CN217173490U - River water circulation self-purification system - Google Patents

Abstract

The utility model relates to a river course water body circulation self-purification system, a solar generator, a condenser and an air pump are arranged on a river course revetment, the solar generator is connected with the condenser, the condenser is connected with an air pump, an oxygenation pipe is fixed at the river bottom of the river course, and the air pump is connected with the oxygenation pipe through a connecting pipe; the method comprises the following steps that a slope-shaped pipe gallery body section is arranged in a revetment on the same side of a river channel, a pipe gallery water inlet section with a vertical upward opening is arranged at one end of the pipe gallery body section, a pipe gallery water outlet section with a vertical downward opening is arranged at the other end of the pipe gallery body section, a submersible pump is arranged in the river channel, an electric accumulator is connected with the submersible pump, a water outlet of the submersible pump is connected with a water delivery pipe, and a water outlet of the water delivery pipe is connected to the pipe gallery water inlet section; be equipped with the sedimentation tank in the revetment, the sedimentation tank meets with this body section of piping lane, is equipped with the filter plate subassembly in the delivery port department of sedimentation tank. The utility model discloses a circulation of the green energy is used, realizes the circulation self-purification of river course waters water effectively.

Description

River water circulation self-purification system

Technical Field

The utility model belongs to the technical field of the water environment is administered, specifically speaking is a river course water circulation self-purification system.

Background

The water environment ecological management construction is an important link in the construction of modern ecological cities, enhances the management of ecological water bodies and enhances the protection of ecological environment, not only meets the current needs of the living development of people, but also is the key for realizing future sustainable development, optimizes the water resource environment and the ecological environment, promotes the social and economic development of China, and lays a solid foundation for realizing the harmonious development of society.

In the process of rapid development of economy, pollution to the ecological environment is seriously damaged by sewage discharged after expansion of industrial development cities, river pollution is caused, and further the problems of water quality reduction, water resource shortage and the like are caused. In addition, in agricultural production, due to the imperfection of a production structure and a water conservancy supporting facility, the phenomena of water pollution and water resource waste are serious, and the phenomena are important problems to be solved urgently in economic development and environmental management. Economic development and ecological environment maintenance form a serious conflict, and the economic development is severely restricted to a certain extent. Therefore, it is necessary to investigate the ecological management and ecological protection of water environment. The ecological protection, environmental protection and sustainable development concepts of people are enhanced, and a foundation is laid for ensuring the rapid development and the integral progress of social economy.

Disclosure of Invention

The utility model aims at overcoming the deficiencies in the prior art and providing a system which can effectively realize the circulation self-purification of the water body in the water area on the premise of utilizing the environment-friendly energy.

According to the technical scheme provided by the utility model, the riverway water body circulation self-purification system comprises a solar power generator, a power accumulator, an air pump, a submersible pump, a pipe gallery body section, a pipe gallery water inlet section, a pipe gallery water outlet section, a sedimentation tank, a filter plate assembly, an oxygenation pipe, a connecting pipe and a water delivery pipe;

a solar generator, an accumulator and an air pump are installed on the river channel revetment, the solar generator is connected with the accumulator, the accumulator is connected with the air pump, an oxygenation pipe is fixed at the river bottom of the river channel, and the air pump is connected with the oxygenation pipe through a connecting pipe;

the method comprises the following steps that a slope-shaped pipe gallery body section is arranged in a revetment on the same side of a river channel, a pipe gallery water inlet section with a vertical upward opening is arranged at one end of the pipe gallery body section, a pipe gallery water outlet section with a vertical downward opening is arranged at the other end of the pipe gallery body section, a submersible pump is arranged in the river channel, an electric accumulator is connected with the submersible pump, a water outlet of the submersible pump is connected with a water delivery pipe, and a water outlet of the water delivery pipe is connected to the pipe gallery water inlet section; be equipped with the sedimentation tank in the revetment, the sedimentation tank meets with this body section of piping lane, is equipped with the filter plate subassembly in the delivery port department of sedimentation tank.

Preferably, the device also comprises a grating box, T-shaped fixed fibers and air stone particles, wherein the grating box is pressed on the oxygenation pipe and is fixed at the bottom of the river through the T-shaped fixed fibers, the T-shaped fixed fibers avoid the oxygenation pipe, and the air stone particles are arranged in the grating box.

Preferably, the stacking height of the bubbled stone particles in the grid box is 20% -40% of the height of the grid box.

Preferably, the filter panel assembly comprises two left and right filter panels and porous cotton located between the two left and right filter panels.

Preferably, the device also comprises a magnetoelectric induction current generator, a first blade gear and a second blade gear, wherein the magnetoelectric induction current generator is installed on a river barge bank, the magnetoelectric induction current generator is connected with the accumulator, the first blade gear is rotatably installed in a water inlet section of the pipe gallery, the second blade gear is rotatably installed in a water outlet section of the pipe gallery, and the first blade gear and the second blade gear are both connected with the magnetoelectric induction current generator.

Preferably, a rainwater collecting pipe is arranged on the river revetment and connected with the pipe gallery body section, and a one-way valve is installed at a water outlet of the rainwater collecting pipe.

The utility model discloses a circulation of the green energy is used, realizes the circulation self-purification of river course waters water effectively.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the middle filter plate assembly of the present invention.

Fig. 3 is a mounting structure view of the first blade gear of the present invention.

Fig. 4 is a view showing an installation structure of the second blade gear according to the present invention.

Detailed Description

The present invention will be further described with reference to the following specific embodiments.

The utility model discloses a river course water circulation self-purification system, which comprises a solar generator 1, an electric accumulator 2, an air pump 3, a submersible pump 4, a pipe gallery body section 5.1, a pipe gallery water inlet section 5.2, a pipe gallery water outlet section 5.3, a sedimentation tank 6, a filter plate assembly 7, an oxygenation pipe 8, a connecting pipe 9 and a water delivery pipe 10;

a solar generator 1, an accumulator 2 and an air pump 3 are installed on a river course barge bank, the solar generator 1 is connected with the accumulator 2, the accumulator 2 is connected with the air pump 3, an oxygenation pipe 8 is fixed at the river bottom of the river course, and the air pump 3 is connected with the oxygenation pipe 8 through a connecting pipe 9;

the method comprises the following steps that a pipe gallery body section 5.1 with slope is arranged in a revetment on the same side of a river channel, one end of the pipe gallery body section 5.1 is provided with a pipe gallery water inlet section 5.2 with a vertical upward opening, the other end of the pipe gallery body section 5.1 is provided with a pipe gallery water outlet section 5.3 with a vertical downward opening, a submersible pump 4 is arranged in the river channel, an electric accumulator 2 is connected with the submersible pump 4, a water outlet of the submersible pump 4 is connected with a water delivery pipe 10, and a water outlet of the water delivery pipe 10 is connected to the pipe gallery water inlet section 5.2; be equipped with sedimentation tank 6 in the revetment, sedimentation tank 6 meets with this body section of piping lane 5.1, is equipped with filter assembly 7 in sedimentation tank 6's delivery port department.

Still include grid case 11, the fixed fibre 12 of T font and air bubble stone granule 13, grid case 11 is pressed on oxygenation pipe 8 and is fixed at the river bottom through the fixed fibre 12 of T font, and the fixed fibre 12 of T font avoids oxygenation pipe 8, is equipped with air bubble stone granule 13 in grid case 11.

The stacking height of the bubbled stone particles 13 in the grid box 11 is 20% -40% of the height of the grid box 11.

The filter plate assembly 7 comprises a left filter plate 7.1 and a right filter plate 7.1 and porous cotton 7.2 positioned between the left filter plate 7.1 and the right filter plate 7.2.

Still include magnetoelectric induced current generator 14, first blade gear 15.1 and second blade gear 15.2, magnetoelectric induced current generator 14 installs on the river course bank of barge, magnetoelectric induced current generator 14 with electric accumulator 2 links to each other, and first blade gear 15.1 rotates to be installed in pipe gallery intake section 5.2, and second blade gear 15.2 rotates to be installed in pipe gallery outlet section 5.3, and first blade gear 15.1, second blade gear 15.2 all link to each other with magnetoelectric induced current generator 14.

A rainwater collecting pipe 16 is arranged on the revetment of the river channel, the rainwater collecting pipe 16 is connected with the pipe gallery body section 5.1, and a one-way valve is installed at a water outlet of the rainwater collecting pipe 16.

The utility model discloses a work flow as follows:

arranging a water-receiving pipe gallery at two ends of the revetment at the same side of a water area to be treated along the revetment, wherein the pipe gallery comprises a pipe gallery body section 5.1, a pipe gallery water inlet section 5.2 with a vertical upward opening and arranged at one end of the pipe gallery body section 5.1, and a pipe gallery water outlet section 5.3 with a vertical downward opening and arranged at the other end of the pipe gallery body section 5.1, the length, the width and the height of the pipe gallery are determined according to the actual situation on site, the water inlet position of the pipe gallery water inlet section 5.2 is higher, a submersible pump 4 is arranged in the water area near the pipe gallery water inlet section 5.2 for pumping water and injecting the water into the pipe gallery water inlet section 5.2 through a water pipe 10, the submersible pump impacts a first blade gear 15.1, the water outlet position of the pipe gallery water outlet section 5.3 is lower, the pipe gallery body section 5.1 can be connected with a rainwater collecting pipe 16, a water outlet point of the rainwater collecting pipe 16 is provided with a one-way valve, the rainwater collecting pipe is ensured that the water in the pipe section 5.1 cannot flow back into the rainwater collecting pipe 16, and a sedimentation tank is arranged at a position about 1 meter gallery 5.3, the size of sedimentation tank 6 is than the 5.1 width of piping lane body section 20 centimetres big, highly 20 centimetres big, 6 meters about of sedimentation tank, the delivery port department at sedimentation tank 6 inserts one with sedimentation tank width height size, filter subassembly 7 of about 30 centimetres thick, filter subassembly 7 is including controlling two filter 7.1 and being located about two porous cottons 7.2 between filter 7.1, filter 7.1 is the plastics grid shell, the thick porous cottons 7.2 of internal clamp 20 centimetres. The filter plate assembly 7 can block large particles of impurities and filter small particles of impurities. 6 sedimentation tank can deposit the impurity of collecting the interior water of piping lane, can clear up by manual work when having the condition.

Install first blade gear 15.1 at the rotation of piping lane section of intaking 5.2, install second blade gear 15.2 at the rotation of piping lane section of giving water 5.3. When rivers pass through the pipe gallery section of intaking 5.2 and pipe gallery play water section 5.3, strike and install in the pipe gallery first blade gear 15.1 of intaking in section 5.2 and install in the rotation of second blade gear 15.2 of pipe gallery play water section 5.3, drive magnetoelectric induction current generator 14, the cutting magnetic field produces electric current, charges for accumulator 2.

The underwater dredging of the river channel is not hardened, nylon hollow oxygenation pipes 8 with the diameter of about 3 centimeters are laid according to the distance of about 20 centimeters, air outlets are formed in the oxygenation pipes 8, the oxygenation pipes 8 are fixed to the river bottom through U-shaped fixing fibers, and the oxygenation pipes 8 are connected with an air pump 3 located on a river channel revetment through connecting pipes 9.

After the oxygen increasing pipe 8 is laid, a plurality of square hollow grid boxes 11 with the length of about 50 cm, the width of about 30 cm and the height of about 20 cm are placed on the oxygen increasing pipe 8, grid holes of the grid boxes 11 are round holes with the diameter of about 6 mm, air bubble stone particles 13 with the particle size of more than 6 mm are placed in the grid boxes 11, and the stacking height of the air bubble stone particles 13 in the grid boxes 11 is 30% of the height of the grid boxes 11. The grid box 11 is fixed by inserting a T-shaped fixing fiber 12 with a diameter of 5 mm and a length of 60 cm into the grid hole at the top of the grid box 11 and avoiding the oxygenation pipe 8 to the bottom of the river. And (3) winding and planting aquatic weeds on the T-shaped fixed fiber 12 and the grid box 11. The grid box 11 is pressed on the oxygenation pipe 8 as a balance weight, so that the oxygenation pipe 8 is effectively prevented from floating upwards, the rolling area of the air bubble stone particles 13 is limited, the air bubble stone particles 13 can roll sufficiently in the limited area, and the sedimentation of river bottom impurities is reduced or even avoided.

The solar power generator 1 and the magnetoelectric induction current generator 14 are connected with the accumulator 2, the first blade gear 15.1 and the second blade gear 15.2 are connected with the magnetoelectric induction current generator 14, and the accumulator 2 is connected with the submersible pump 4 and the air pump 3.

The solar generator 1 absorbs solar energy and converts the solar energy into electric energy to be transmitted to the electric accumulator 2, the electric accumulator 2 provides the electric energy to the air pump 3 and the submersible pump 4, the air pump 3 works to inject air into the oxygenation pipe 8, and the air is compressed and discharged from the air outlet holes in the oxygenation pipe 8, so that the underwater oxygenation is realized, and meanwhile, the air stone particles 13 in the grating box 11 are impacted. Bubble stone granule 13 rolls under the effect of air, drive sedimentary silt impurity and tumble to the aquatic, partly is absorbed by winding pasture and water, another part is along with the water, by the immersible pump 4 extraction of low reaches, inject into the water inlet of piping lane intake section 5.2, the rivers that rivers and the rainwater collecting pipe 16 that the immersible pump 4 extracted pass through the piping lane of water collecting system 3 and flow through sedimentation tank 6, behind the filter subassembly 7, the delivery port through piping lane outlet section 5.3 flows into the river course waters.

Claims (6)

1. The utility model provides a river course water circulation self-purification system which characterized by: the solar energy power generation device comprises a solar energy power generator (1), a condenser (2), an air pump (3), a submersible pump (4), a pipe gallery body section (5.1), a pipe gallery water inlet section (5.2), a pipe gallery water outlet section (5.3), a sedimentation tank (6), a filter plate assembly (7), an oxygenation pipe (8), a connecting pipe (9) and a water conveying pipe (10);

a solar generator (1), a condenser (2) and an air pump (3) are installed on the river channel revetment, the solar generator (1) is connected with the condenser (2), the condenser (2) is connected with the air pump (3), an oxygenation pipe (8) is fixed at the river bottom of the river channel, and the air pump (3) is connected with the oxygenation pipe (8) through a connecting pipe (9);

the method comprises the following steps that a pipe gallery body section (5.1) with a slope is arranged in a revetment on the same side of a river channel, one end of the pipe gallery body section (5.1) is provided with a pipe gallery water inlet section (5.2) with a vertical upward opening, the other end of the pipe gallery body section (5.1) is provided with a pipe gallery water outlet section (5.3) with a vertical downward opening, a submersible pump (4) is arranged in the river channel, the electric accumulator (2) is connected with the submersible pump (4), a water outlet of the submersible pump (4) is connected with a water conveying pipe (10), and a water outlet of the water conveying pipe (10) is connected into the pipe gallery water inlet section (5.2); be equipped with sedimentation tank (6) in the revetment, sedimentation tank (6) meet with piping lane body section (5.1), are equipped with filter plate subassembly (7) at the delivery port department of sedimentation tank (6).

2. The riverway water body circulation self-purification system as claimed in claim 1, which is characterized in that: still include grid case (11), the fixed fine (12) of T font and air bubble stone granule (13), grid case (11) are pressed on oxygenation pipe (8) and are fixed at the river bottom through the fixed fine (12) of T font, and the fixed fine (12) of T font is avoided oxygenation pipe (8), be equipped with air bubble stone granule (13) in grid case (11).

3. The riverway water body circulation self-purification system as claimed in claim 2, which is characterized in that: the stacking height of the bubbled stone particles (13) in the grid box (11) is 20% -40% of the height of the grid box (11).

4. The riverway water body circulation self-purification system as claimed in claim 1, which is characterized in that: the filter plate component (7) comprises a left filter plate (7.1), a right filter plate (7.1) and porous cotton (7.2) positioned between the left filter plate and the right filter plate (7.1).

5. The riverway water body circulation self-purification system as claimed in claim 1, which is characterized in that: still include magnetoelectric induction current generator (14), first blade gear (15.1) and second blade gear (15.2), install on the river course bank of barge, magnetoelectric induction current generator (14) with accumulator (2) link to each other, first blade gear (15.1) are rotated and are installed in piping lane section of intaking (5.2), and second blade gear (15.2) are rotated and are installed in piping lane water section (5.3), and first blade gear (15.1), second blade gear (15.2) all link to each other with magnetoelectric generator (14).

6. The riverway water body circulation self-purification system as claimed in claim 1, which is characterized in that: a rainwater collecting pipe (16) is arranged on the river revetment, the rainwater collecting pipe (16) is connected with the pipe gallery body section (5.1), and a one-way valve is installed at a water outlet of the rainwater collecting pipe (16).

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