KR100461490B1 - membrane aerater for low buoyancy and low vibration type - Google Patents

Abstract

The present invention is an air pipe through which air pressure above atmospheric pressure is circulated; A membrane pipe connected to an air pipe on one side of the air pipe and having a partition wall installed inside the hollow part so that one side communicates with the air pipe and the other side is open to the outside; It relates to a buoyancy and vibration reduction membrane diffuser characterized in that it comprises a membrane coated on the outer periphery of the membrane pipe.

Description

Membrane aerater for low buoyancy and low vibration type

The present invention relates to an acid pipe installed in an aeration tank of a wastewater treatment apparatus used to treat sewage and wastewater, and in particular, to raise dissolved oxygen in an aeration tank to cultivate microorganisms for treating various organic substances contained in sewage or wastewater. The present invention relates to a buoyancy and vibration-reducing membrane diffuser of a wastewater treatment apparatus in which the structure of the diffuser is changed so that the diffuser that supplies oxygen is not damaged by the buoyancy or the flow of wastewater.

In general, the wastewater and sewage discharged from the home to the river are directly discharged into the stream to prevent the contamination of the stream, so that the wastewater and sewage flow into the treatment device to purify the wastewater and sewage, and then discharge into the river. By preventing the river from being contaminated, the wastewater and sewage treatment device is separated into sedimentation tank and aeration tank, and sewage water flows into the sedimentation tank and then precipitates this material and inflows the wastewater into the aeration tank. After cultivating the microorganisms by purifying the mixed solution of microorganisms treating organic substances with various organic substances contained in the wastewater and sewage as a culture material in the aeration tank in the aerobic state in which dissolved oxygen exists. Step by step oxidation, decomposition, coagulation, adsorption and precipitation of organic substances mixed in wastewater and sewage in aerobic state By removing from the process O, to the waste water purification process.

In addition, an acid pipe for supplying oxygen to the bottom of the aeration tank is installed to raise dissolved oxygen in the aeration tank so that microorganisms are cultivated. The polyethylene pipe used to produce the acid pipe is lighter in weight than water, so when buoyant is installed in water, Is generated.

Due to the buoyancy, the diffuser is fixed to the bottom of the aeration tank using a bolt / nut or the like, or a heavy concrete weight is attached to the diffuser in a state where the diffuser is spaced a predetermined distance from the bottom to prevent the diffuser from floating.

In the above structure of the diffuser, the air pipe, which usually has a high pressure air pressure, a membrane pipe connected to one side of the air pipe using an adapter, and the air installed in the outer circumference of the membrane pipe, It consists of a membrane that ejects.

Therefore, the diffuser firmly fixed to the bottom of the aeration tank may be cracked or severely damaged at the connection with the air pipe due to the high pressure pulsating pressure and continuous buoyancy introduced through the air pipe.

When repairing the damaged diffuser installed at the bottom of the aeration tank as described above, all the water (wastewater) filled in the aeration tank must be removed. Since the aeration tank is at least several meters and its width is large, it takes considerable time and effort to drain the water. . In addition, the water stored in the aeration tank is wastewater, so even if water (wastewater) is removed for repair, it cannot be discharged as it is, and another space must be provided and temporarily stored there. Therefore, in most cases, the engine is left without repair until a certain number of diffusers fail. It is natural that the efficiency of the aeration tank is lowered if the failing diffuser is left as described above.

The present invention is to solve the problems as described above, and to change the structure to reduce the buoyancy that the diffuser basically has, and the diffuser can attenuate the vibration even if the vibration is generated by the high pressure pulsating pressure To provide a fluidity to the diffuser so that the diffuser is not easily broken to provide a buoyancy and vibration reduction membrane diffuser.

1 is a schematic diagram of an aeration tank having an diffuser installed according to an embodiment of the present invention.

2 is a schematic diagram of a diffuser in accordance with one embodiment of the present invention.

3A and 3B are cross-sectional perspective views of the diffuser in accordance with one embodiment of the present invention.

Figure 4a is a cross-sectional view according to another embodiment of the present invention, showing a state before the variable membrane pipe is coupled, Figure 4b shows a state in which the variable membrane pipe is coupled.

Figure 5a is a perspective view of a variable membrane pipe according to another embodiment of the present invention, showing a state in which only the partition wall position is formed differently in the same variable membrane pipe, Figure 5b shows a state in which only the fixed membrane position and the length of the variable membrane pipe is changed It is shown.

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

12: aeration tank 14: diffuser

16: air pipe 18: adapter

20: membrane pipe 22: membrane

24: bulkhead 26: vent hole

28: absorber 30: tab

32: variable membrane pipe 34: body

36 connection part 38 thread

40: clamp

The present invention is an air pipe through which the air pressure of atmospheric pressure or more in order to achieve the above object; A membrane pipe connected to an air pipe on one side of the air pipe and having a partition wall installed inside the hollow part so that one side communicates with the air pipe and the other side is open to the outside; It provides a buoyancy and vibration reduction membrane diffuser characterized in that it comprises a membrane coated on the outer circumference of the membrane pipe.

In order to achieve the above object, the present invention provides an air pipe through which air pressure above atmospheric pressure is circulated, and is connected to communicate with the air pipe on one side of the air pipe, and a membrane pipe having tabs formed at both ends thereof; Buoyancy and characterized in that it comprises a plurality of variable membrane pipes of different lengths to be detachably installed in the tab of the membrane pipe in a bolt / nut manner to vary the position and the overall length of the partition wall of the membrane pipe and Provides a vibration reducing membrane diffuser.

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

As shown in FIG. 1, a plurality of diffusers 14 are installed in the aeration tank 12 at regular intervals.

As shown in FIG. 2, the diffuser 14 according to the present invention is provided with a cylindrical air pipe 16 through which air passes above atmospheric pressure, the air pipe 16 having a membrane through an adapter 18. The pipe 20 is installed.

3A and 3B, several vent holes 26 are formed in the membrane pipe 20, and an elastic membrane 22, such as rubber, is coated on the outer circumference of the membrane pipe 20.

As shown in FIG. 3A, the membrane pipe 20 is hollowed up to a predetermined distance from the connection with the air pipe 16 to become an air passage, and the remaining part is blocked by the partition wall 24.

As described above, the air passage of the membrane pipe 20 has a plurality of vent holes 26 penetrating the outside, and the vent holes 26 are formed by the air introduced through the air pipe 16. It is to be discharged to the outside (membrane) through the hole (26).

A large number of micropores (not shown) are formed in the entire outer circumference of the membrane pipe 20, and a flexible membrane 22 such as rubber is coated. Both ends of the membrane 22 are clamped to the outer circumference of the membrane pipe 20 using the clamp 40 so as to be firmly fixed to the membrane pipe 20.

The membrane pipe 20 is connected to the air pipe 16 on the left side of the drawing based on the partition wall 24 to form an air passage, and the right side remains in a hollow shape. The membrane pipe 20 is opened without closing the hollow part. ) Is in the water, allowing water to enter unclosed areas.

And, as shown in Figure 3b, by inserting the absorbent material 28 in the hollow portion of the membrane pipe 20 to prevent the water flowing into the hollow portion to easily escape the membrane pipe 20 to prevent its shaking during the flow do.

Referring to the operation of one embodiment of the membrane diffuser configured as described above are as follows.

Air above the atmospheric pressure introduced through the air pipe 16 is discharged to the outside through the vent hole formed in the membrane pipe 20, and the discharged air exerts air pressure on the membrane 22, which is covered on the outer periphery of the membrane pipe 20 do. As the membrane 22 expands due to the air pressure, micropores formed in the membrane 22 also expand, and air is blown into the aeration tank 12 through the expanded aperture.

Since the membrane pipe 20 is connected to the outside (aeration tank) on the right side of the partition wall 24, water is filled when the diffuser 14 is in the water. In the past, the air is filled in the portion filled with water, so the buoyancy is increased by air pressure, but when the water is filled, the buoyancy decreases by that amount. In addition, the vibration is generated in the membrane pipe 20 by the pulsation of the air pressure, because one side is filled with water to absorb the vibration in the fluidity of the water. In addition, as shown in Figure 3b, by installing the absorbent material 28 in one hollow portion of the membrane pipe 20, even if the vibration occurs in the water absorbed state so that the water does not easily escape from the hollow portion as a result of buoyancy It serves to reduce.

As another embodiment of the present invention, the structure that can change the partition wall position of the membrane pipe according to the conditions of the aeration tank is shown in Figures 4a, b and 5a, b.

As shown in FIGS. 4A and 4B, the membrane pipe 20 is formed to have a shorter length than the conventional one, and after the tab 30 is formed at the inner diameter of the short end of the membrane pipe 20, the membrane pipe 20 is formed. It is provided with a variable membrane pipe 32 having the same diameter and the same diameter, and which can be fastened to the tab 30.

The structure of the variable membrane pipe 32 will be described in detail with reference to FIGS. 5A and 5B, and a pipe-shaped body 34 having the same size as the diameter of the membrane pipe 20 is provided, and one end of the body 34 is provided. Steps are formed in the connection portion 36 having a predetermined length is formed, and the thread 38 is formed on the outer circumference of the connection portion 36. In addition, the inner wall of the body 34, the partition wall 24 is formed on one side.

The diameter of the connection part 36 is the same as the inner diameter of the membrane pipe 20 so that the body 34 is rotated after the body 36 is brought into contact with the connection part 36 to the tab 30 of the membrane pipe 20. Pipe 32 is coupled to membrane pipe 20.

In addition, the variable membrane pipe 32 may be manufactured in various lengths, as shown in FIG. 5B, and the location of the partition wall 24 is variously formed in each variable membrane pipe 32 as shown in FIG. 5A. can do.

Referring to the operation of the membrane diffuser according to another embodiment of the present invention is as follows.

As in the embodiment of the present invention, air above atmospheric pressure introduced through the air pipe 16 is discharged to the outside through the vent hole 26 formed in the membrane pipe 20, and the discharged air is discharged from the membrane pipe 20. Pneumatic pressure is applied to the membrane 22 coated on the outer circumference.

As the membrane 22 expands due to the air pressure, micropores formed in the membrane 22 also expand, and air is blown into the aeration tank 12 through the expanded micropores.

Since the membrane pipe 20 is connected to the aeration tank on the right side with respect to the partition wall 24, water is filled when the diffuser is in the water. Therefore, the left side is connected to the air pipe 16 to be an air passage, and the right side opens the hollow so that the water can enter when the membrane pipe 20 is in the water, so that 60% of the membrane pipe 20 as a whole is It is filled with water and the rest is filled with air. In this case, as compared with the case where only the air is contained in the membrane pipe 20 without installing the partition wall 24, the buoyancy increase due to the air pressure is suppressed. By reducing the buoyancy which is a factor that causes cracks in the connection portion of the membrane pipe 20 can be less burden on the repair or replacement of the diffuser (14).

In order to change the length of the membrane pipe 20 or to change the position of the partition wall 24 according to the condition of the aeration tank 12, the variable membrane pipe 32 fastened in a bolt / nut manner is released, and the aeration tank 12 Replace with a variable membrane pipe (32) that fits the conditions of.

In the replacement, since the entire length of the membrane pipe 20 is changed, the membrane 22 coated on the outside of the membrane pipe 20 should be replaced accordingly.

As described above, according to the present invention, the buoyancy generated in the membrane can be reduced by allowing only air to be introduced into a portion of the membrane pipe, and even if the membrane pipe is vibrated by the pulsation of air pressure, the portion of the membrane pipe is filled with water during use. By providing fluidity so as to reduce the vibration, breakage of the connection parts of the diffuser including the membrane pipe is prevented.

Claims (4)

An air pipe through which air pressure above atmospheric pressure is circulated; A membrane pipe connected to an air pipe on one side of the air pipe and having a partition wall installed inside the hollow part so that one side communicates with the air pipe and the other side is open to the outside; Buoyancy and vibration reduction membrane diffuser characterized in that it comprises a membrane coated on the outer circumference of the membrane pipe. The method of claim 1, Buoyancy and vibration reduction membrane diffuser, characterized in that the absorbent material such as sponge is installed in the hollow portion of the membrane pipe not in communication with the air pipe. An air pipe through which air pressure above atmospheric pressure flows, and connected to communicate with the air pipe at one side of the air pipe, and a membrane pipe having tabs formed at inner diameters at both ends thereof; Buoyancy and characterized in that it comprises a plurality of variable membrane pipes of different lengths to be detachably installed in the tab of the membrane pipe in a bolt / nut manner to vary the position and the overall length of the partition wall of the membrane pipe and Vibration reducing membrane diffuser. The method of claim 3, The plurality of variable membrane pipes has a body having the same diameter as the membrane pipe; A step portion is formed at one end of the body, and a connection portion formed with a screw thread at an outer circumference thereof; Buoyancy and vibration reduction membrane diffuser, characterized in that the inner diameter of the body comprises a partition formed in each other position.