KR200259848Y1 - An underwater occurrencing apparatus - Google Patents

Abstract

The present invention relates to an underwater air generator that is used to purify water by generating air in a wastewater tank, and more particularly, to blow water into the aeration tank of a wastewater purification device or water in a large aquarium. The air generator is integrated into the aerator, the motor and the blower, and the air inlet of the blower is directly connected with the impeller to shorten the connecting pipe to reduce the flow resistance of the air discharged from the blower, and also to lower the pressure at the tip of the inlet. By forming a part to reduce the output burden of the blower and motor by making the intake more easily, it is possible to suppress the noise by applying a low-power blower and motor.

The present invention forms a discharge port (13) in the upper side and the housing (12) formed an inlet (15) for intake of air in one side of the interruption, an impeller (11) installed inside the housing (12), The aerator 10, which is installed on the housing 12 and configured to transmit a rotational force to the impeller 11, and the other motor shaft 14 of the motor M to which the impeller 11 is connected. And a blower 20 which receives a rotational force from the motor M and forms an inlet 22 through which air is introduced and an exhaust port 23 through which air is discharged to both sides, and the blower 20. The suction port which is extended to the upper side to the exhaust port 23 formed in the side, the connection pipe 26 for connecting the inlet port 15 of the housing 12, and the inlet port 22 formed on the other side of the exhaust port 23. It is characterized by consisting of the engine (25).

Description

An underwater occurrencing apparatus

The present invention relates to an underwater air generator that is used to purify water by generating air in a wastewater tank, and more particularly, to blow water into the aeration tank of a wastewater purification device or water in a large aquarium. The air generator is integrated into the aerator, the motor and the blower, and the air inlet of the blower is directly connected with the impeller to shorten the connecting pipe to reduce the flow resistance of the air discharged from the blower, and also to lower the pressure at the tip of the inlet. By forming a part to reduce the output burden of the blower and motor by making the intake more easily, it is possible to suppress the noise by applying a low-power blower and motor.

In general, wastewater purification facilities contain various inorganic substances and microorganisms in the aeration tank. If the wastewater in the aeration tank is left, the wastewater and wastewater in the aeration tank will stagnate and decay. By installing a generator, the wastewater is effectively cleaned up.

The wastewater treatment by the underwater air generator is to blow air at a predetermined pressure into the wastewater to activate the aerobic microorganisms contained in the wastewater to purify the wastewater.

Conventionally, a blower which rotates by a motor and blows external air into the waste water in the aeration tank is installed on the outside of the aeration tank, and an aerator that generates air in the water is installed at the bottom of the aeration tank.

The above-mentioned underwater air generator was able to efficiently purify the wastewater by external air blown by the blower, but the noise generated by the rotation of the motor and the blower was very large, causing noise pollution, Since the blower and the motor of the underwater air generator are installed outside the aeration tank, there is a problem in that an installation space for installing the blower and the motor must be separately provided.

Conventionally, the underwater aeration apparatus suppressing the generation of noise in order to solve the problems as described above is known in Korea Utility Model Publication No. 83-2181 (August 17, 1983.10.), As shown in Figure 1, The drive unit (A) is installed in the air supply unit (F) is connected to the upper shaft of the drive unit (A), and the reduction shaft mechanism (2) for slowing the rotation of the stirring pump (B) is installed on the lower shaft, A stirring pumping device (B) and an air diffuser (C) are connected and installed at a lower portion of the reduction mechanism (2), and an air intake pipe (K) and an air diffuser (C) that suck air from the outside to the air supply device (F). The air supply pipe (E) for pumping air to the air is connected, and a water duct for discharging the waste water pumped by the stirring pump (B) is installed outside the central portion of the underwater aeration device. have.

Underwater aeration device configured as described above, since the entire underwater air generator is installed and operated in the water, there was an effect that can block the severe noise pollution that occurred before, the driving device (A) of the underwater air generator Since the cooling is caused by water temperature by itself, it is possible to obtain the effect of extending the service life. However, since there are many devices in which one drive unit A needs to be driven by a complicated configuration, the drive unit A of high power to exert a predetermined effect. In addition, since the length of the air supply pipe (E) connecting between the air supply device (F) and the air diffuser (C) is maintained at a constant length, the flow resistance of the air increases, so to overcome this problem, The apparatus F is also needed.

Therefore, the conventional underwater width apparatus is complicated in its configuration, and a high power motor and a blower have to be employed to maintain the function, and the price becomes expensive, and there is a problem that the noise of the high power device itself is continuously generated.

The present invention has been made in order to solve the above-mentioned conventional problems, the technical problem to be achieved by the present invention is to simplify the conventional design, to integrate the blower and the aerator and direct the intake of the air sucked from the blower directly into the impeller The connection tube is shortened to reduce the flow resistance of the air discharged from the blower, and the low pressure part is formed at the tip of the intake port to make the intake easier, thereby reducing the output load of the blower and the motor, so that a low output blower and motor can be applied. It is to suppress the noise of the device itself as much as possible.

In order to achieve the above object, the present invention, the upper side is formed with a discharge port and the one side of the interrupted air formed intake port for intake air, an impeller installed inside the housing, and is installed on the upper An aerator comprising a motor for transmitting a rotational force to the impeller, and connected to the other motor shaft of the motor to which the impeller is connected to receive the rotational force from the motor, the air inlet and the air exhaust outlet in both sides (respectively) The formed blower, an exhaust port formed on the side of the blower, a connecting pipe connecting the intake port of the housing, and an inlet port directed upward to the inlet formed on the other side of the exhaust port.

1 is a view showing a configuration of a conventional design.

Figure 2 is a cross-sectional view showing the configuration of the present invention.

Figure 3a is a longitudinal sectional view showing the configuration of the brower of the present invention.

Figure 3b is a cross-sectional view showing the configuration of the present invention the brower.

4 is a view showing a state of use of the present invention.

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

10: aerator 11: impeller

12 housing 13 outlet

14 motor shaft 15 intake port

16: support 20: brower

21 casing 22 inlet

23: exhaust port 24: rotor

25 intake pipe 26 connector

M: Motor 100: Aeration tank

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

Figure 2 is a cross-sectional view showing the configuration of the present invention, Figures 3a and 3b is a cross-sectional view showing the configuration of the brower used in the present invention, Figure 4 is a view showing a state of use of the present invention.

As shown in the drawings, the present invention has a housing 12 in which an impeller 11 is installed inside and an outlet 13 is formed on both sides of the upper side, and an air inlet 15 is formed on one side of the suspension. An aerator 10 having a motor installed at an upper portion thereof is provided, and one side of the motor shaft 14 of the motor M is connected to an impeller 11 installed inside the housing 12, and the impeller 11 is disposed in the housing 12. The other motor shaft 14 of the coupled motor (M) is provided with a blower 20 for introducing external air.

Both sides of the blower 20 are provided with an inlet 22 through which air is introduced and an exhaust port 23 through which the air is exhausted, and an exhaust port 23 of the blower 20 and an inlet 15 of the aerator 10. ) Is connected between the ⊂-shaped connecting pipe 26, the inlet 22 of the blower 20, the air intake pipe 22 through which the air is sucked up to the water surface.

In addition, the present invention is configured by combining a plurality of supports 16 to the bottom of the discharge port 13 formed in the lower side of the housing 12.

Meanwhile, as shown in FIGS. 3A and 3B, the blower 20 of the above configuration is rotated by the rotational force of the motor M while the two bottle-shaped rotors 24 are in contact with each other inside the casing 21. By adopting Rotary Blower, it is possible to discharge a large amount of air even with small power by improving the pressure of gas.

Referring to the working relationship of the present invention is configured as described above are as follows.

First, after fixing the support 16 of the present invention to the bottom of the aeration tank 100, by operating the motor (M) of the aerator 10, the impeller 11 and the blower (11) respectively connected to the motor shaft (14) 20) generate rotational force.

The brower 20 rotated by the motor M as described above flows outside air through the intake pipe 25, and the air introduced into the brower 20 is again connected to the connection pipe 26. It is sent through the housing 12 of the aerator 10 through.

Air introduced into the housing 12 of the aerator 10 in the blower 20 as described above is discharged to the outlet 13 formed in the upper portion of the housing 12 by the impeller 11 of the aerator 10. The water is discharged out of the housing 12 together with the water.

As one motor M rotates, the rotor 24 of the brower 20 connected to both motor shafts 14 of the motor M and the impeller 11 of the aerator 10 rotate together, thereby introducing air. And discharge is made smoothly at the same time it is possible to purify the waste water in the aeration tank (100).

The present invention operating as described above is used to install a plurality in the bottom of the aeration tank 100 as shown in FIG.

The present invention used as described above can be discharged into the water at the same time as inhaling the outside air with a single motor (M), generating noise such as aerator 10, the blower 20 and the motor (M) Since all the components are installed so that they are located in the water, the noise does not leak to the outside by the wastewater and wastewater, so it can exert an excellent noise prevention effect.

In addition, conventionally, since the air is supplied to all the aerators 10 from one blower 50 manufactured in a large capacity, when an abnormality occurs in the blower 50, air intake in all the intake pipes 25 is not made. Before repairing the blower 50 in which the abnormality occurred, there was a wastewater that could not purify the wastewater, but in the present invention, even if one of the plurality of the inventions has an abnormality, the rest is operated, so that the wastewater can be continuously purified. It is.

In addition, since the intake pipes 25 of the present invention are independent of each other, pipes are not complicatedly connected unlike the conventional art, and thus, the present invention can be very easily installed even when the present invention is relocated or installed in the aeration tank 100.

As described above, the present invention simplifies and optimizes the conventional design, integrating the blower and the aerator, and directly connecting the intake port of the air sucked from the blower with the impeller to shorten the connecting pipe to flow the air discharged from the blower. It is possible to reduce the resistance and to form a low pressure part at the tip of the intake port to make the intake more easily and to reduce the output load of the blower and the motor, so that the low output blower and the motor can be applied to suppress the constant noise of the device itself. In addition, the simplified configuration and the adoption of low-power motors and blowers can significantly reduce the price of the device.

Claims (1)

A discharge port 13 is formed at an upper side, and a housing 12 having an inlet 15 through which air is inhaled, and an impeller 11 installed inside the housing 12, and the housing ( 12, an aerator 10 composed of a motor M for transmitting rotational force to the impeller 11, The impeller 11 is connected to the other motor shaft 14 of the motor (M) to which the impeller 11 is connected to receive the rotational force from the motor (M) and the air inlet port 22 through which air is introduced and the air outlet (the air outlet) ( 23 and the blower 20 each formed, An upper portion of the exhaust port 23 formed on the side of the blower 20, a connecting pipe 26 connecting the inlet port 15 of the housing 12, and an inlet port 22 formed on the other side of the exhaust port 23. Underwater air generators, characterized in that consisting of the intake pipe (25) addressed to the.