KR100451389B1 - aerator - Google Patents

Abstract

The present invention can improve the durability and lifespan by cooling the main part of supplying air to the water, and keep the internal and external temperature of the compressor for compressing air at a constant, thereby minimizing the amount of compressed air and pressure loss due to metal expansion. It can supply a large amount of compressed air to the depth of the water at high pressure and prevent the rise of water temperature by lowering the temperature of the air supplied to the water, thereby maintaining the water temperature and dissolved oxygen suitable for the growth of farmed fish It is about an aerator that has become.

According to the present invention, a compressor (10) operated by a driving motor (5) to compress external air at high pressure, and connected to the compressor (10) to store high-pressure air, and on one side an injection nozzle installed in water It comprises an air tank 20 is connected to 30, the air compressed by the compressor 10 through the air tank 20 and the injection nozzle 30 at high pressure in the water to generate air bubbles In the conventional aerator, it is provided in the circumference of the compressor (10) and the air tank 20, the cooling means (40) through which a cooling medium such as cooling water is circulated, and the cooling means (40) It is connected to the) is provided with an aerator characterized in that it comprises a pump 50 for circulating the cooling medium into the cooling means (40).

Description

Aerator

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an aerator, and more particularly, by cooling a main part of supplying air into water, it is possible to improve durability and lifespan, and to maintain a constant internal and external temperature of a compressor for compressing air, By minimizing the amount of compressed air and pressure loss due to expansion, a large amount of compressed air can be supplied at high pressure to the depth of the water, and the temperature of the air supplied to the water is lowered to prevent an increase in water temperature. The present invention relates to an aerator capable of maintaining water temperature and dissolved oxygen suitable for growth.

Generally, a blower or an aerator is used in a farm or a sewage treatment plant for farming various mule meats to increase the amount of dissolved oxygen by supplying air to the water. The aerator used here is usually a drive motor, a compressor operated by the drive motor, an air tank connected to the compressor, a control unit for controlling the operation of the compressor, and connected to the air tank and disposed in the water. It comprises a spray nozzle.

The compressor operates the compressor by the drive motor to compress the outside air, store high pressure air in the air tank connected to the compressor, and inject the high pressure air into the water through the injection nozzle to dissolve in the water. It is supposed to increase the amount of oxygen.

However, when the outside air is compressed by the oil-free compressor, the inside of the compressor is maintained at about 180 ° and the outside at about 70 °, so that the expansion coefficient of the metal is changed. Since there is no separate cooling device for lowering the internal high temperature, there is a problem in that the high temperature air overheats the main parts of the compressor and the air tank, thereby deteriorating durability and pressure. In addition, the aerator has a problem that can not supply air outside the depth of about 1m to 4m because the failure rate due to the overheating of the device is increased and the pressure is lowered. In addition, since the aerator injects high temperature air into the water, there is a problem in that the water temperature rises, so that it is impossible to maintain a suitable water temperature for the growth of cultured fish, etc., and if there is severe problem, the farmed fish die.

SUMMARY OF THE INVENTION The present invention has been proposed in view of the above problems, and an object of the present invention is to improve durability and lifespan by cooling main parts of supplying air in water, and to improve the durability and life of the compressor to compress air. By maintaining a constant, the amount of compressed air and pressure loss due to metal expansion can be minimized, and a large amount of compressed air can be supplied at high pressure to the depth of the water, and the temperature of the air supplied to the water can be lowered to increase the temperature. Therefore, to provide an aerator capable of maintaining a water temperature and dissolved oxygen suitable for the growth of farmed fish and the like.

1 is a front cross-sectional view of an aerator according to the present invention.

2 is a front sectional view of the compressor of FIG.

3 is a side cross-sectional view of FIG.

<Explanation of symbols for main parts of the drawings>

10. Compressor 20. Air tank

30. Injection nozzle 40. Cooling means

50. Pump

According to the present invention, a compressor (10) operated by a driving motor (5) to compress external air at high pressure, and connected to the compressor (10) to store high-pressure air, and on one side an injection nozzle installed in water It comprises an air tank 20 is connected to 30, the air compressed by the compressor 10 through the air tank 20 and the injection nozzle 30 at high pressure in the water to generate air bubbles In the conventional aerator, it is provided in the circumference of the compressor (10) and the air tank 20, the cooling means (40) through which a cooling medium such as cooling water is circulated, and the cooling means (40) It is connected to the) is provided with an aerator characterized in that it comprises a pump 50 for circulating the cooling medium into the cooling means (40).

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

1 shows a front sectional view of an aerator according to the invention, FIG. 2 shows a front sectional view of the compressor portion of FIG. 1, and FIG. 3 shows a side sectional view of FIG. 1. Referring to this, the aerator is operated by a drive motor 5, a compressor 10 for compressing air at high pressure, an air tank 20 connected to the compressor 10 to store high-pressure air, The injection nozzle 30 connected to the air tank 20 and installed in the water is the same as in the related art. In addition, the compressor 10 and the air tank 20 are provided with a cooling means 40, the pump 50 is connected to the cooling means (40).

The cooling means 40 is provided at the circumferences of the compressor 10 and the air tank 20, and is connected to the pump 50 so that a cooling medium such as cooling water is circulated therein. Since the cooling means 40 are connected to each other by the pipe 42 and to the pump 50 at the same time, a cooling medium such as cooling water may be circulated therein by the operation of the pump 50. . Accordingly, when the pump 50 is operated, the liquid cooling medium circulates inside the cooling means 40 while cooling the air by the compressor 10 even if high temperature is generated, thereby cooling the air tank. The temperature of the compressed air in 20 is adjusted.

On the other hand, in the case of the compressor 10, as shown in Figure 2, the input side bearing 14 of the rotary shaft 13, and the periphery and vanes of the bearing 17 opposite the input side bearing 14 ( It is preferable to install the cooling chamber 40 in all portions except for the portion where the cooling chamber 40 cannot be installed due to the structure of the compressor 10, such as the periphery of 18).

At this time, the drive motor 5 and the pump 50 of the compressor 10 is connected to the control unit 25, the control unit 25 is the drive when the compressed air in the air tank 20 runs short, The compressor 10 is operated by the motor 5 to compress external air and then supplied to the air tank 20. In addition, the control unit 25 is connected to the pump 50, in order to prevent the air is compressed by the compressor 10 to increase the temperature, by operating the pump 50 by the cooling means 40 Control the circulation of the cooling medium into the interior of the.

Meanwhile, reference numeral 33, which is not described, illustrates an air filter, and purifies the air circulating in the compressor 10 and the air tank 20. In addition, reference numeral 44 shows a pipe connecting the pump 50 and the cooling means 40, and constitutes a cooling water passage so that the cooling medium circulates into the cooling means 40 via the pump 50. In addition, reference numeral 55 denotes a pipe connecting the compressor 10, the air tank 20, and the injection nozzle 30, and the injection nozzle 30 via the compressor 10 and the air tank 20. The air passage is formed so that the air is delivered to

According to the aerator configured as described above, when a high temperature is generated by the air compressed at high pressure by the compressor 10 and frictional heat inside the compressor 10, the pump 50 causes the cooling means 40 to be cooled. By circulating the cooling water and the cooling medium therein, the temperature of the air raised to a high temperature when the air is compressed by the compressor 10 is appropriately cooled, and the inside of the compressor 10 is cooled, so that the coefficient of thermal expansion of the metal is constant. It can be maintained so as to prevent overheating of the compressor 10 and the air tank 20. In addition, when the air compressor compresses the air by the compressor 10, the inside of the compressor 10 is cooled by the cooling means 40, so that the thermal expansion coefficient of the metal is kept constant, as appropriate. Cooled and temperature-controlled air can be sprayed into the water through the spray nozzle 30 to generate air bubbles, thereby preventing an increase in water temperature.

Therefore, the aerator cools the compressor 10 itself by the cooling means 40 provided at the circumferences of the compressor 10 and the air tank 20, and appropriately cools the hot air and supplies the water into the water. Since the compressor 10 and the air tank 20 are prevented from being damaged by high temperature, there is an advantage of increasing the amount of compressed air and improving durability and lifespan. In addition, the aerator maintains a constant temperature inside and outside of the compressor 10 by the cooling means 40, thereby minimizing the loss of air volume and pressure loss due to metal expansion, and thus the high pressure to a depth of about 10 m. There is an advantage that can inject air. In addition, the aerator prevents the rise of the water temperature by appropriately lowering the temperature of the high temperature compressor 10 and the air and spraying it into the water at high pressure, thereby maintaining dissolved oxygen and water temperature suitable for the growth of aquaculture fish in the water. There is an advantage.

As described above, according to the present invention, since the main part for supplying air is cooled by the cooling means provided at the circumference of the compressor and the air tank, it is possible to prevent damage to the compressor and the air tank due to high temperature and to maintain durability and lifespan. By maintaining a constant temperature inside and outside the compressor, the amount of compressed air and pressure loss due to metal expansion are minimized, so that a large amount of air can be supplied at a high pressure to a deep depth, and the air temperature Since it is appropriately lowered and sprayed at high pressure in the water, it is possible to prevent the rise of the water temperature is provided an aerator capable of efficiently maintaining the water temperature and dissolved oxygen suitable for the growth of farmed fish and the like.

Claims (1)

A compressor (10) operated by the drive motor (5) to compress the outside air at high pressure, and connected to the compressor (10) to store high pressure air, and one side is connected to the injection nozzle (30) installed in the water Comprising an air tank 20, the air compressed by the compressor 10 through the air tank 20 and the injection nozzle 30 in a high pressure in the water to generate air bubbles In the aerator, a cooling means (40) provided at the periphery of the compressor (10) and the air tank (20) and circulating a cooling medium such as cooling water therein, and connected to the cooling means (40) for cooling And a pump (50) for circulating the cooling medium into the means (40).