KR900004410Y1 - Aerator - Google Patents

Abstract

No content.

Description

Stationary Water Quality Improvement Device

Figure 1 is a perspective view of the installation state of the stationary water quality improvement apparatus configured according to the present invention.

2a, b is a front sectional view of the operating state of the present invention.

3 is a state showing the rotation range of the container for air filling installed in the main body of the present invention.

* Explanation of symbols for main parts of the drawings

1: body 2: container

3: anchor weight 4: wire

5: compressor 6: air hose

7: float 8: hinge

20: air charging unit 9: air inlet

The present invention relates to an apparatus for improving stationary water quality, and an object of the present invention is to provide a device for preventing corruption by forcibly circulating water accumulated in a lake or reservoir.

The water quality is rapidly contaminated by the inflow of nitrogen and phosphorus nutrients in the water, such as reservoirs serving as water sources for supplying drinking water and natural or artificial lakes. Pollution of lakes greatly impairs its value in terms of environmental tourism resources.

Furthermore, in summer, the tranquil layer (the difference between the surface and the depth of the water is large) occurs in the lake reservoir, and the up and down flow of water (convection), heat transfer, and oxygen mixing are not performed smoothly. It is formed into a layer free of water, causing decay and odor of water, and eluting iron and manganese nutrients.

In addition, in the vicinity of the surface layer, abnormalities occur in plants, etc., causing heterogeneous odors, such as mold odors, and water filtration obstructions. It will cause great damage to them.

Accordingly, in order to improve the water quality stored in the water source used as a drinking water source, activated carbon or ozone was used, but this had a problem of too much economic burden, and the water quality was deteriorated because it was not used due to the economic burden in the lake. In the end, it had a problem of destroying the ecosystem in the lake and causing great loss in terms of environment and tourism resources.

Therefore, the object of the present invention is to solve the conventional problems as described above, to improve the water quality stored in the lake or reservoir to contribute to supply of high quality planting, damage to the ecosystem by continuing to preserve the high quality water in the lake It is to provide a bubble-generating static water quality improvement device that can prevent the environment and tourism resources from pollution, without being described in detail according to the accompanying drawings as follows.

As shown in Figs. 1 and 2, a plurality of sub-assemblies 7 are attached around the upper side of the outer wall of the enclosure-shaped main body 1 having the upper side opened, and at the same time, a predetermined air charging part 20 is provided on the inner bottom of the main body. One side end portion was hingedly installed in the state in which the container 2 was in a down state (that is, a state where the opening contacted the bottom surface of the main body).

And the air inlet 9 for supplying air in the air charging portion 20 of the container 2 is installed on one side of the bottom surface of the main body 1, the air drawn from the external compressor 5 on the inlet side The hose 6 is connected.

In addition, the main body 1 has a wire 4 in the lower portion by connecting the anchoring weight (3) for buried underwater bottom buried as a connecting member such as a chain, so that the main body 1 can be installed in a fixed position in the water.

Looking at the operating state of the present invention configured as described above are as follows.

When the main body 1 is put in the water, the lifting force is received by the buckle 7 installed around the upper side of the outer wall, but by the tension force through the wire 4 connected to the lower fixed shaft 3 attached to the bottom of the water. It is located vertically in water.

At this time, the container (1) coupled on the bottom surface is placed in an upright state as shown in Figure 2a by its own weight.

Thereafter, when the compressor 5 is operated, the compressed air is blown out through the air hose 6 to the air inlet 9 and supplied and filled into the air filling part 20 of the container 2.

If the air pressure in the charging section is increased by more than the set value due to the continuous air filling operation, the tip of the container 2 rises around the hinge 8 by buoyancy as shown in FIG. 2b. If it is located inside, the compressed air escapes from the container and rises to the bubble state.

At this time, the bottom water around the bubble is moved upward to the water surface along the bubble.

When the bubble generation operation as described above is performed, the tip portion of the container 2 which has risen to the ground level is lowered to its original position by its own weight to be in a recharged state using the air inlet 9.

As described above, the container 2, which is hinged to the bottom of the main body 1 positioned in the water, is bubbled intermittently while repeatedly raising and lowering by self-weight after the bubble is released by the action of buoyancy caused by external air. As the water is raised, the water located at the bottom side is forced to the upper side, and the water located at the top side is forcedly circulated and oxygen is supplied.

At this time, in order to facilitate the lowering operation of the container as described above, as shown in FIG. 3, the vertical center line (Y) of the hinge is divided into the left (A) and the right (B) of the container to escape the bubble The left side (A) is 1/2 or more of the weight and the right (B) is 1/2 or less when measured at the maximum lift position, and is designed to increase or decrease the weight of the container.

Accordingly, the air charging unit 50 can easily and easily perform pressure reduction of the air charge amount, and can greatly increase or decrease the single size of the eluted bubble, and can be used as a single model regardless of the large and small lakes and deep and shallow areas. have.

Therefore, the present invention is able to improve the oxygen supply and its water quality while simultaneously flowing a large amount of water up and down by pumping water at the bottom by intermittently ejecting compressed air from the main body 1 placed vertically in water. Improving the water quality destroys the fixed strata (or prevents any forming), which leads to homogenization between the upper and lower layers of mercury and an increase in dissolved oxygen, so that the myelin sheaths of the surface layer are trapped to the depths where no rays reach. It is possible to prevent the occurrence of abnormalities due to the adjustment of the light (light), and to obtain a great effect even in direct countermeasures against odors in the water source in particular, it is possible to prevent the cold water freezing in winter.

In addition, the present invention has the advantage of improving the water quality by improving the water quality by installing in a place where a large area of water is stored because it is small and has a small energy, and can obtain a wide range of effects. It is an indispensable and useful essential device in terms of water conservation and environmental conservation.

Claims (2)

The container 2 which has a plurality of floats 7 around the outer surface of the enclosure-shaped body 1 positioned in the water with the upper end opened and an air filling part 20 on the inner bottom surface is hinged in an upright state. Simultaneously with the coupling, an air inlet 9 connected to the hose 6 on the external compressor 5 side is installed at one side of the bottom surface, and a fixing weight 3 for water vapor installation is connected at the bottom of the main body as a connecting member. Stationary water quality improvement apparatus characterized in that the installation. According to claim 1, the container (2) hinged to the bottom has a left (A) weight of 1/2 or more on the basis of the hinge vertical center line (Y) at the maximum rising position from which the bubbles inside the exit, the right ( B) The stationary water quality improvement apparatus, characterized in that the weight is less than 1/2.