KR100441872B1 - Little waves aerator with natural wind - Google Patents

Abstract

The present invention is a method for aeration of the natural wind introduced into a plurality of propeller-type air discharge pipe by using wind energy as an aerator to generate ripples close to the water surface using natural wind to increase the oxygen dissolution efficiency. It is a method in which a natural air flowed into a wide air intake tube with a flap-shaped inlet installed by using the principle of a wind vane is aerated in close proximity to the water surface through a plurality of propeller type air discharge pipes.

Two or more floats are installed on the upper surface of the fish farm and connected to the fish farm, and the natural wind coming into the wide air intake tube with the shape of the fallopian tube installed using the wind vane principle is sent to a plurality of propeller type air exhaust pipes. One air discharge pipe has a large number of air discharge holes, and a natural air that enters is aerated into a propeller-type air discharge pipe located 3 to 5 mm from the water surface to cause ripples on the surface of the water. At this time, the oxygen dissolution efficiency is increased on the surface of the fish farm, and the propeller-type air discharge pipe is slowly pushed backward by the force of air injection, rotates at low speed, and mixes evenly by preventing the water from becoming cloudy. It relates to a ripple aerator that can save energy by using.

Description

Little waves aerator with natural wind

In conventional fish farms, a large number of fish are placed in a narrow space, and the amount of oxygen in the fish farm is insufficient, which limits the activity of fish and slows the growth rate of fish, thereby using a high-powered aeration system. Due to the high energy waste and the stress of fish caused by the strong impact of aeration, another obstacle to growth and meat quality is generated.

The present invention is designed to solve the above-mentioned problems, by using an air ripple aerator using natural wind to install an air discharge pipe very close to the water surface to form a ripple on the water surface to increase the contact area with air in the air to increase the oxygen dissolved efficiency It is a device that not only raises the temperature, but also produces low noise and low vibration ripples without the impact of aeration, which can reduce the impact or stress on the fish.

The present invention also relates to a ripple aerator using a natural wind that can cope evenly with a low speed rotation of a number of propeller-type air discharge pipes and automatically cope with changes in fish farm position and water level by using a floating device and save energy by using wind power.

1 is a front sectional view of a ripple aerator using natural wind of the present invention

2 is an enlarged view of a portion of the ripple aerator using the natural wind of the present invention

3 is a plan view of the ripple aerator using the natural wind of the present invention

<Explanation of symbols for the main parts of the drawings>

1. Fish farm tank 2. Air suction pipe

3. Weather vane 4. Float

5. Wire 6. Air exhaust pipe

7. Natural wind 8. Bearing

9. Air vent

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a front sectional view of a ripple aerator using natural wind, FIG. 2 is an enlarged view of a ripple aerator using natural wind, and FIG. 3 is a plan view of a ripple aerator using natural wind.

Float (4) is installed on the upper surface of the fish farm tank (1) and connected to both walls of the fish farm and fixed by wire (5). The floating body 4 is a hollow product made of a material such as polystyrene or polyurethane, and is installed in two or more, and the floating body 4 serves to float the ripple aerator on the water.

Natural wind (7) is introduced through the air inlet pipe (2) of the mouth of the fallopian tube shape is injected into the air discharge hole (9) of the propeller-type air discharge pipe (6). The bearing 8 was used to connect the air suction pipe 2 and the air discharge pipe 6 to smoothly rotate the air suction pipe 2 and the air discharge pipe 6 with the wind vane 3 attached thereto.

The wind vane 3 automatically moves in the wind direction according to the direction of the wind blowing, and the wind vane 3 is attached to the air intake pipe 2 so that the wind vane rotates in the direction of the blowing wind. Allow the inlet of the inlet to the wide air suction tube (2). The air discharge pipe (6) has a plurality of propeller type wing structure and receives the natural wind (7) introduced from the air suction pipe (2) and the natural wind (7) through a plurality of air discharge holes (9) in the air discharge pipe (6) Aerated close to the surface of the fish farm. The propeller-type air discharge pipe 6 is submerged in water almost 3 to 5 mm from the surface of the fish farm to generate ripples on the water surface when aerated natural wind 7 is aerated.

When the natural wind 7 introduced from the plurality of air discharge holes 9 is aerated, the plurality of air discharge pipes 6 slowly rotate in the opposite direction in which the natural wind 7 is aerated while being slowly pushed back by the driving force. At this time, the mixing is evenly generated by the rotation to agitate the fish farm water to supply oxygen.

The present invention is aerated near the surface of the water and generates a shock-free low noise and low vibration ripples during the aeration can reduce the impact and stress received by the fish, it can be operated using wind power can save energy. In addition, when the ripples occur, the contact area with the air in the air is increased to improve the oxygen dissolution efficiency, and it is also a device capable of coping with the change of position and the water level by using a floating body on the water.

Claims (1)

When a natural air flowed into the combination of the air inlet tube and the wind vane with a wide open trumpet-shaped inlet, a large number of propeller-type air discharge tubes are installed at a depth of 3 to 5 mm from the water surface to generate ripples on the water surface to make contact with the air in the atmosphere. And the contact area is increased to improve the oxygen dissolution efficiency, and the noise and low vibration during aeration can reduce the shock and stress received by the fish, and the energy can be saved by using the wind power. A ripple aerator using natural wind that rotates backwards and stirs evenly to prevent water from becoming cloudy.