KR100295433B1 - Diffuser - Google Patents

Abstract

The present invention is mounted in the vent pipe formed with a plurality of holes in the diffuser device for supplying a certain amount of gas to the reaction tank,

A main body having a through hole formed at a center thereof so as to communicate with the hole;

A cap hole communicating with the through hole is formed and is coupled to one side of the main body; And a through hole opening and closing means installed between the main body and the cap to selectively open and close the through hole. When the acid generator of the present invention is used in a wastewater treatment process such as aerobic filter method, not only can supply the air of uniform pressure and flow rate into the media of the reactor, but also the installation and replacement of the acid generator is simple, which makes the reactor safe. And efficiency can be maximized.

Description

Diffuser

The present invention relates to an air dispersing apparatus, and more particularly, to an air dispersing apparatus installed in a vent pipe of a reaction tank requiring air supply to diffuse air of a constant flow rate into a reactor.

An diffuser is a device commonly used in reactors requiring a constant flow of air, for example fermenters, wastewater treatment reactors using aerobic microorganisms or other chemical processes. Hereinafter, a process for treating wastewater using aerobic microorganisms will be described in detail. There are two ways to treat wastewater using aerobic microorganisms. The first method is a floating growth method using floating growth microorganisms, in which wastewater and microorganisms are mixed in a reaction tank and air is supplied from the bottom of the reaction tank to facilitate contact between the wastewater and microorganisms. The representative method of the floating growth method is widely used as the activated sludge method, but it is insufficient to obtain excellent treated water quality due to the limitation of the treatment load, and the sedimentation tank separating the microorganism and the treated water must be provided. The disadvantage is that the area is large.

The second method is to fill the media in the reactor and attach microorganisms to it, and aerobic filter method is typical. This method, unlike the floating growth method, can grow a large amount of microorganisms and operate at a high load, so that the water quality of the treated water is excellent, and due to the filtration function of the filter medium, a separate sedimentation tank is not required. have. Therefore, it is expected that the use of aerobic filter method will be gradually expanded from the viewpoint of strengthening legal regulations on wastewater treatment standards, reduction of land area and automation of treatment facilities.

On the other hand, the acid devices used in the aerobic wastewater treatment method include porous, microporous, non-porous and other acid devices. Porous diffuser can be classified into plate, dome, disc, tubular, etc. according to its shape. As the non-porous diffuser, a fixed orifice or a valved orifice is used, and other diffusers include a jet aeration device, aspiration aeration device, and U-shaped pipe. In general, porous air diffusers having high air transfer efficiency are mainly used, but most of them are suitable for floating growth methods such as activated sludge method.

In particular, when the medium is filled in the reactor with a certain height, such as aerobic filter method, the air transfer efficiency is very important when contacting the microorganisms attached thereto and the wastewater, and this problem determines the practical application of the technology. In order to improve the air transfer efficiency, air must be supplied at a constant pressure and the same flow rate into the media filled with a constant height in the reactor, and the air dispersing devices currently in use are clogged due to backflow of waste water when the process is suspended. It is difficult to supply air at equal pressure and flow rate. If the air is not supplied evenly into the media, it becomes partially anaerobic, causing the overgrown microorganisms to rot, causing clogging or channeling where air is supplied to one side only. have.

The technical problem to be achieved by the present invention is to solve the problems described above to provide an air dispersing device that can supply gas at an equal pressure and flow rate to the reaction tank that requires the supply of gas.

1 is a perspective view showing an air diffuser according to the present invention,

2 is a perspective view showing the main body and the flange of the diffuser according to the present invention separately;

Figure 3 is a perspective view showing the diffuser of the present invention mounted to the vent pipe,

4 is a cross-sectional view taken along line IV-IV of FIG. 3,

5 is a perspective view of the membrane and orifice of FIG. 4;

FIG. 6 is a cross-sectional view partially showing an operation of the membrane and the orifice when air is supplied to the vent pipe in FIG. 3.

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

2 ... Ventilation 10 ... Main Unit

14 ... projection 16 ... positioning tube

20 ... Cap 24 ... Caphole

30 ... Opening and closing means 32 ... Orifice

34 ... Membrane 36 ... Packing member

40 ... Flange 44 ... Insertion groove

50 ... O-ring

The present invention is a diffuser device for supplying a certain amount of gas to the reaction tank is mounted to the vent pipe formed with a plurality of holes to achieve the above object, the main body is installed so that the through-hole formed in the center of the communication; A cap hole communicating with the through hole is formed and is coupled to one side of the main body; It provides a diffuser device characterized in that it is provided; through hole opening and closing means provided between the main body and the cap to selectively open and close the through hole.

The opening and closing of the through hole of the main body can be selectively opened and closed, especially in the case of treating wastewater containing a large amount of floating material, when the air vent is supplied to the vent pipe and the air vent is open to the vent pipe. It means that the through hole of the diffuser is blocked. By doing so, it is possible to prevent the micropores of the air diffuser from clogging due to the suspended matter in the sewage, so that the air supply can still be smoothly restarted.

That is, the diffuser device of the present invention, the through-hole opening means, an orifice is formed in communication with the through-hole, is provided on one side of the main body; And a membrane interposed between the cap and the orifice such that at least one nozzle hole is formed at a position that does not correspond to the position of the central hole, and the central portion in contact with the central hole is spaced at a predetermined interval so that the through hole and the nozzle hole communicate with each other. It is characterized by including.

One or more nozzle holes formed in the membrane serve to generate air bubbles of minute size. The position of the nozzle hole is characterized in that it does not communicate with the central hole of the orifice when the membrane is mounted on the diffuser. That is, when the air is supplied through the vent pipe, the membrane is spaced apart from the orifice by a predetermined distance, so that the air is smoothly maintained, but when the air is stopped, the membrane is in close contact with the orifice and the central hole of the nozzle hole and the orifice of the membrane. Since these are blocked by each other, the through hole of the diffuser is also blocked.

The orifice is preferably made of a rigid material such as stainless steel, and the membrane is preferably made of a flexible material such as EPDM rubber (ethylene-propylene-diene terpolymer).

In addition, the present invention is characterized in that the membrane is provided with a dumbbell-shaped protrusion on its cross section, the orifice is characterized in that the installation groove that can be installed in contact with the protrusion is formed on the outer edge portion. The shape of the membrane and orifice is designed to be advantageous for the selective opening and closing of the through hole, and can improve the adhesion and separation force between the two, as well as the opening and closing means, that is, the membrane and the orifice between the body and the cap It can improve the tightening force when installed in the.

A packing member may be interposed between the orifice and the main body to improve the fastening force between the main body and the cap of the through hole opening and closing means.

In another aspect, the present invention provides a diffuser device further comprises a flange formed with a protrusion protruding from the main body in contact with the vent pipe, and a flange formed on the outer circumferential surface of the vent pipe, the insertion groove into which the protrusion can be inserted.

That is, the diffuser device of the present invention is characterized in that it is fastened without the need for a separate screw when mounting the main body to the vent pipe. The protrusion protruding the main body is in close contact with the vent pipe, and the insertion groove formed flange is in close contact with the lower side of the pipe can be easily inserted into the insertion groove by moving left and right. Therefore, when it is necessary to replace the diffuser device for other reasons, such as breakage of the diffuser during operation, it is easy to replace and easy to install and disassemble separately.

The main body may further include a positioning tube which extends a predetermined length from the through hole and is inserted into the hole of the vent pipe. The positioning tube is inserted into the hole of the vent pipe and serves to fix the diffuser so as not to be released from its position. In addition, the diffuser of the present invention further improves the adhesion between the vent pipe and the diffuser to prevent air leakage and further improve the O-ring interposed between the positioning tube and the vent pipe to improve the fastening force of the body and the flange. It may include.

Stainless steel may be used as the material of the main body, the cap, and the flange, but it is also preferable to use an engineering plastic having excellent heat resistance, solvent resistance, and mechanical properties such as polyacetal, polyamide, or polycarbonate.

Hereinafter, with reference to the drawings will be described in detail the air diffuser according to the present invention, in particular the air diffuser used to supply air in the wastewater treatment apparatus using aerobic microorganisms will be described as an example. However, the acid diffuser of the present invention can be used to supply other gases besides air as long as there is no problem of corrosion of materials or other side reactions, and of course, the present invention is not limited to the following examples.

1 is a perspective view showing a state in which the main body 10 and the flange 40 are fastened when the diffuser of the present invention is mounted to the vent pipe. The protrusions 14 protruding from the main body 10 are inserted into the insertion grooves 44 of the flange 40, and the main body 10 extends a predetermined length from the through hole and is inserted into the holes of the vent pipe. 16) is provided. The cap 20 attached to one side of the main body 10 has a cap hole 24 communicating with the through hole. In addition, an O-ring 50 is inserted around the positioning tube 16 to prevent leakage of air into the gap between the vent pipe and the diffuser, or to increase the fastening force of the main body 10 and the flange 40.

FIG. 2 is a perspective view of the main body 10 and the flange 40 of FIG. 1 before fastening, and FIG. 3 is a perspective view showing a state in which the diffuser device of the present invention is mounted in a vent pipe 2 having a plurality of holes. In order to more clearly understand the features of the present invention, a cross-sectional view of the diffuser 100 along line IV-IV of FIG. 3 is shown in FIG.

In FIG. 4, the diffuser device of the present invention includes: a main body 10 installed in the vent pipe 2 such that a through hole 12a formed at the center thereof communicates with a hole of the vent pipe 2; A cap 20 formed in communication with the through hole 12a and coupled to one side of the main body 10; And a through hole opening and closing means 30 installed between the main body 10 and the cap 20 to selectively open and close the through hole 12a.

In addition, the through-hole opening and closing means 30 has a central hole (32a) is formed in communication with the through-hole 12a, the orifice 32 is installed on one side 12 of the body; And at least one nozzle hole 34a is formed at a position which does not correspond to the position of the central hole 32a, and the center portion contacting the central hole 32a is spaced a predetermined distance G from the through hole 12a. And a membrane 34 interposed between the cap 20 and the orifice 32 so that the nozzle hole 34a can communicate with each other.

4 illustrates a case in which air is not supplied to the vent pipe 2. The orifice 32, which is the through hole opening and closing means 30, and the membrane 34 are closely attached to each other so that the central hole 32a and the membrane of the orifice 32 are in close contact with each other. The nozzle hole 34a of 34 is interrupted | blocked by each other. Moreover, the through hole 12a formed in the main body 10 is also blocked by these. Therefore, in the case of treating wastewater containing a large amount of suspended solids, even if the air supply is temporarily suspended, the wastewater flows back and the suspended solids in the wastewater block the nozzle hole 34a of the membrane 34, resulting in poor air supply upon restarting. There is no concern. The position of the nozzle hole 34a of the membrane 34 formed at a position not corresponding to the central hole 32a of the orifice 32 is as shown in FIG. 5. In FIG. 5, for convenience, only three nozzle holes 34a are formed in the membrane 34, but the size and number of the nozzle holes 34a may be adjusted according to characteristics of a reaction requiring gas supply. When air is supplied to the vent pipe 2, the through hole opening and closing means 30 acts as shown in FIG. That is, since the central portion of the membrane 34 is spaced apart from the orifice 32 by the air pressure, the air passing through the through-hole 12a of the main body 10 is transferred to the central hole 32a of the orifice 32 and Through the nozzle hole 34a of the membrane 34, the cap hole 24 can be exited.

4 and 6, the cross section of the membrane 34 is provided with a dumbbell-shaped protrusion, the orifice 32 is formed in the outer edge portion of the installation groove that can be installed in contact with the protrusion. Such a shape can improve the adhesion between the orifice 32 and the membrane 34 when the air supply is interrupted, and improve the fastening force of the through hole opening and closing means 30 installed between the main body 10 and the cap 20. Can be. 4 and 6 illustrate a case in which the cap 20 is screwed by a screw thread formed on the inner circumferential surface of the cap 20 and a screw thread formed on the outer circumferential surface of the main body 10, and the main body 10 and the cap 20 of FIG. In order to improve the fastening force, the packing member 36 is interposed between the main body 10 and the orifice 32.

As shown in FIG. 4, the diffuser of the present invention protrudes the protrusions 14 to the main body 10 in contact with the vent pipe 10 as a means for mounting the main body 10 to the vent pipe 2. An insertion groove 44 into which the protrusion 14 may be inserted is formed, and a flange 40 may be further provided on the outer circumferential surface of the vent pipe 2. When the present invention is mounted to the vent pipe 2 by using the flange 40, the present invention has an advantage that the present invention can be easily replaced even during operation because the installation and detachment of the diffuser device 100 can be easily pushed from side to side.

In addition, the diffuser of the present invention may be provided with a positioning tube 16 which extends a predetermined length from the through hole 12a in the main body 10 and is inserted into the hole of the vent pipe 2. In this case, the hole formed in the vent pipe 2 serves not only to supply air to the diffuser, but also to function as a positioning hole corresponding to the positioning tube 16 of the main body 10. The diffuser seated by the positioning tube 16 does not have to be displaced from its position even to some degree of external shock. In order to improve the fastening force of the main body 10 and the flange 40, as shown in FIG. 4, an O-ring may be further interposed between the positioning tube 16 and the vent pipe 2.

When the air diffuser of the present invention is installed in a ventilation pipe installed in a reactor requiring gas supply, not only can the gas of a certain flow rate be uniformly supplied, but also the reactant flows back into the air diffuser even if the gas supply is suspended. The use of the air dispersing apparatus of the present invention in a wastewater treatment process using a filter medium, such as an aerobic filter method, can not only supply air to the filter bed evenly but also prevent backflow of the waste water even if the supply of air is stopped. This prevents the membrane from clogging due to suspended solids in the wastewater. In addition, when mounting the diffuser device of the present invention by a flange formed with an insertion groove there is an advantage that the installation is simple and easy to separate mounting and removal.

Claims (6)

A diffuser device mounted on a vent pipe having a plurality of holes provided therein to supply a predetermined flow rate of gas to a reaction tank, wherein a through hole formed at a center thereof is installed to communicate with the hole, and has a shape in contact with an outer circumferential surface of the vent pipe. A main body having protruding protrusions; A cap hole communicating with the through hole is formed and is coupled to one side of the main body; And a through hole opening and closing means installed between the main body and the cap to selectively open and close the through hole. And a flange having a shape in which the main body is in contact with the outer circumferential surface of the vent pipe, which is not in contact with the main body, and having an insertion groove into which the protrusion can be inserted. According to claim 1, The through-hole opening means, Orifice is formed in the central hole in communication with the through-hole, is provided on one side of the main body; And a membrane interposed between the cap and the orifice such that at least one nozzle hole is formed at a position that does not correspond to the position of the central hole, and wherein the central portion contacting the central hole is spaced a predetermined distance so that the through hole and the nozzle hole communicate with each other. Disperser characterized in that the provided. The apparatus of claim 2, wherein the membrane is provided with a dumbbell-shaped protrusion on a cross section thereof, and the orifice has an installation groove in which the protrusion is installed in contact with an outer edge thereof. The diffuser device according to claim 2, further comprising a packing member interposed between the orifice and the main body. The diffuser device according to claim 1 or 2, wherein the main body further comprises a positioning tube which extends a predetermined length from the through hole and is inserted into the hole of the vent pipe. The diffuser device according to claim 5, further comprising an O-ring interposed between the positioning tube and the vent pipe.