KR200378540Y1 - An aeration apparatus - Google Patents

Abstract

The present invention is effective air supply to the water, the air stays in the water is extended, the aeration effect is excellent, the configuration is simple and compact new aeration device.

According to the present invention, the air inlet 12 is formed on one side and the opening 10 is formed on the other side, the pump 20 embedded in the housing 10, the opening of the housing 10 It includes a stirring impeller 40 mounted to one end of the rotary shaft 22 of the pump 20 to be located at the side, at least the stirring impeller 40 is installed and used to be submerged in water, and in the housing 10 Is provided with an aeration apparatus characterized in that the air passage (a) is formed so that the air flowing through the air inlet 12 is discharged to the opening (14).

Description

       An aeration apparatus

The present invention relates to an aeration device, and more particularly, to effectively supply air into the water, and to extend the time the air stays in water, the aeration effect is excellent, the configuration is simple and compact new aeration device will be.

In general, wastewater is aerated in the treatment of organic wastewater using microorganisms. Aeration of the waste water increases the amount of dissolved oxygen in the waste water, which activates aerobic microorganisms, promotes the removal of suspended substances and harmful gases, and increases wastewater treatment efficiency. In addition, fish farms aeration of water in the tank, even in this case, the amount of dissolved oxygen is increased to prevent contamination of the water, and also promote the growth of live fish.

1 shows a water tank or a waste water treatment tank of a fish farm in which a conventional aeration system is provided, an diffuser 2 is installed at the bottom of the tank 4, and the diffuser 2 is an external air pump ( In connection with 3) is configured to supply the outside air into the water tank (4) through the diffuser (2). However, in this aeration facility, the air supplied through the diffuser 2 rises vertically and is immediately discharged to the outside, so the contact time between water and air is considerably shorter, so the aeration effect is insignificant. In addition, since the air supply is made only to the part where the diffuser 2 is installed, the diffuser 2 must be installed over the entire area of the water tank 4, and the noise generated during the operation of the pump and the blower fan is protected. In order to prevent the transmission to the outside, a structure must be installed, and a pump and a blower fan must be installed therein, thereby increasing the equipment cost.

In some cases, an impeller is mounted on the surface of the tank to aeration. However, in this case, the aeration occurs at the water surface, so the aeration effect cannot be expanded to the bottom of the tank, and air is mixed with air and water by the surface waves generated by the impeller instead of actively supplying air into the water. In this case, the aeration effect is somewhat insignificant. In addition, in this case, the tank's live fish are frequently killed by the impeller.

The present invention is to solve the above problems, the object of the present invention is that the air is supplied to the water as the vortex occurs in the water or additionally forced air is supplied to the air evenly diffused in the water tank or waste water treatment tank, such During the process, the air stays in the water for an extended period of time, increasing the amount of dissolved oxygen in a short time to increase the aeration effect, and the configuration is simple and compact, so it is easy to install and operate. It is to provide a new structure of the aeration device with little noise.

According to the present invention, the air inlet 12 is formed on one side and the opening 10 is formed on the other side, the pump 20 embedded in the housing 10, the opening of the housing 10 It includes a stirring impeller 40 mounted to one end of the rotary shaft 22 of the pump 20 to be located at the side, at least the stirring impeller 40 is installed and used to be submerged in water, and in the housing 10 Is provided with an aeration apparatus characterized in that the air passage (a) is formed so that the air flowing through the air inlet 12 is discharged to the opening (14).

According to another feature of the present invention, the aeration device, characterized in that the suction impeller 30 is mounted on the other end of the rotation shaft 22 of the pump 20 to be located on the air inlet 12 side of the housing 10 Is provided.

According to another feature of the present invention, the aeration device is characterized in that the skirt 18 is formed with a pore 17 is connected to the lower end of the housing (10).

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows. 2 and 3 are a cross-sectional view and a cross-sectional view showing an embodiment of the present invention. The present invention, as shown, the air inlet 12 is formed on the upper side and the opening 10 is formed in the lower side, the pump 20 embedded in the housing 10, and the housing 10 It includes a stirring impeller 40 mounted on the lower end of the rotary shaft 22 of the pump 20 so as to be located on the opening 14 side of the), the housing 10 is an aeration device formed with an air passage (a).

The housing 10 is formed of a cylindrical body having an opening 14 formed at a lower side thereof, and an air inlet 12 is formed at an upper side thereof. The air inlet 12 is connected to the pipe 9 extending to the outside. Preferably, a silencer 7 is mounted on the top of this pipe 9.

In the housing 10, a pump 20 is mounted. The pump 20 is mounted to the housing 10 by flanges 29 formed around the upper and lower ends such that the driving shaft 22 is positioned up and down. The stirring impeller 40 is mounted at the lower end of the drive shaft 22 of the pump 20, that is, at the end of the driving shaft 22.

On the other hand, the pump 20 is mounted to the housing 10 by the flange 29 formed on the upper and lower ends, so as to correspond to the width of the flange 29 between the inner peripheral surface of the housing 10 and the outer peripheral surface of the pump 20 Spaced spaces 27 are formed. In addition, the flange 29 communicates with the spaced space 27 to form an intake hole 25 through which air is sucked and an exhaust hole 26 through which air is discharged. Accordingly, air is introduced into the housing 10 by the space 27 formed between the housing 10 and the pump 20, and the intake holes 25 and the exhaust holes 26 are discharged to the outside. (a) is formed.

The present invention constituted as described above is installed in the water tank 4 of the fish farm so that the whole housing 10 is submerged in water or at least the stirring impeller 40 is submerged in water. If necessary, as shown, it is installed on the bottom surface of the water tank 4 by a support leg 19 provided at the lower end of the housing 10. When the pump 20 is operated, the stirring impeller 40 is operated, and a strong vortex is formed in the water by the stirring impeller 40. At the same time, centrifugal force is generated around the stirring impeller 40 and air is sucked into the water by the centrifugal force. At this time, external air is introduced into the water through the air passage a. In this way, the air flowing into the water is evenly spread in the water tank 4 by the vortex generated in the water by the stirring impeller 40. In addition, in this process, the time the air stays in water is extended, and the amount of dissolved oxygen is increased to increase the aeration effect.

If necessary, as shown in FIG. 4, the suction impeller 30 may be mounted above the air inlet 12. When the suction impeller 30 is mounted, the external air is forced into the housing by the suction impeller 30, so that the air is sucked into the water by the centrifugal force generated by the stirring impeller 40 as described above. The air is forced into the water by the 30 so that the aeration effect is further enhanced. If the depth of the water tank is deep, the effect of air being sucked into the water by the vortex generated by the stirring impeller 40 may be relatively insignificant, so if the depth of the water tank 2 is somewhat deep, the suction impeller 30 is mounted. It is desirable to.

Preferably, as shown in Figure 5, the suction impeller 30 is mounted to the upper end of the rotary shaft 22 of the pump 20. When the suction impeller 30 is mounted on the rotary shaft 22 of the pump 20 as described above, the stirring impeller 40 and the suction impeller 30 are operated by one pump 20 so that the configuration is simple and the volume is further increased. It becomes compact.

In addition, as shown in FIG. 6, a skirt 18 is provided at the lower end of the housing 10 as necessary. The skirt 18 consists of a perforated plate having a perforation 17 to cover the periphery of the stirring impeller 40. When the vortex is formed in the water by the stirring impeller 40, the fry impinge on the stirring impeller 40 by the vortex and may be killed or injured. The circumference of the stirring impeller 40 is covered by the skirt 18, so Death or injuries are prevented. Reference numeral 8 is a power supply cable, the cable 8 is wired into the air inlet 12, there is no fear of electric shock and short circuit, the appearance is also clean.

The present invention has been described as being applied to the fish tank of the fish farm, the present invention can be applied to all fields that require aeration, such as when waste water treatment. In addition, the present invention may be installed on the bottom of the water tank 4 by the support leg 19 provided at the lower end of the housing 10, but is not limited thereto and is installed in various ways such as hanging.

As described above, according to the present invention, the present invention as described above, unlike the conventional aeration device, the air is introduced into the water by the vortex formed in the water is widely spread in the tank, in this process, the air stays in the water is prolonged As a result, the amount of dissolved oxygen increases in a relatively short time, thereby increasing the aeration effect. Therefore, the amount of dissolved oxygen in the water is increased, the treatment efficiency of the waste water is improved during the wastewater treatment, the water of the tank is prevented from decaying in the fish farm, and the growth of live fish is also promoted.

In addition, the aeration device according to the present invention is equipped with a suction impeller 30 and a stirring impeller 40 on the rotary shaft 22 of the pump 20 mounted in the housing 10, the configuration is simple and compact. Therefore, unlike the conventional equipment that required a separate building to install the piping and the motor, it is easy to install, it is easy to operate because you only need to connect the power from the outside during operation.

       1 is a view showing a conventional aeration tank

       2 is a cross-sectional view showing an embodiment of the present invention

       3 is a use state diagram of the embodiment

       4 to 6 is a cross-sectional view showing another embodiment of the present invention

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

 10. Housing 12. Air inlet hole

 14. Opening 20. Pump

 30. Suction impeller 40. Stirring impeller

  a. Air passage

Claims (3)

An air inlet 12 is formed at one side and a housing 10 having an opening 14 formed at the other side, a pump 20 embedded in the housing 10, and the opening 10 of the housing 10. It comprises a stirring impeller 40 is mounted on one end of the rotary shaft 22 of the pump 20 is installed so that at least the stirring impeller 40 is submerged in water, the air inlet 12 in the housing 10 Aeration device characterized in that the air passage (a) is formed so that the air flowing through the outlet is discharged to the opening (14). The aeration device according to claim 1, wherein a suction impeller (30) is mounted at the other end of the rotation shaft (22) of the pump (20) so as to be located at the air inlet (12) side of the housing (10).        The aeration device according to claim 1 or 2, wherein a skirt (18) having pores (17) is connected to a lower end of the housing (10).