 places, influence and destroy pond water factor too much, pond water can not obtain the circulation application for a long time again, pond water can deteriorate in the pond, rotten pond water can produce a large amount of secretions and wait and sink at the bottom of the pond and form rubbish, prevent whole pond water to deteriorate, set up clear mud sluice gate 12 on the bottom of the pond body 7 or body, clear mud sluice gate 12 department is installed clear mud 13, clear mud sluice gate 12 links to each other with clear mud control pond 19, pond 19 does benefit to and utilizes suction pump etc. to return the pond after the sewage that discharges in the pond is administered in batches.

The auxiliary pond 15 is mainly used for solving the problems that the main pond 3 has multiple and complicated projects, the auxiliary pond 15 is more convenient to receive the overflow of the main pond 3 after being built closer to the main pond 3, and the pond is convenient to fall if the main pond 3 is in a condition. Although the auxiliary pond 15 has fewer adapting projects than the main pond 3, the ecological pond is difficult to live naturally and is improved by: the aims of 'multi-connection, interference resistance, long storage, less loss and rescue'. The auxiliary pond 15 also needs to surround the mouth of the auxiliary pond 2 by the surrounding edge platform 4, so that the auxiliary pond 2 becomes the auxiliary pond 15 with the environmental interference resistance; the auxiliary pond 15 is also provided with a rainwater collection port 5 on the surrounding edge platform 4 by utilizing the water collection condition of the original ecological pond boundary, so that garbage can be prevented from entering the pond along with rainwater for a long time, a net grate sorting and filtering facility 6 is arranged on the rainwater collection port 5, and solid garbage in water along with the water to the collection port 5 is left outside the auxiliary pond 15 and is convenient to clean; the pond body for storing water is made into a water seepage prevention pond body 7; an overflow receiving port 16 capable of receiving the excess water in the main pond 3 is reserved on the anti-seepage pond body 7; the water ecological cycle can be continued, and the survival of any pond can not be confined in the land which does not flow water, so the anti-seepage pond body 7 is provided with a river discharge port 17, and a river discharge port sorting facility 18 is arranged at the river discharge port 17 for ensuring the quality of water discharged into the river by the pond; the bottom or body of the pond body 7 is provided with a sludge cleaning gate 12, the sludge cleaning gate 12 is provided with a sludge cleaning gate 13, the sludge cleaning gate 12 is connected with a sludge cleaning and treating water pond 19, and the pond 19 is beneficial to returning water to the pond by using a water pump and the like after sewage discharged from the pond is treated in batches.

The water in the main pond 3 and the auxiliary pond 15 can be complemented with the water circulation of the pond through the overflow water conveying pipe 14.

The 'water filtration self-cleaning' collection port mesh grate sorting and filtering facility 6, the overflow port control device 9, the drain port sorting facility 11 and the drain port sorting facility 18 can be controlled by the simplest filter screen or a watertight door.

The artificial pond can be built according to the position relation structure mode of the main pond 3, the auxiliary pond 15 and the sludge-cleaning treatment pond 19 without ecological ponds around the life, so that the problems of domestic sewage treatment of people with few people far away from a sewage treatment plant and storage and supply corresponding to water resource desire are solved, and the sludge-cleaning treatment pond 19 can also be used as a nearby dry ecological pond 19.

Although the utility model has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements may be made based on the utility model. Accordingly, such modifications and improvements are intended to be within the scope of the utility model as claimed.

Claims (3)

1. A running pond capable of treating sewage is characterized in that: a pond with a certain area is built around people's life as a main pond (3), a pond is built as an auxiliary pond (15) at a place not far away from the main pond (3), the main pond (3) and the auxiliary pond (15) are prevented from environmental interference and are integrally surrounded by a surrounding edge platform (4), a rainwater collecting port (5) capable of filtering and managing water is arranged on the surrounding edge platform (4), a long-term water loss prevention pond body is made into an impermeable pond body (7), the pond is expected to have insufficient rainwater supply resources, the domestic sewage around the pond can be led into the main pond (3) from a domestic sewage receiving and discharging port (10) to be intensively treated and then is returned to the pond, the external environmental interference of the pond can lead the water stored for a long time to be deteriorated to form garbage to sink at the bottom of the pond to prevent the deterioration of the pond, a sludge cleaning and control pond (19) is arranged between the main pond (3) and the auxiliary pond (15), and a sludge cleaning gate (13) is arranged on a water conveying channel of each pond (19), the pond water can be naturally and mutually conveyed and circulated through an overflow water conveying pipe (14); an overflow port (8) and a domestic sewage receiving and discharging port (10) are arranged on the pond body (7) of the main pond (3), a river discharging port (17) is arranged on the pond body (7) of the auxiliary pond (15), and redundant pond water can be conveyed into a river through the river discharging port (17) on the pond body (7) of the auxiliary pond (15) and is used as river water resource supply; in regions with more ponds in south, the ponds can be connected together in a circulating and intercommunicating way by using the relation connection mode of the main pond (3), the auxiliary pond (15), the sludge-cleaning and water-treating pond (19) and the overflow water conveying pipe (14).

2. The running pond capable of treating sewage according to claim 1, wherein: the collection port mesh grate sorting and filtering facility (6), the overflow port control device (9), the drain port sorting facility (11) and the river drainage port sorting facility (18) can be controlled by a filter screen or a watertight door.

3. The running pond capable of treating sewage according to claim 1, wherein: the artificial pond without the ecological pond can be built according to the relation structure mode of the main pond (3), the auxiliary pond (15), the sludge-cleaning water-treating pond (19) and the overflow water conveying pipe (14) at the living side, so that the domestic sewage treatment of people with few people far away from a sewage treatment plant and the storage and supply for water resource cravings are solved, and the sludge-cleaning water-treating pond (19) can also be used as the sludge-cleaning water-treating pond (19) by using a nearby dry ecological pond.

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