KR100836814B1 - Spreading apparatus for produce microscopic air bubble - Google Patents

Abstract

An air diffuser for generating micro-air bubbles is provided to discharge water from the air diffuser easily by installing a tap unit in a pipe connected to an external air supply pipe, greatly improve treatment efficiency of sewage or wastewater by mounting an air bubble generating plate on the pipe, and greatly improve installation workability by simply installing the air diffuser on the bottom of a treatment tank. In an air supply pipe installed on a sewage/wastewater treatment tank to supply oxygen into the treatment tank, an air diffuser(100) for generating micro-air bubbles comprises: a pipe(110) which is disposed in parallel to a bottom face of the treatment tank, and of which one end is connected to the air supply pipe; an air-bubble generating plate(120) formed in a plate shaped structure in which an elastic plate having micropores formed therein is joined with a metal plate integrally mounted on the pipe along the length direction to form a sealed space that communicates with the pipe by passing through the metal plate, wherein the micro-air bubbles are supplied into sewage/wastewater in the treatment tank while the air is converted into micro-air bubbles through the micropores of the elastic plate when air is supplied from the pipe into the space; and a fixing unit(130) for fixing the air-bubble generating plate onto the bottom of the treatment tank. The fixing unit includes inserting members(131) vertically formed from left and right sides of the metal plate, and a plurality of fixing plates(133) which are fixed to the bottom of the treatment tank along the length of the air-bubble generating plate, and which have fixing members projected from top faces thereof facing the air-bubble generating plate such that the fixing members are inserted and fixed to the inserting members.

Description

Spreading Apparatus for Produce Microscopic Air Bubble

1 is a view showing an example of the installation state of the micro-bubble air diffuser device according to the present invention,

FIG. 2 is a view showing a portion A of FIG. 1; FIG.

3 is a cross-sectional view taken along line II of FIG. 2;

4 is a view showing only a part of section II-II of FIG. 2;

5 and 6 are views showing the bubble generation state and the stop state of Fig. 3, respectively;

FIG. 7 is a view illustrating a state in which cold water is discharged from FIG. 4.

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

1: Sewage / wastewater treatment tank 3: Piping for air supply

100: diffuser 110: tube

111: connector 120: bubble generation plate

121: metal plate 123: pores

125: elastic plate 127: airtight space

129: by air 130: fixing means

131: fitting hole 133: fixed plate

133a: fastener 140: tap means

141: socket member 141a: screw hole

143: plug member

The present invention relates to an air dispersing apparatus used to supply air into a treatment tank for various sewage / wastewater treatment, and in particular, when the water is filled inside, it facilitates its discharge and increases the efficiency of oxygen supply. The present invention relates to an apparatus for generating microbubbles to greatly improve the efficiency of treatment.

Generally, sewage / wastewater treatment tanks are provided with bubble generating means for efficiently treating the sewage / wastewater. At this time, the bubble generating means used is a disk type and a pipe type, which has a defect that must be installed at a distance from the bottom of the treatment tank, as well as a number of work steps. For this reason, the Korean Utility Model Registration No. 20-0321616 discloses an air diffuser for generating microbubbles to solve the above drawbacks.

However, the air diffuser disclosed above has an abnormality in the air supply pipe for supplying air to the air diffuser, or damage to the connection part with the pipe causes water to be filled inside through the damaged part (when water is filled in the air diffuser). There is a problem that the acid function is reduced.) Since there is no means for discharging it, there is a troublesome problem that the water is empty by separating the acid device from the pipe daily, and the air supply pipe is connected on the acid surface. Therefore, there is a problem in that the diffuser area is reduced, and since the air supply pipe is connected to one side of the diffuser surface, the air pressure decreases toward the other side, so that bubbles are not evenly generated.

Accordingly, an object of the present invention is to solve such a problem, and when the water is filled inside, it is easy to discharge the water and increase the efficiency of oxygen supply for greatly improving the efficiency of treatment of sewage / wastewater. To provide an diffuser.

Another object of the present invention to provide an air diffuser device for generating micro-bubbles to improve the installation workability on the bottom of the treatment tank.

The present invention for achieving the above object is in the air supply pipe disposed for the application of oxygen to the treatment tank of sewage / waste water, is arranged to be horizontal to the bottom surface of the treatment tank is connected to the air supply pipe one end Tube being; An elastic plate body having fine pores is formed in a plate-like structure in which a metal plate body integrally mounted along the length is formed on the tube body to form a closed space communicating with the tube body through the metal plate body, whereby air from the tube body A bubble generating plate adapted to be introduced into the sewage / wastewater in the treatment tank while being converted into fine bubbles through the pores of the elastic plate body when supplied to the space; And fixing means for fixing the bubble generating plate to the bottom of the treatment tank.

The fixing means has a c-shaped fitting hole formed vertically from both the left and right sides of the metal plate body, and a plurality of fixing means are installed in the bottom of the treatment tank along the length of the bubble generating plate and the upper surface facing the bubble generating plate. It is preferable that the fixing plate body formed by protruding the L-shaped fixture for fastening a sphere.

In addition, the other end of the tubular body having a screw hole in contact with the tubular body therein, the socket member is fitted to the other end of the tubular body, and the plug member is screwed with the screw hole of the socket member for opening and closing the other end of the tubular body It is preferable that the tab means consisting of more.

The above objects, advantages and other features will become apparent from the following description with reference to the accompanying drawings.

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

1 is a view showing an example of the installation state of the micro-bubble diffuser device according to the present invention, Figure 2 is a view showing a portion A in Figure 1, Figure 3 is a cross-sectional view taken along line I-I of FIG. FIG. 2 is a view showing only a part of the cross-section of line II-II, and FIGS. 5 and 6 are views showing the bubble generation state and the stop state, respectively, in FIG. 3, and FIG. It is a diagram showing.

As shown in the drawing, the micro-bubble generating apparatus 100 according to the present invention is arranged to be horizontal to the bottom surface of the sewage / wastewater treatment tank (1), the air supply pre-installed in the treatment tank (1) The tubular body 110 connected to be in contact with the pipe 3 for construction, the microbubble generating plate 120 constituting a rectangular, rectangular plate-like structure which is integrally mounted along the length on the tubular body 110, and microbubbles are generated. The plate 120 is roughly divided into fixing means 130 for fixing the bottom of the treatment tank 1.

Since the microbubble generating plate 120 has a rectangular plate-like structure, the microbubble generating plate 120 maximizes the treatment efficiency by supplying uniform air (bubble) to the entire sewage / wastewater accommodated in the treatment tank 1.

Since the diffuser device 100 of the present invention has a structure in which the air supply pipe 3 is directly connected to the bottom of the treatment tank 1 without being installed, the workability is improved. It can be fully understood from the display of FIG. 1 that the number of the air diffusers 100 installed in the processing tank 1 can be arbitrarily installed according to the size of the processing tank 1.

The tubular body 110 is connected to the air supply pipe (3) by forming a connection (Nipple; 111) at one end, the fine bubble generating plate 120 and the tubular body 110 on the tubular 110 It is mounted to communicate with each other to generate bubbles. As described above, since the fine bubble generating plate 120 contacts the air supply pipe 3 only through the pipe 110, the entire upper surface can be used as an air diffuser, so that the air diffuser area becomes wider. The generation efficiency is greatly improved.

In addition, since the tubular body 110 can supply air evenly along the length of the microbubble generating plate 120, that is, even air pressure, unlike the conventional method, the microbubble generating plate 120 evenly bubbles the entire area. Since it can be generated, it is possible to supply fine bubbles evenly to the whole sewage / wastewater, thereby greatly improving the efficiency of treatment of the sewage / wastewater.

The overall appearance of the microbubble generating plate 120 to generate the micro-bubbles as described above forms a substantially rectangular plate structure, with respect to the metal plate body 121 made of stainless steel integrally mounted along the length on the tubular body 110. The fine pores 123 combine the elastic plate body 125, that is, the membrane, made of a perforated polyurethane to form a closed space 127.

The space 127 formed between the metal plate body 121 and the elastic plate body 125 penetrates through the metal plate body 121 and the tube body 110 to communicate with the inside of the tube body 110. An air path 129 penetrating both the metal plate body 121 and the tube body 110 is formed to communicate with the inside of the tube body 110. The air passage 129 has a shape in which a plurality of holes are formed along a length, or one hole is formed long in length, that is, in the form of a long hole to communicate between the space 127 and the tube 110. . Reference numeral 115 denotes a support bar for supporting the metal plate body 121 mounted on the tube body 110.

Therefore, when the tubular body 110 supplies the air from the air supply pipe 3 to the inside of the closed space 127 of the microbubble generating plate 120 through the air passage 129, the usual As shown in FIG. 5, only the elastic plate body 125, which is in close contact with the metal plate body 121, expands and expands as shown in FIG. 6 due to the pressure of pressurized air.

At this time, since the minute pores 123 installed in the elastic plate body 125 are almost closed, the pores 123 are opened while being expanded by the expansion of the elastic plate body 125, so that the air flowing into the space 127 is expanded. It is discharged into the sewage / wastewater of the treatment tank 1 through 123. The air discharged through the pores 123 is converted into a very fine bubble while contacting the sewage / wastewater of the treatment tank 1 and sprayed into the sewage / wastewater to be dissolved. The air supplied to the sewage / wastewater of the treatment tank 1, that is, the bubbles, is finer, the finer it is. The reason for this is to make air dissolve faster in sewage / wastewater. If air dissolves well in sewage / wastewater, it maximizes the treatment efficiency of sewage / wastewater.

When the air supply from the air supply pipe 3 to the microbubble generating plate 120 is stopped, the elastic plate body 125 of the microbubble generating plate 120 is returned to its original state as shown in FIG. The pores 123 that have been expanded to form an open state are also completely closed so that the sewage / wastewater in the treatment tank 1 does not flow back through the air. Although the pores 123 are largely displayed in order to aid in understanding, they are not actually visible to the naked eye.

The fixing means 130 for fixing the microbubble generating plate 120 to the bottom of the processing tank 1 is a B-shaped fitting hole 131 which is formed vertically from both left and right sides of the metal plate body 121. And a plurality of fixed installations along the length of the bubble generating plate 120 at the bottom of the processing tank 1 and protruding a L-shaped fixture 133a on an upper surface facing the bubble generating plate 120. It consists of a fixed plate body 133, by fitting the fitting sphere 131 to the fixture 133a from the outside inwardly to firmly fix the fine bubble generating plate 120 to the bottom of the treatment tank (1). .

It is preferable that the fixing plate body 133 forms holes 133b at both left and right sides, and drives the bolt B having a washer through the holes 133b to be fixed to the bottom of the treatment tank 1. The fixing plate body 133 is first inserted into the microbubble generating plate 120 and then fixed to the bottom to conveniently fix the microbubble generating plate 120. Alternatively, the fixing plate body 133 may be fixed to the bottom first, and then the fitting bubble 131 may be slidably inserted into the fixing tool 133a to fix the fine bubble generating plate 120.

On the other hand, as shown in Figures 3 and 7, the other end of the tube 110 is provided with a tap means 140 for opening and closing the other end of the tube 110. The tab means 140 has a screw hole (141a) in contact with the tubular body (110) therein, the socket member 141 is fitted to the other end of the tubular body 110, and the screw of the socket member 141 The plug member 143 is screwed to the hole 141a, and the plug member 143 is connected to the screw hole 141a of the socket member 141 by the screw hole 141a. Opening and closing the other end of the tube (110). The socket member 141 is made of a resin material in order to maintain the airtightness is preferably fitted to the other end of the tubular 110 by fitting fit, the plug member 143 also wear or other socket member 141 It is preferably made of a resin material so as not to affect).

Therefore, as shown in FIG. 7, the air supply pipe 3 has an abnormality or the connection portion between the pipe 3 and the pipe 110 is damaged, so that water flows through the damaged area, thereby allowing the space 127 to flow. ) Or the tubular body 110 when the water is filled in, the microbubble generating plate 120 is installed in the state in which the water of the processing tank 1 is drained from the screw hole 141a of the socket member 141. If only the plug member 143 is removed, since the cold water in the space 127 or the tubular body 110 can be easily emptied through the open screw hole 141a, the microbubble generating plate 120 as before. The hassle of removing the water and emptying the water is greatly eliminated.

According to the present invention as described above, there is an effect that the water is easily emptied by providing a tab means for opening and closing the tube in the tube connected to the external air supply pipe.

In addition, by mounting a bubble generating plate for generating a fine bubble on the tube body to expand the area of the acid has an effect to greatly improve the efficiency of treatment of sewage / wastewater by expanding the oxygen supply.

In addition, there is an effect to greatly improve the workability at the time of installation by simplifying the installation work on the bottom of the treatment tank.

Claims (3)

In the piping for supplying air disposed to provide oxygen to the sewage / wastewater treatment tank, A pipe body disposed horizontally with a bottom surface of the treatment tank and having one end connected to the air supply pipe; An elastic plate body having fine pores is formed in a plate-like structure in which a metal plate body integrally mounted along the length is formed on the tube body to form a closed space communicating with the tube body through the metal plate body, whereby air from the tube body A bubble generating plate adapted to be introduced into the sewage / wastewater in the treatment tank while being converted into fine bubbles through the pores of the elastic plate body when supplied to the space; And Dispersion apparatus for generating fine bubbles comprising a fixing means for fixing the bubble generating plate to the bottom of the processing tank. The method of claim 1, wherein the fixing means is provided with a c-shaped fitting hole is formed vertically from both the left and right sides of the metal plate body, a plurality of fixed installation along the length of the bubble generating plate on the bottom of the treatment tank and the bubble generating plate and A diffuser device for generating micro-bubbles, characterized in that consisting of a fixed plate body protruding formed with a L-shaped fixture for fixing the fitting hole on the upper surface facing. According to claim 1, wherein the other end of the tube having a threaded hole in contact with the tube therein and the socket member is fitted to the other end of the tube, the screw hole of the socket member is screwed to the other end of the tube A diffuser device for generating micro-bubbles, characterized in that the tab means made of a plug member for opening and closing.

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