CN202222272U - Aquaculture aerator - Google Patents

Abstract

The utility model relates to an oxygen increasing device, in particular to an oxygen increasing device in the field of aquaculture. The oxygen increasing device for aquaculture of the utility model comprises a cylinder (1), the bottom of the cylinder (1) is provided with a water inlet (6), the top is provided with a water outlet (2), and the cylinder (1) is equipped with There is an aeration pan (7), and the aeration pan (7) is located between the water inlet (6) and the water outlet (2); the water inlet (6) is provided with a pipeline (5), and the two ends of the pipeline (5) are respectively The pipeline inlet (8) and the pipeline outlet (9) arranged on the cylinder body (1) communicate with the cylinder body (1), and the pipeline (5) is provided with a water pump (4) and a venturi pipe (3) in sequence. The utility model has the advantages of compact structure, easy maintenance, fast installation, reliable operation, can be started or stopped at any time, high efficiency, low energy consumption, long service life, low noise, good performance, and will not cause secondary pollution to the environment. It can be applied to sea and fresh water industrial circulating aquaculture.

Description

Aeration device for aquaculture

technical field

The utility model relates to an oxygen increasing device, in particular to an oxygen increasing device in the field of aquaculture.

Background technique

At present, the aeration device for industrialized aquaculture mainly uses the aeration pipeline to directly enter the aquaculture pond through the air chamber. Although the operation is simple, the oxygenation efficiency is low, the energy consumption is high, and the cost is increased.

Utility model content

The technical effects of the utility model can overcome the above-mentioned defects, and provide an aeration device for aquaculture, which has a simple structure and a good oxygenation effect.

In order to achieve the above purpose, the utility model adopts the following technical scheme: it includes a cylinder body, the bottom end of the cylinder body is provided with a water inlet, the top end is provided with a water outlet, and the cylinder body is provided with an aeration disc, which is located at the water inlet and outlet. Between the water ports; the water inlet is provided with a pipeline, and the two ends of the pipeline are respectively connected with the cylinder through the pipeline inlet and the pipeline outlet arranged on the cylinder, and the pipeline is provided with a water pump and a Venturi standpipe in turn.

The air and water are fully mixed by using the low-pressure environment in the device, and the high-oxygen water enters the fish pond through the water outlet. The main water source enters the cylinder from the water inlet, and the oxygenation process is completed in the cylinder. Air or pure oxygen diffuses into the cylinder after passing through the aeration disc, and the oxygenated high-oxygen water flows out from the water outlet.

The outlet of the pipeline is higher than the inlet of the pipeline, so that the gas-water mixture flowing back into the cylinder after passing through the pipeline will not affect the water intake action of the inlet of the pipeline.

The aeration pan is higher than the outlet of the pipeline, and the aeration pan is a pan with small mesh holes. The air-water mixture that flows back into the cylinder passes through the aeration pan and mixes with the water in the cylinder to obtain high-oxygen water.

The barrel is cylindrical and vertical. After the water passes through this equipment, high oxygen water can be obtained, which has the advantages of energy saving and high efficiency.

The inner diameter of the cylinder is larger than that of the water inlet, so that a low-pressure environment will be formed at the water inlet in the cylinder to facilitate the combination of air and water.

The utility model has the advantages of compact structure, easy maintenance, fast installation, reliable operation, can be started or stopped at any time, high efficiency, low energy consumption, long service life, low noise, good performance, and will not cause secondary pollution to the environment. It can be applied to sea and fresh water industrial circulating aquaculture.

Description of drawings

Fig. 1 is the front side structure schematic diagram of the present utility model;

Figure 2 is a schematic diagram of the rear structure of the utility model.

In the figure: 1. Cylinder; 2. Water outlet; 3. Venturi standpipe; 4. Water pump; 5. Pipeline; 6. Water inlet; 7. Aeration disc; 8. Pipeline inlet;

Detailed ways

The aeration device of the present utility model includes a cylinder body 1, the bottom end of the cylinder body 1 is provided with a water inlet 6, and the top end is provided with a water outlet 2, and the cylinder body 1 is provided with an aeration disc 7, and the aeration disc 7 is located at the water inlet 6 and the water outlet 2; the water inlet 6 is provided with a pipeline 5, and the two ends of the pipeline 5 are respectively connected with the cylinder 1 through the pipeline inlet 8 and the pipeline outlet 9 arranged on the cylinder 1, and the pipeline 5 is provided with a water pump in turn 4. Venturi standpipe3.

The pipeline outlet 9 is higher than the pipeline inlet 8, and the aeration disc 7 is higher than the pipeline outlet 9. The aeration disc 7 is a disc body provided with mesh holes. The cylinder body 1 adopts a cylindrical shape. The inner diameter of the cylinder body 1 is larger than the inner diameter of the water inlet 6 .

The device is placed on the side of the breeding pond, and the water inlet 6 is connected with the water supply pipe, and the water enters the cylinder body 1 through the water inlet 6; the water outlet 2 is connected to the breeding pond, and the high oxygen water can be obtained after the water passes through the device.

The inner diameter of the cylinder body 1 is larger than that of the water inlet 6, and a low pressure will be formed at the water inlet to facilitate the mixing of air and water. The pressurization of the water pump 4 makes a small part of water enter the pipeline 5 from the pipeline inlet 8, and after the water flows through the Venturi riser 3, a certain negative pressure is formed at the Venturi riser 3, so that air enters the pipeline 5 through the Venturi riser, thereby A gas-water mixture is formed, and the gas-water mixture flows back into the cylinder body 1 through the pipeline outlet 9, and the gas-water mixture and the water in the cylinder body 1 are fully mixed at the aeration disc 7 to increase the oxygen content of the water in the cylinder body 1, and obtain high oxygen water. The high-oxygen water flows into the culture pond through the water outlet 2, thereby increasing the oxygen content of the water in the culture pond.

During use, the aeration pan 7 should be cleaned regularly.

Claims (6)

1. a kind of aeration device for aquaculture, it is characterized in that, comprise cylinder body (1), the bottom end of cylinder body (1) is provided with water inlet (6), the top is provided with water outlet (2), cylinder body ( 1) There is an aeration pan (7) inside, and the aeration pan (7) is located between the water inlet (6) and the water outlet (2); the water inlet (6) is provided with a pipe (5), and the pipe (5) The two ends of the cylinder body (1) are respectively connected to the cylinder body (1) through the pipeline inlet (8) and the pipeline outlet (9) arranged on the cylinder body (1), and the water pump (4) and the Venturi pipe ( 3). 2. The aeration device for aquaculture according to claim 1, characterized in that the pipeline outlet (9) is higher than the pipeline inlet (8). 3. The aeration device for aquaculture according to claim 2, characterized in that the aeration tray (7) is higher than the pipeline outlet (9). 4. The aeration device for aquaculture according to claim 3, characterized in that the aeration disk (7) is a disk body provided with mesh holes. 5. The aeration device for aquaculture according to claim 1, characterized in that the cylinder (1) is cylindrical. 6. The aeration device for aquaculture according to claim 5, characterized in that the inner diameter of the cylinder body (1) is larger than the inner diameter of the water inlet (6).