KR950001018Y1 - Lake water clarifing apparatus - Google Patents

Abstract

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Description

Device for improving water quality of lakes and reservoirs

1 is a half sectional view showing the configuration of a general water quality improvement device.

Figure 2 is a sectional view of the main part showing the configuration of the present invention.

* Explanation of symbols for main parts of the drawings

1: Bubble Guide 3: Cover Tube

4: air charging space part 10: bracket

11: water flow path 12: blocking member

The present invention relates to a water and water quality improvement device for lakes and reservoirs to improve the water quality by forcibly convection of water accumulated in lakes and reservoirs as well as water purification plants or water supplies. In order to improve the efficiency of water quality improvement by allowing the water to circulate extensively vertically and at the same time, bubbles are continuously ejected regardless of the amount of fresh water.

In general, lakes and reservoirs contain excessive amounts of nutrients such as nitrogen and phosphorus from various pollutants, causing the algae and phytoplankton in the lake to multiply, resulting in depletion of dissolved oxygen, which leads to water decay. Will result in contamination.

Therefore, there have been known water quality improvement apparatuses proposed in various forms to improve the quality of water contaminated. However, in recent years, devices for improving the water quality by forcibly generating bubbles are provided with a device for generating bubbles in water. Was.

Looking at the bubble-generating water quality improvement device as an example, it is provided with a cylindrical shape having a certain length as shown in Figure 1 is a bubble guide tube (1) for guiding bubbles on the water surface, and the guide tube (1) The upper outer periphery of the plurality is provided with a buckle (2) for holding the balance of the bubble guide tube (1) vertically, and the cover tube (3) integrally provided at the lower portion of the guide tube (1). .

At this time, the inside of the cover tube (3) is provided with an air filling space (4) is provided with an air chamber (6) connected as an external compressor and a rubber hose (5).

In addition, the lower part of the bubble guide tube (1) is provided with an induction tube (8) fixed to the bottom of the water vapor by a connecting member (7) such as wire.

Its induction pipe (8) is provided with a double pipe that the upper portion is opened and the bottom is closed while the center is in communication with the outer tube (8a) is located in the air filling space (4) described above and the inner tube (8b) is a bubble guide The tube 1 was positioned to extend inwardly by a predetermined position.

Therefore, when the air compressed by the compressor not shown in the drawing is injected into the air filling space 4 through the injection path through the rubber hose 5, the air inlet 6a, and the air chamber 6, As the air collects inside the air filling space 4, it pushes down the vehicle in the inside of the air filling space 4 so as to deviate from the end unit value of the outer tube 8a of the induction tube 8 and the inner tube 8b. It is guided to the bubble guide tube (1) along the space, this bubble (A) is gathered in the inner diameter of the bubble guide tube (1) by the water pressure is formed into one large warhead type bubble (A) is a bubble guide tube It is to be intermittently repeated to be ejected upward along the inner diameter of (1).

At this time, the warhead-type bubble (A) is ejected onto the surface of the water along the bubble guide tube (1), the suction force is applied to the bubble guide tube (1) so that the water on the outside of the device is the inner tube (in the induction pipe (8) ( In addition to the suction rise through 8b) at the same time the water injected into the air filling space (4) between the inner diameter of the cover tube (3) and the outer tube (8a) of the induction pipe (8) is also increased.

Therefore, due to this principle, in the above-described conventional configuration, the pressure exerted from the upper part to the lower part in the bubble guide tube 1 is weak due to the change in the water level, and the air pressure into which the pressure acting in the air filling space 4 flows in. If it is weaker, the air flowing from the air chamber 6 into the air filling space 4 is sucked up into the inner filling 8 of the induction pipe 8 before being collected in the air filling space 4. This caused a problem in that it was not formed as a warhead bubble (A), but was ejected as a small bubble, so that the expected effect was not obtained.

This problem may occur when the water level fluctuates due to external factors such as weather changes, but the inner diameter of the bubble guide tube (1) and the inner diameter of the guide tube (1) of the teat tube (8) are different in size. That is, because the flow rate of the water rising through them is different, the water in the air filling space 4 is continuously sucked out, so that the air does not go crazy and no warhead-shaped bubbles are formed.

Therefore, the present invention has been made in consideration of the above circumstances, and its purpose is to ensure that continuous warhead-type bubbles are always formed regardless of changes in water pressure due to fluctuations in water level, thereby improving the water quality of lakes and reservoirs. It is to provide an improvement device.

This object is achieved by equalizing the flow rate of water rising through the bubble guide tube and the flow rate of water rising to the bubble guide tube through the inner tube of the guide tube as much as possible, that is, between the bottom of the bubble guide tube and the top of the guide tube. It is characterized by having a separate water flow passage so that the external water through the water flow passage acts as a bubble guide tube to suppress the water flowing to the air filling space portion as much as possible to sufficiently collect the air into the air filling space portion will be.

Subsequently, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a detailed view showing a configuration to which the present invention is applied, and the overall structural description thereof will be omitted here because it has been described above. However, in the present invention, the bubble guide tube 1 and the cover tube 3 are separated and these Connected to a plurality of brackets 10 through the outer periphery of the water flow passage 11 of a predetermined size between them.

In addition, the inner diameter of the cover plate 3 is provided with a water flow blocking member 12 protruding by a predetermined length inwardly so that the water in the air filling space (4) is the inner and outer tubes of the induction pipe (8) ( It is configured to block the flow to the bubble guide tube 1 side between 8a) and (8b).

The present invention constituted as described above is connected to the bottom of the water by the connecting member 7 as usual, so that the main body is maintained in the vertical state by the buoyancy of the float 2 in the water, and in this state, the compressed air is compressed by the compressor. The compressed air supplied to the air chamber 6 through the diving high pressure hose 5 is introduced into the air chamber 6 and is collected in the air charging space part 4 to push down the vehicle in the interior. One large warhead-type bubble (A) is to be generated, and this bubble (A) is ejected to the surface while being guided upward along the inner diameter of the bubble guide tube (1) by hydraulic pressure.

When one warhead-shaped bubble A is ejected upward through the bubble guide tube 1, the inner tube 8b of the induction pipe 8 and the water flow passage 11 are ejected by the ejection thereof. Through the water outside the device is sucked into the bubble guide tube (1) and continue to flow upward along the bubble guide tube (1).

At this time, most of the water rising along the warhead-type bubble (A) ejected to the bubble guide tube (1) flows through the inner tube (8b) of the induction pipe (8), but flows upward, water flow passage (11) A certain amount of water also flows into and flows through the bubble guide tube 1 through, that is, the amount of water flowing into the bubble guide plate 1 through the water flow passage 11 from the inner tube 8b of the induction pipe 8. As a result, the flow rate of the water flowing along the inner tube 8b of the induction pipe 8 or the flow rate of the water flowing along the inner diameter of the bubble guide tube 1 is compensated for. The water flowing through the air filling space 4 is almost blocked, so that the air flowing into the air filling space 4 through the air chamber 6 is bubble guide tube along the water ( 1) A certain amount is collected in the air filling space (I) without exiting will be.

In this way, the air collected in the air filling space 4 gradually pushes down the water filled in the air downward into the bubble guide tube 1 at the moment when it exits the outer tube 8a end of the induction pipe 8. It is to be ejected to be ejected in the state that exactly formed the warhead-shaped bubble (A).

At this time, when the air collected in the air filling space (4) is temporarily escaped from the water flowing from the water flow passage (11) by the blocking member 12 protruding by a certain length in the inner diameter of the cover tube (3) It is easily ejected to the bubble guide (1) without interference.

Therefore, the present invention has the effect of continuously circulating water by continuously ejecting a constant warhead type bubble regardless of the difference in water pressure due to the water level fluctuation, and the generated bubble is also accurate. As it is formed and ejected to be larger, the improvement performance of the water is improved.

Claims (1)

In the well-known water quality improvement apparatus which is installed in the upper part of the cylindrical bubble guide tube and has a cover tube and an induction tube at the bottom, and is connected to the underwater bottom with a connecting member, the bubble guide tube and the cover plate It is connected with a bracket to form a water flow passage through which water can be distributed between them, and an inner diameter upper portion of the cover pipe is provided with a protrusion for a predetermined length inward and constitutes a blocking member for suppressing water flow in the air filling space. Apparatus for improving the water quality of lakes and reservoirs, characterized in that.