KR101324795B1 - Diffuser - Google Patents

Abstract

The present invention relates to a diffuser, and more particularly, the inner support is formed hollow inside, the inner support pipe is formed in the longitudinal direction concave on the outer circumferential surface is formed with a first through-hole on one side of the flow path groove; An elastic tube inserted into an outer side of the inner support tube and closed at both sides thereof by being coupled to an outer circumferential surface of the inner support tube and having a plurality of fine acid pores; And a coupler coupled to be inserted into one side of the inner support tube, the coupler being coupled to be in communication with the first through hole of the inner support tube by forming an inner hollow portion and having a second through hole formed therein. It comprises a, by supplying air through the flow path groove to be discharged to the acid pores of the elastic tube, to reduce the head of the loss to the supply pressure of the air and to the diffuser to minimize the deformation of the elastic tube It is about.

Description

Diffuser {Diffuser}

The present invention relates to a diffuser, and more particularly, the inner support is formed hollow inside, the inner support pipe is formed in the longitudinal direction concave on the outer circumferential surface is formed with a first through-hole on one side of the flow path groove; An elastic tube inserted into an outer side of the inner support tube and closed at both sides thereof by being coupled to an outer circumferential surface of the inner support tube and having a plurality of fine acid pores; And a coupler coupled to be inserted into one side of the inner support tube, the coupler being coupled to be in communication with the first through hole of the inner support tube by forming an inner hollow portion and having a second through hole formed therein. It comprises a, by supplying air through the flow path groove to be discharged to the acid pores of the elastic tube, to reduce the head of the loss to the supply pressure of the air and to the diffuser to minimize the deformation of the elastic tube It is about.

In general, an acid apparatus for sewage or wastewater treatment is a device for culturing and propagating microorganisms in an aeration tank or a reaction tank so that the microorganisms have a biological action to decompose and purify organic substances in sewage or wastewater.

At this time, the microorganisms require oxygen in order to breed, and mixed with filthy water using activated sludge, which is an aggregate of microorganisms and suspensions that act on the oxidation of organic matter, and then, aerobic microorganisms oxidize and decompose organic matter in the presence of oxygen. The sewage or wastewater is treated by the method.

And in order to supply oxygen to the microorganism, a main supply pipe for supplying compressed air or oxygen in the aeration tank or the reaction tank is configured, the main supply pipe is configured to be connected to an oxygen supply tank or compressor provided on the outside of the reaction tank.

Here, one end is connected to the main supply pipe, and a plurality of acid pipes having a plurality of acid holes formed therein are coupled to the other end to supply oxygen or air into the reactor.

As an example of the diffuser, one side end is conventionally sealed as shown in FIGS. 1 and 2, and a through hole 11 in a radial direction is formed around the circumference so that air introduced into the inside is discharged through the through groove 11. Internal support tube 10; An elastic body (20) mounted on an outer circumferential surface of the inner support pipe (10) and having a straight-shaped diffuser groove (21) in the center axial direction around the circumference; And a binding port 30 coupled to an inlet side of the inner support tube 10 and the elastic body 20 so as to be connected to compressed air or an oxygen tank for supplying air into the inner support tube 10. Disclosed is an obstruction diffuser (50) comprising a.

At this time, the blockage preventing diffuser 50 is introduced into the interior of the inner support pipe 10 through the binding port 30, as shown, the elastic body 20 through the through groove 11 When the air is supplied to the swelling, the air diffuser groove 21 formed in the elastic body 20 is opened so that the air is discharged to the outside of the elastic body 20.

However, in order for the diffuser 50 to discharge air through the diffuser groove 21 formed in the elastic body 20, a plurality of through grooves 11 in which the supplied air is formed in the inner support pipe 10 are provided. Since it is dispersed through), the loss head increases in order to expand the elastic body 20 to open the diffuser groove 21, thereby increasing the pressure of the compressed air.

In addition, when the supply of air to the diffuser 50 is stopped, air remains between the inner support tube 10 and the elastic body 20 coupled to the outside, so that the elastic body 20 supports the inner body. A bulging full phenomenon occurs without being in close contact with the outer circumferential surface of the tube 10. For this reason, there is a problem that deformation of the elastic body 20 occurs during long-term use.

KR 10-0159144 B1 (1998.08.10.) FIGS. 1 and 2a

The present invention has been made in order to solve the problems described above, the object of the present invention is formed inside the hollow, concave on the outer circumferential groove is formed in the longitudinal direction of the first through-hole on one side of the flow path groove An inner support tube formed; An elastic tube inserted into an outer side of the inner support tube and closed at both sides thereof by being coupled to an outer circumferential surface of the inner support tube and having a plurality of fine acid pores; And a coupler coupled to be inserted into one side of the inner support tube, the coupler being coupled to be in communication with the first through hole of the inner support tube by forming an inner hollow portion and having a second through hole formed therein. It comprises a, by supplying air through the flow path groove to be discharged to the acid pores of the elastic tube, to provide an diffuser that can reduce the head of the loss of the supply pressure of the air.

In addition, when the air supplied to the flow path groove of the inner support tube is cut off, the remaining air remains in the flow path grooves to allow the elastic tube to maintain the original shape, the diffuser that can minimize the deformation of the elastic tube To provide.

The diffuser of the present invention for achieving the object as described above, the inside is formed hollow, the flow path groove 110 is formed in the longitudinal direction concave on the outer circumferential surface first passage on one side of the flow path groove 110 An inner support tube 100 in which a ball 120 is formed; An elastic tube 200 inserted into an outer side of the inner support tube 100 and coupled to an outer circumferential surface of the inner support tube 100 to be closed, and having a plurality of fine acid pores 210 formed therein; And it is coupled to be inserted into one side of the inner support tube 100, the inside is formed to be hollow and the second through hole 320 is formed to communicate with the first through hole 120 of the inner support pipe 100 Coupler 300 is coupled to be; And a control unit.

In addition, the coupler 300 has a guide groove 330 is formed on one side that is inserted into the inner support tube 100, the flow path groove 110 of the inner support tube 100 is the guide groove 330 It is characterized in that it is inserted in close contact.

In addition, fixing grooves 130 and 340 are formed on one side outer circumferential surface of the inner support tube 100 and one side outer circumferential surface of the coupler 300, respectively, and the elastic tube 200 has both sides by the binding means 400. It is characterized in that the tightly fixed to the fixing groove (130,340).

In addition, the coupler 300 is a fastening portion 310 is formed of a screw thread, characterized in that the rotating groove 350 is formed on one side outer peripheral surface of the coupler (300).

The diffuser of the present invention has the advantage of reducing the loss head to the supply pressure of the air by supplying air through the flow path groove of the inner support pipe to be discharged to the acid pores of the elastic tube configured on the outside.

In addition, when the air supplied to the flow path groove of the inner support tube is cut off, the remaining air remains in the flow path groove so that the elastic tube can maintain the circular shape, thereby minimizing the deformation of the elastic tube has the advantage have.

1 and 2 are a cross-sectional view and a perspective view showing a conventional diffuser.
3 is an exploded perspective view showing the diffuser of the present invention.
4 is a cross-sectional view showing the diffuser of the present invention.
FIG. 5 is a cross-sectional view taken along the line AA ′ of FIG. 4.
Figure 6 is a cross-sectional view showing an expanded state of the elastic tube according to the present invention.
FIG. 7 is a cross-sectional view taken along line BB ′ of FIG. 6.

Hereinafter, with reference to the accompanying drawings, the diffuser fastening device of the present invention as described above will be described in detail.

3 and 4 are exploded perspective and sectional views showing the diffuser of the present invention.

As shown, the diffuser 1000 of the present invention, the inside is formed to be hollow, concave on the outer circumference is formed with a flow path groove 110 in the longitudinal direction of the first through hole (one side of the flow path groove 110 ( An inner support tube 100 in which 120 is formed; An elastic tube 200 inserted into an outer side of the inner support tube 100 and coupled to an outer circumferential surface of the inner support tube 100 to be closed, and having a plurality of fine acid pores 210 formed therein; And it is coupled to be inserted into one side of the inner support tube 100, the inside is formed to be hollow and the second through hole 320 is formed to communicate with the first through hole 120 of the inner support pipe 100 Coupler 300 is coupled to be; It is made, including.

First, the inner support tube 100 is formed to be hollow in the inside and formed long in the longitudinal direction, the concave flow path groove 110 is formed on the outer peripheral surface.

At this time, the inner support tube 100 may be formed to be hollow inside, only one side may be hollow.

The flow path groove 110 is formed to protrude to the inner circumferential surface of the inner support tube 100 and is concave when viewed from the outside. And the flow path groove 110 is formed long along the longitudinal direction of the inner support tube 100, is formed at regular intervals at both ends of the inner support tube (100).

In addition, the flow path groove 110 may be a pair symmetrically formed on the outer circumferential surface of the inner support tube 100 as shown, it may be formed in various shapes and numbers.

Here, a first through hole 120 is formed at one side of the flow path groove 110, and the first through hole 120 is formed at one side of the flow path groove 110 and of the inner support pipe 100. It is formed in a direction perpendicular to the central axis.

The elastic tube 200 is formed to be hollow inside and is inserted into the outer side of the inner support tube 100, both sides are coupled to the outer peripheral surface of the inner support tube 100 and sealed.

And the elastic tube 200 is formed with a plurality of fine acid pores 210 along the circumferential direction and the longitudinal direction, the acid pores 210 are fine holes or so as to open only when the elastic tube 200 is expanded It is formed in the form of a groove.

That is, when air is supplied to the inside of the elastic tube 200 and expanded as shown in FIG. 7, the acid pores 210 are expanded and opened. In contrast, air is blocked as shown in FIG. When the acid pores 210 are restored to the shape of the closed.

The coupler 300 is formed so that the outer circumferential surface is stepped so that one side is inserted into the inner support tube 100, and the inside is formed to be hollow but the inserted side is blocked. A second through hole 320 is formed through the outer circumferential surface so as to communicate with the hollow inside on the inserted side of the coupler 300.

At this time, the position of the second through hole 320 of the coupling hole 300 and the first through hole 120 of the inner support pipe 100 is inserted into one side of the inner support pipe 100 is the same. To be combined.

That is, the air supplied into the hollow inside of the coupler 300 passes through the second through hole 320 and passes through the first through hole 120 of the inner support pipe 100 to allow the flow path groove ( It is formed to be supplied to 110.

Thus, the diffuser 1000 of the present invention is coupled to the coupler 300 to the main supply pipe is in communication with the compressed air or oxygen to be supplied and located in the fluid, the second through hole 320 as shown in Figs. And air is supplied to the flow path groove 110 through the first through hole 120 so that the elastic tube 200 is expanded to open a plurality of acid pores 210 and air through the acid pores 210. The droplets are configured to be discharged.

In this case, in order for the elastic tube 200 to be expanded, a pressure must be applied from the inside beyond the pressure due to the elasticity of the elastic tube 200 itself and the hydraulic pressure applied from the outside of the elastic tube 200. Since the area corresponding to the flow path groove 110 of the pipe 100 is formed wide, the elastic tube 200 can be expanded with a smaller pressure so that the air can be discharged through the acid pores 210 so that the air supply pressure is reduced. This has the advantage of reducing the head loss.

In addition, when the air supplied to the flow path groove 110 of the inner support tube 100 is cut off, residual air does not remain between the outer circumferential surface of the inner support tube 100 and the inner circumferential surface of the elastic tube 200. By remaining in the flow path groove 110 of the inner support tube 100 to maintain the elastic tube 200 intact, there is an advantage that can minimize the deformation of the elastic tube.

In addition, the coupler 300 has a guide groove 330 is formed on one side that is inserted into the inner support tube 100, the flow path groove 110 of the inner support tube 100 is the guide groove 330 It is inserted into and coupled to close contact.

That is, as shown, the flow path groove 110 is formed to protrude to both sides on the inner peripheral surface of the inner support tube 100, the coupling hole 300 is formed in the guide groove 330 to be concave at the corresponding position Thus, the flow path groove 110 is inserted along the guide groove 330 is coupled to be fixed so that the coupler 300 is not rotated in the circumferential direction in the state coupled to the inner support pipe (100). .

In addition, fixing grooves 130 and 340 are formed on one side outer circumferential surface of the inner support tube 100 and one side outer circumferential surface of the coupler 300 as shown in FIGS. 3 and 6, and both sides of the elastic tube 200 are bound. By means 400 may be made to be fixed in close contact with the fixing groove (130,340).

That is, the inner support tube 100 and the coupler 300 is coupled so as not to be separated in the longitudinal direction by the elastic tube 200 and the binding means 400, when the elastic tube 200 is expanded Both ends are tightly fixed by the binding means 400, and the elastic tube 200 is coupled by the fixing grooves 130 and 340 so that the elastic tube 200 is not pulled inward.

Therefore, even though the expansion and contraction of the elastic tube 200 is repeated due to the fixing grooves 130 and 340 and the binding means 400, deformation and separation of the elastic tube 200 are prevented.

In addition, the coupler 300 is a fastening portion 310 is formed of a screw thread, the rotary groove 350 may be formed on one side outer peripheral surface of the coupler (300).

It is configured so that when the diffuser 1000 of the present invention is coupled to the male screw-shaped nipple formed in the main supply pipe, the fastening portion 310 of the coupler 300 is formed as a female screw to be rotationally coupled to the nipple, At this time, a pair of rotating grooves 350 are formed horizontally on the outer circumferential surface of the coupler 300 so as to be strongly coupled using a spanner or the like.

At this time, the rotary groove 350 may be formed side by side in a pair as described above, or may be variously formed into a square, hexagonal shape, etc. by processing the outer peripheral surface of one end of the coupler 300 step.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

1000: diffuser (of the invention)
100: inner support pipe
110: euro groove 120: the first through
130: fixed groove
200: elastic tube
210: acid pores
300: coupling sphere
310: fastening portion 320: second through hole
330: guide groove 340: fixed groove
350: rotating groove
400: binding means

Claims (4)

An inner support pipe 100 formed to be hollow inside and having a concave outer groove formed in a longitudinal direction in a longitudinal direction such that a first through hole 120 is formed at one side of the flow path groove 110;
The inner support tube 100 is coupled to the outside of the inner support tube 100 to be inserted into the inner side, both sides are in close contact with the outer peripheral surface of the inner support tube 100, a plurality of fine acid pores 210 are formed Elastic tube 200; And
It is coupled to be inserted into one side of the inner support tube 100, the inside is formed to be hollow and the second through hole 320 is formed so as to communicate with the first through hole 120 of the inner support pipe (100). Coupling sphere 300 to be coupled; Including;
The coupling hole 300 is formed with a guide groove 330 on one side that is inserted into the inner support tube 100, the flow path groove 110 of the inner support tube 100 is inserted into the guide groove 330. The diffuser, characterized in that the close contact.
delete The method of claim 1,
Fixed grooves 130 and 340 are formed on one side outer circumferential surface of the inner support tube 100 and one side outer circumferential surface of the coupler 300, respectively, and the elastic tube 200 has both sides fixed by the binding means 400. The diffuser, characterized in that tightly fixed to (130,340).
The method of claim 1,
The coupling unit 300 is a fastening unit 310 is formed with a screw thread, the diffuser, characterized in that the rotating groove 350 is formed on one side outer peripheral surface of the coupling unit (300).

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