KR200270103Y1 - Cyclone Air Supplier - Google Patents

Abstract

The present invention relates to a cyclone diffuser device and an inlet port is formed so that the air supplied from the outside into the chamber; A chamber is formed to accommodate the introduced air while the air introduced through the inlet rotates along the wall surface, and is formed in a curved shape so that the discharge pressure of the air is increased on the outer periphery of the chamber, thereby discharging the air. A body; The cover is fastened to the body to prevent the air contained in the chamber from leaking out, so that the air bubbles are discharged through the discharge holes, so that the air bubbles can be supplied regardless of the size of the air bubbles, and the aeration tank irrespective of the amount of air discharged through the discharge holes. By providing sufficient inside, the dissolved oxygen amount of oxygen supplied can be supplied sufficiently, and air bubbles can also be supplied to a position far from the installation position of the air diffuser by the rotational force of the chamber and the centrifugal force of the discharge port.

Description

Cyclone air diffuser {Cyclone Air Supplier}

The present invention relates to a cyclone diffuser.

In particular, effluent and waste water contained in aeration tanks of filthy water or wastewater are supplied with aeration due to bubble generation, and oxygen is supplied to the microorganisms inherent in the effluent and wastewater, and the biological effects of microorganisms propagated by oxygen supply are used for A cyclone diffuser for decomposing and purifying.

In general, the air dispersing device strongly sprays the air pushed through the pipe from the outside by fine holes or through-holes to generate bubbles in the water, thereby promoting digestion by aerobic microorganisms contained in sewage or wastewater, and oxidizing action. By removing carbon dioxide, methane gas, etc. contained in the water to purify the water.

As shown in FIG. 1, a conventional diffuser includes a spout body 1, a stator 2, and a pipe 3 connected to a compressed air generator, and gas that enters the spout body 1 is a microhole in the pipe 3. As it passes through, it is formed into small bubbles and supplied into the water.

Pipe (3) is a device that is made so that the micro-holes are created in advance when the pipe is made using a ceramic or polyethylene, and passes through the micro-pores to reduce the size of the gas bubble has a limit in reducing the size of the gas bubble, In addition, there is an inconvenience of frequent cleaning due to clogging of micropores due to the propagation of aquatic plants between micropores or through holes, and there is a disadvantage that the amount of available aeration is not enough to provide sufficient air, evenly distributed in the aeration tank due to the weak injection pressure. There was a problem such that the air is partially supplied by not.

The present invention devised in order to solve the above problems is to discharge the air introduced into the chamber to the discharge port formed in a curved shape so that the discharged air pressure is strongly sprayed to be evenly distributed in the aeration tank, the air introduced into the chamber The object of the present invention is to provide a cyclone diffuser device capable of supplying sufficient air to the aeration tank by being discharged in a strong pressure state while being rotated within.

1 is a perspective view showing a conventional diffuser,

2 is an exploded perspective view of the cyclone diffuser of the present invention,

3 is a cross-sectional view of the cyclone diffuser of the present invention,

4 is a state diagram of the cyclone diffuser of the present invention.

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

10: diffuser 11: inlet

11a: fastening portion 12: body

13: chamber 14: discharge port

15: Fastener 21: Cover

22: pressure plate 25: fastening hole

The present invention and the inlet is formed with a conduit so that the air to be supplied from the outside to the chamber to achieve the above object; A chamber is formed to accommodate the introduced air while the air introduced through the inlet rotates along the wall surface, and is formed in a curved shape so that the discharge pressure of the air is increased on the outer periphery of the chamber, thereby discharging the air. A body; The cover is fastened to the body to prevent the air contained in the chamber from leaking out.

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

2 is an exploded perspective view of the cyclone diffuser of the present invention, Figure 3 is a cross-sectional view of the cyclone diffuser of the present invention, Figure 4 is a state diagram of the cyclone diffuser of the present invention.

The cyclone diffuser of the present invention is connected to a compressor (not shown in the drawing) for supplying air to the diffuser 10 from the outside to form a pipeline in which the air supplied from the compressor flows into the diffuser 10. The inlet 11 is integrally coupled to the body 12.

The inlet 11 is a fastening portion 11a is formed so as to be connected to the pipe or pipe by fastening, and is connected to one side of the circular chamber 13 formed in the body 12 in a state of inflowing air introduced Force is caused to rotate in the chamber 13.

The body 12 forms a predetermined space portion inside the cylinder to form a chamber 13 through which air introduced through the inlet 11 rotates, and an outer circumference of the body 12 and an inner circumferential surface of the chamber 13. The upper surface of the plurality of discharge holes 14 having a predetermined curved shape is formed, and a plurality of fastening holes 15 are formed to be fastened to the cover 21.

The discharge port 14 has a curved shape in which the starting point of the discharge port 13 and the end point of the discharge port 14 starting from the inner circumferential surface of the chamber 13 and the end point of the discharge port 14 are not linear to each other so that the air introduced from the chamber 13 is strongly discharged by the centrifugal force. To have a centrifugal force when discharging air.

The cover 21 is fastened to the fastening hole 15 of the body 12 so that air introduced into the chamber 13 is discharged through the discharge port 14, and the bottom surface of the cover 21 is located in the chamber 13. In order to increase the discharge pressure of the air to rotate in the pressure plate 22 is installed on the bottom surface of the cover 21, the cover 21 is a plurality of fastening to be fastened with the fastening hole 15 formed in the body 12 Form a ball 25.

The present invention air dispersing device is provided with a plurality of pipes of the compressor for supplying air in the aeration tank to purify the sewage, waste water and the like to supply air in the aeration tank.

The air diffuser 10 connected to the pipe is introduced into the chamber 13 through the air inlet 11, the air introduced into the chamber 13 is raised while being rotated by the air introduced in the chamber 13 It is blown into the aeration tank through the discharge port 14 to form air bubbles.

The air bubbles are distributed evenly in the aeration tank while the air bubbles are strongly discharged due to the rotational force in the chamber 13 and the centrifugal force of the discharge port 14 having a curved shape, thereby sufficiently supplying the amount of dissolved oxygen required for the purification of sewage and waste water.

Cyclone diffuser device having the above configuration can be supplied irrespective of the size of the air bubbles because the air bubbles are discharged through the discharge port, dissolved oxygen supplied by providing enough in the aeration tank irrespective of the amount of air discharged through the discharge port The amount of oxygen can be supplied sufficiently.

In addition, the air bubbles can supply the air bubbles to the position away from the installation position of the air diffuser by the rotational force of the chamber and the centrifugal force of the discharge port.

Claims (1)

An inlet through which a conduit is formed so that air supplied from the outside is introduced into the chamber; A chamber is formed to accommodate the introduced air while the air introduced through the inlet rotates along the wall surface, and is formed in a curved shape so that the discharge pressure of the air is increased on the outer periphery of the chamber, thereby discharging the air. A body; And a cover which is fastened to the body to prevent the air contained in the chamber from leaking out.