KR200323494Y1 - Dual membrane diffuser - Google Patents

Abstract

The present invention, when the air is supplied through the air supply pipe to activate the sludge in the industrial wastewater treatment plant and sewage treatment plant, the air is abandoned through the dual membrane installed in the air supply pipe so that even if the air supply pipe is installed in the aeration tank with the same length, In addition to abandoning more air in the wastewater and sewage, it also relates to a dual membrane diffuser that forms a thick central portion of the membrane so that the fine bubbles in each membrane can be totally uniformly aerated. The air supply pipe is installed in the aeration tank of the treatment plant and the sewage treatment plant, and the air supply pipe is provided with a number of diffusers, and the dual saddles are fixed to the air supply pipes formed in the air supply pipes in the aeration tank and formed in the dual saddle. 2 numbers A support member which is provided inside the thread part and discharges air to the center through hole, a membrane having a myriad of aeration holes formed to cover the upper surface of the support member while the rim is seated on the step of the support member, and a female screw on the upper side of the membrane. It is designed to achieve by forming a dual membrane diffuser device by a fastening ring for pressing the upper portion of the membrane by fastening the portion to the male screw portion of the dual saddle.

Description

Dual membrane diffuser

The present invention relates to a dual membrane diffuser device that is very widely used in high-load industrial wastewater treatment plant and sewage treatment plant.

In particular, the present invention relates to a dual membrane diffuser device for supplying a predetermined amount of air to an aeration tank of an industrial wastewater treatment plant and a sewage treatment plant by forming a fine bubble state with air supplied from a blower for activating sludge.

In general, the diffuser device widely used in a high load industrial wastewater treatment plant or sewage treatment plant is installed with an air supply pipe to one side of an aeration tank containing waste water or sewage, and is connected to each aeration tank connected to each aeration tank. To provide oxygen to wastewater or sewage.

In the conventional membrane diffuser, a single membrane diffuser is installed along an air supply pipe installed in an aeration tank, so that the air abandoned in the diffuser can be supplied to wastewater or sewage.

In other words, the single membrane diffuser has a large number of connecting parts such as an diffuser and a support stand, and has a low stability due to a small angle with an diffuser contact portion for supplying air to the diffuser.

In addition, the conventional single membrane diffuser has to install a large amount of air through a single membrane diffuser by installing an air supply pipe and a plurality of supply pipe supports to increase the supply of air, the installation cost is high, the installation area is also a lot There was a problem.

In particular, the conventional single membrane diffuser as described above is to configure the air supply pipe with a PVC pipe, and attaching a single membrane with a PVC adhesive to the PVC air supply pipe, not only the workability is significantly reduced, but the single membrane air supply pipe Problems that fall off easily occurred.

Therefore, the purpose of the present invention is to supply air through the air supply pipe to the blower for activation of the sludge in the industrial wastewater treatment plant and sewage treatment plant of high load, so that the air is abandoned through the dual membrane installed in the air supply pipe, Dual membrane diffusers that, even when installed to the same length, not only give up more air into the wastewater and sewage in the aeration tank, but also form a thicker central portion of the membrane to ensure that the fine bubbles in each membrane are evenly given up as a whole. In providing a device.

1 is a plan view of the aeration tank installed with the dual membrane of the present invention

Figure 2 is an illustration of the side of the abandoned tank in which the dual membrane of the present invention is installed

Figure 3 is an exploded perspective view of the main part excerpt of the present invention

4 is a longitudinal sectional view of a state before abandonment is made in the dual membrane of the present invention;

Figure 5 is a longitudinal cross-sectional view of the state after abandonment is made in the dual membrane of the present invention

Explanation of symbols on the main parts of the drawings

1: Aeration tank 2: Air supply pipe

10: dual membrane 11: dual saddle

12, 12 ': Male thread 13, 13': Rivet

14, 14 ': air hole 16, 16': support member

17: step 18: through hole

20: membrane 21, 21 ': aeration hole

22, 22 ': Center 23: Border

24, 24 ': Fastening ring 25: Female thread

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

The air supply pipe 2 is installed in the aeration tank 1 of the industrial wastewater treatment plant and the sewage treatment plant, and the air supply pipe 2 is provided with a myriad of diffusers. Dual saddles 11 fixed by the rivets 13 and 13 'having air holes 14 and 14' formed therein, and two male thread portions 12 and 12 'formed in the dual saddles 11. The support member 16 and 16 'is provided to discharge air to the center through hole 18, and the support member 16 is seated on the step 17 of the support member 16 and 16'. Membrane 20, 20 'formed with countless aeration holes 21, 21' covering the upper surface of (16), 16 ', and a female threaded portion on the membrane 20, 20'. The dual membrane 10 is fastened to the external threaded portion 12 and 12 ′ of the dual saddle 11 by a fastening ring 24 that presses the upper edge 23 of the membrane 20 and 20 ′. Construct an air diffuser.

In this case, the membrane 20, 20 ′ forms a thick central portion 22, 22 ′ so as to cover the through hole 18 of the support member 16 so that the membrane 20, 20 ′ is disposed in the aeration hole of the membrane 20, 20 ′. Allow air to be evenly distributed throughout the entirety of 21 and 21 '.

According to the present invention configured as described above, when air is supplied along the air supply pipe 2 from the blower, the air hole of the rivets 13 and 13 ′ provided to connect the myriad dual saddles 11 to the air supply pipe 2 ( 14) (14 ') gives up the wastewater or sewage from the diffuser.

That is, the air supplied into the aeration tank 1 along the air supply pipe 2 is riveted to the air supply pipe 2 inside the aeration tank 1 by a number of dual saddles 11 installed at equal intervals. Inflow through the air holes (14, 14 ') of.

Air introduced into the dual saddle 11 as described above is to be discharged from the dual saddle 11 through the through hole 18 formed in the center of the support member 16, 16 ', and the through hole 18 Since the air to be discharged through acts on the central portions 22 and 22 'thickly formed in the membranes 20 and 20', the membranes 20 and 20 'gradually formed thinner toward the rim 23 are formed by the air pressure. In addition to being heard, the air is discharged into wastewater or sewage through a myriad of abandoned holes 21 and 21 'formed in the membranes 20 and 20'.

In this case, the membrane 20, 20 ′ of the present invention thickly forms the center portion 22, 22 ′ and the edge 23, and forms a thin portion between the center portion 22, 22 ′ and the edge 23. Air is discharged through the through holes 18 of the supporting members 16 and 16 ', and the center portions 22 and 22' are pressed when the center portions 22 and 22 'of the membranes 20 and 20' are pressed. Due to the pressure received, the periphery formed thinner than the center portion increases, so that the entire membrane 20, 20 ′ is uniformly heard, thereby allowing air to flow through a myriad of finely formed abandoned holes 21, 21 ′. Abandoned to wastewater or sewage.

As described above, when the membranes 20 and 20 'are lifted by the air pressure, the edges 23 caught by the step 17 of the support members 16 and 16' are pressed by the fastening ring 24. Membrane 20, 20 'is to prevent the departure from the dual saddle (11).

On the other hand, the present invention is to supply the air through the air supply pipe 2 as described above, but after the required amount of air is cut off the supply of air, even if the supply of air in this way, the aeration hole 21 ( 21 ') and the through hole 18 can be prevented from being blocked by foreign matter in the wastewater and sewage.

That is, when the air supply is cut off, the air discharged through the through hole 18 pushes up the central portions 22 and 22 'of the membranes 20 and 20', and at the same time, the wastewater or sewage The central portions 22 and 22 'of the membranes 20 and 20' which are under water pressure block the through holes 18 of the support members 16 and 16 'by water pressure, thereby causing waste water or sewage to be discharged. The flowable space is blocked so that the backflow holes 21 and 21 'and the through holes 18 cannot be flowed back.

In particular, the present invention as described above by turning the fastening ring 24, 24 'holding the edge 23 of the membrane (20, 20') to the female thread portion 25 of the male thread portion of the dual saddle (11) ( 12) It is very easy to maintain the membrane (20, 20 ') because it is easy to replace the membrane (20, 20') when released from (12 ').

As described above, the present invention, when the air is supplied through the air supply pipe to the blower for the activation of the sludge in the industrial wastewater treatment plant and sewage treatment plant, such that the air is abandoned through the dual membrane installed in the air supply pipe, the air supply pipe is the same length Even if it is installed as a large amount of air in the waste water and sewage of the aeration tank, as well as thickening the central portion of the membrane is provided with the effect of uniformly giving up the fine bubbles in each membrane as a whole.

Claims (1)

In the installation of the air supply pipe (2) in the aeration tank (1), such as industrial wastewater treatment plant and sewage treatment plant, and the air supply pipe (2) to install a myriad of diffusers, Dual saddle 11 to be fixed to the air supply pipe (2) in the aeration tank (1) with rivets (13) (13 ') formed with air holes (14, 14'), Support members 16 and 16 ′ provided inside the two male threads 12 and 12 ′ formed in the dual saddle 11 to discharge air to the central through hole 18; A myriad of abandoned holes 21 and 21 'are provided to cover the upper surface of the support members 16 and 16' while the edge 23 is seated on the step 17 of the support members 16 and 16 '. Formed membranes 20 and 20 ', The female screw portion 25 is fastened to the male screw portions 12 and 12 'of the dual saddle 11 at the upper side of the membranes 20 and 20' so that the edge 23 of the membranes 20 and 20 'is fixed. Dual membrane diffuser device, characterized in that consisting of a fastening ring 24 for pressing the upper side.