KR200223184Y1 - underwater compressed air generate a device - Google Patents

Abstract

The present invention relates to an underwater compressed air generator that generates compressed air in deep water to increase the amount of dissolved oxygen in the water by using an aeration pipe, or uses a water circulator to circulate water in the lower layer to the upper layer to perform the water purification function. will be.

The present invention is to install a plurality of support and air suction pipes in deep water in the structure floating on the water to install the compressed air generation tank and storage tank in the water and to attach the width pipe or water circulator to the compressed air storage tank In the compressed air generating tank, the outside air in the air is sucked in to generate air, and the compressed air is stored at the hydraulic pressure in the storage tank to release the compressed air to the aeration pipe or the water circulator to proceed the aeration process and the water circulation process. .

Description

Underwater compressed air generate a device

The present invention relates to an underwater compressed air generator that generates compressed air in deep water to increase the amount of dissolved oxygen in the water by using an aeration pipe, or uses a water circulator to circulate water in the lower layer to the upper layer to perform the water purification function. will be.

Water accumulated in reservoirs, lakes, and dams is causing water layer phenomena with different surface and bottom water temperatures. These water phenomena have high temperatures in the summer and low temperatures in the summer, and low temperatures in winter. Low and low temperatures indicate high phenomena.

Such a water layer phenomenon leads to a lack of dissolved oxygen in the water present in the bottom layer, thereby promoting the elution of phosphorus deposited on the floor, thereby reducing the quality of the fresh water.

If phosphorus or nitrogen is eluted in the water, the nutrient source of algae breeding becomes abundant and eutrophication proceeds. To solve this problem, air must be supplied to the lower layer in the water to increase dissolved oxygen in the lower layer or circulate water in the upper layer and the lower layer. do.

In order to increase the amount of dissolved oxygen by supplying air to the bottom of the water, the recently applied method adopts a method of forcibly supplying air to the bottom by operating an air compressor in a structure floating on the ground or the surface of the water.

However, since the air must be aerated in the water through the exhaust pipe by supplying air to the lower part of the water where the water pressure higher than atmospheric pressure is applied, a high-power air compressor must be installed and a large maintenance cost is required. Compared to the maintenance cost, the expected value is not achieved.

The present invention is devised to improve the problems of the existing facilities as described above, inhaling the outside air in the deep water to create compressed air and release the compressed air to the exhaust pipe to aeration air in the water or compressed air By discharging to the water circulator to circulate the water in the lower and upper layers to purify contaminated water, high power is not required, so maintenance and installation costs are low.

The present invention is to install a plurality of support and air suction pipes in deep water in the structure floating on the water to install the compressed air generation tank and storage tank in the water and to attach the width pipe or water circulator to the compressed air storage tank In the compressed air generating tank, the outside air in the air is sucked in to generate air, and the compressed air is stored at the hydraulic pressure in the storage tank. .

1 is an installation state showing an embodiment of the present invention

2 is a cross-sectional view of the installation state of the present invention

3 and 4 is a cross-sectional view showing a process of generating compressed air of the present invention

5 is a cross-sectional view showing an operating state of the present invention

6 is a cross-sectional view showing another embodiment of the present invention

7 is a side view showing the width pipe;

<Description of the code | symbol about the principal part of drawing>

1: Structure 2: Dependent 3: Support

4: control box 5: air inlet pipe 6: automatic valve

7: Check valve 10: Compressed air generation tank 11, 11a: Air suction chamber

12: submersible pump 14: water level sensor 15: discharge pipe

16: Water level sensor 20: Storage tank 22: Water level sensor

23: drainage pump 24: pressure gauge 30: width pipe

40: Water circulator

The present invention generates air by sucking external air through the pumping process of the built-in water in the compressed air generating tank (10) installed in deep water and the generated air is introduced into the storage tank (20) to a water pressure higher than atmospheric pressure Compressed and stored by the compressed air is discharged back to the width pipe 30 or the water circulator 40 to increase the amount of dissolved oxygen in the water and to circulate and purify the water.

Underwater compressed air generating apparatus of the present invention is a support (3) and several support (3) which is installed deep in the water in the vertical state in the structure (1) floating on the water surface as a support body (2), the fastener (at the lower end of the support (3) 21) is installed in the water, the water level sensor 22 is attached to the inside and the hemispherical storage tank 20, the bottom of which is open, and the water tank is supported and sealed by the fixing table 17 inside the storage tank 20 Two air suction chambers (11) (11a) are installed in each of the hemispherical compressed air generating tank (10) to which the water level sensor (14) is attached, and several air suction chambers (11) (11a), respectively. The hose 13 is connected to the water pump 12 installed in the air suction chambers 11 and 11a different from each other, and installed in the structure 1 above the several air suction chambers 11 and 11a and checked at the bottom. An air inlet pipe 5 having an automatic valve 6 attached thereto so that the valve 7 is mounted and positioned in the water, and a check valve 15a at the lower end thereof is installed with air suction. (11) (11a) is composed of a discharge tube 15 for introducing the generated air to the storage tank 20, installed on the upper portion, and a control box (4) installed on the structure (1) to control the operation It is characterized by.

The structure (1) floating on the water surface is provided with several support bodies (2) attached to the bottom and a control box (4) for controlling operation on one side thereof, while several supports deep in the water in a vertical state in the structure (1) (3) and the air inlet pipe (5) are provided.

The storage tank 20 installed at the lower end of the support 3 located deep in the water has several fasteners 21 mounted up and down and is fixed to the support 3 and is formed in a hemispherical shape with the bottom open. The water level sensor 22 for detecting is mounted.

The fixture 21 is fixed to the storage tank 20 in the support (3) can be used for clamps, etc., the water level sensor 22 mounted on the inside senses the water level in the storage tank 20, the structure ( It is installed to transmit the detection signal to the control box (4) installed in 1).

Compressed air generating tank (10) is hemispherical in size smaller than the storage tank (20) is installed to be supported by a fixed stand (17) attached to the inside of the storage tank 20, several air suction chambers ( 11) 11a are installed and several water level sensors 14 are attached to the divided air suction chambers 11 and 11a.

In addition, a plurality of air suction chambers (11) (11a) are sealed in the predetermined water and each of the water pump 12 is installed on the bottom surface, the discharge hose 13 of the water pump 12 is mutually different air suction It is connected to the chambers 11 and 11a so that the water pumped by the submersible pump 12 is pumped into different air suction chambers 11 and 11a.

The amount of water contained in each of the air suction chambers 11 and 11a is injected so as not to exceed half of the combined volume of the air suction chambers 11 and 11a, and into the air suction chambers 11 and 11a. The attached water level sensor 14 transmits a detection signal to the control box 4 to control the operation of the submersible pump 12, and also detects the water level in the air suction chambers 11 and 11a. The sensor 16 is installed to supply the control of the control box 4 if the built-in water is insufficient.

An air inlet pipe 5 through which external air in the air flows into the air intake chambers 11 and 11a is connected to several air intake chambers 11 and 11a above the structure 1 and installed therein. A check valve 7 is mounted at the lower end of the upper portion of the suction chambers 11 and 11a and installed in the water so that the automatic valve 6 is opened and closed automatically by the control box 4.

The check valve 7 mounted at the lower end of the air inlet pipe 5 opens in one direction so that only external air is introduced and discharge is blocked. An automatic valve 6 installed in the water is built in the air suction chamber 11 and 11a. If the water is short, the control box (4) acts as a signal to supply the supplementary water to the air suction chamber (11) (11a).

The discharge pipe 15 for introducing the air generated from the compressed air generating tank 10 into the storage tank 20 is installed at the lower end of the air suction chambers 11 and 11a with check valves 15a mounted at the bottom thereof. The check valve 15a is configured to discharge only air from the air suction chambers 11 and 11a.

Connecting pipes 31 and 41 are mounted on the upper part of the storage tank 20 so as to perform the purification function of the contaminated water by using compressed air compressed and stored by water pressure. It is possible to install the water pipe 30 and the water circulator 40 of the known art in which the 32 and 42 are installed.

On the other hand, in the structure 1, the wiring pipe 8 is installed in the storage tank 20 so that the submersible pump 12, several water level sensors 14, 16, 22 and automatic valves 6, 31 and 41 are installed. ) Is installed to supply power and transmit detection signal to control box (4).

Referring to the operation process of the present invention having such a configuration as shown in Figure 3 and 4 of the control box (4) in the state in which the predetermined water is built in one of the air suction chamber (11) of the compressed air generating tank (10) When the submersible pump 12 operates to control the water contained in the air suction chamber 11 to pump the other air suction chamber 11a, the air suction chamber 11 in which the water is reduced by the pumping process has a low internal pressure. In the air intake chamber 11a in which the outside air in the atmosphere is sucked through the air inlet pipe 5 and water is filled, the internal air is compressed while the volume of the internal space is reduced, and the storage tank is discharged through the discharge pipe 15. Inflow to (20).

When the water contained in the air suction chamber 11 is reduced to the bottom surface by the operation of the submersible pump 12, the water level sensor 14 transmits a detection signal to the control box 4 to stop the submersible pump 12. And the submersible pump 12 of the air suction chamber (11a) filled with water by pumping is operated, it is carried out by repeating such an operation process to suck the outside air into the storage tank 20.

When a large amount of air flows into the discharge pipe 15 while the bottom surface is opened and water is filled, the storage tank 20 is compressed air by being pushed by a hydraulic pressure higher than atmospheric pressure, and within the storage tank 20. When the water level is lowered while the compressed air is filled, the water level sensor 22 transmits a detection signal to the control box 4 to operate the automatic valves 32 and 42 installed in the width pipe 30 or the water circulator 40. By releasing compressed air, contaminated water is purified.

When the water level of the storage tank 20 increases due to the discharge of compressed air, the operation is repeated as the automatic valves 32 and 42 are locked by the control box 4, and the air is stored in the air suction chambers 11 and 11a. If the water is insufficient, the automatic valve 6 mounted on the air inlet pipe 5 is opened by the detection signal of the water level sensor 16 to supply the supplementary water.

6 is a method for compressing and storing the air flowing through the discharge pipe 15 by sealing the bottom of the storage tank 20 as another embodiment of the present invention, the bottom of the storage tank 20 and the pressure gauge therein If the internal air is properly compressed by the amount of air continuously introduced by installing the 24, the automatic valve 31 of the width pipe 30 and the water circulator 40 in the control box 4 by the signal of the pressure gauge 24 Can be configured to operate (41).

Considering the case in which water is introduced into the storage tank 20 in the above, when the water level is detected, a drain pump 23 that operates automatically can be installed in the storage tank 20, and one air inlet pipe 5 is provided. Installed in the structure (1) and connected to each air suction chamber (11) (11a) can be reduced manufacturing costs.

The aeration pipe 30 is radially formed as shown in FIG. 7 by a known technique, and a plurality of aeration holes are drilled therein to increase the amount of dissolved oxygen by aeration of compressed air in water.

The present invention generates compressed air by inhaling the outside air in the atmosphere in deep water and compressing the sucked outside air to a pressure higher than atmospheric pressure, thereby eliminating the need for high power, reducing facility and maintenance costs, and effectively improving water quality. It can be done.

Claims (2)

Several supports (3) are installed deep in the water in a vertical state from the structure (1) floating on the water surface by the support (2), and are installed in the water by being mounted as a fixture 21 on the lower end of the support (3) A hemispherical storage tank 20 having a water level sensor 22 attached thereto and an open bottom thereof, and several air suction chambers 11 and 11a supported and sealed by a fixing table 17 inside the storage tank 20. Is installed in each of the hemispherical compressed air generating tank (10), each of which is attached to the water level sensor (14), and the several air suction chambers (11) (11a), the discharge hoses 13 are different from each other (11) (11a) and the submersible pump (12) installed in the structure (1) connected to the upper portion of the air intake chamber (11) (11a), the check valve (7) is mounted at the lower end and the automatic valve (6) Air inlet pipe (5) with a check valve (15a) is attached to the bottom of the air suction chamber (11) (11a) is installed on the top of the toe to induce the generated air into the storage tank (20) Underwater compressed air generator, characterized in that consisting of the outlet 15 and the control box (4) installed on the structure (1) to control the operation. The method of claim 1, Underwater compressed air generating device characterized in that the bottom of the storage tank 20 is sealed and is configured by installing a pressure gauge 24 and the drainage pump 23 therein.