KR20030036516A - Oxygen supply apparatus for sewage disposal and wastewater treatment - Google Patents

Abstract

PURPOSE: Provided is an oxygen supply apparatus for sewage disposal and wastewater treatment, which can prevent wastewater back flow into air supply pipe in case air supply stop by promptly closing air supply hole by return means. CONSTITUTION: The oxygen supply apparatus comprises a cover member(120); an air supply hole(114); an air jet pipe(130) on the side surface of which a plural air jet holes(132) are formed; a plural air guide ribs(140) which are formed on the outer circumferential surface of the air jet pipe at regular interval to guide air spirally; an air supply hole plug(150) which is traveled vertically inside the air jet pipe to close the air supply hole in case air supply stop; a guide member(160) which guides the air supply hole plug vertically, and on the central part of which a hole(162) is formed to fit the upper end part of the air supply hole plug; a return means(170) into which the air supply hole plug is inserted to back the air supply hole plug to its original position; and a support member(180) which is formed on the lower side of the cover member at a position corresponding to the guide member to locate the air supply hole plug inside the air jet pipe.

Description

Oxygen supply apparatus for sewage disposal and wastewater treatment

The present invention relates to an acid dispersing device for wastewater treatment, and more particularly, is installed in an air supply pipe inside an aeration tank of a wastewater treatment device, and splits the air supplied from the air supply pipe into smaller air bubbles, The present invention relates to an apparatus for treating waste water treatment, wherein the oxygen solubility in the waste water can be increased by being supplied.

It is well known that there is a lack of awareness of environmental conservation in the course of rapid economic development. Due to this lack of awareness of environmental conservation, the level of pollution as well as air quality has reached a very serious level. In particular, domestic sewage, agricultural and livestock waste, and industrial wastewater cause pollution of public waters such as appeals, inner bays and inland seas, and urban small and medium rivers.

Therefore, each country has come up with and implements the appropriate water quality regulation standards in our country. These water quality standards are classified into environmental standards of the Framework Act on Environmental Policy, discharge allowance standards of discharged water quality and discharge water quality standards, sewage and septic tank standards of sewage and livestock, and leachate standards of the Waste Management Act. Each of these standards was established to comply with environmental standards in public waters.

On the other hand, in order to purify various wastewater and wastewater for improvement of water quality, wastewater inflow process, stirring process, anaerobic reaction process under anaerobic condition, oxygen reaction process under aerobic condition, sludge precipitation process, filtration process and discharge process to discharge water system In the aeration tank in which the oxygen reaction process under aerobic conditions is performed, an aerator for supplying oxygen in the aeration tank is installed so that organic matter, nitrogen and phosphorus can be removed through continuous culture of microorganisms in the presence of dissolved oxygen.

As a technology related to the conventional diffuser as described above, there is described a diffuser for treating wastewater of Patent No. 301445 (2001.6.25) registered and filed by the present applicant. It is made of a fallopian tube shape having a mountain base body having a plurality of bubble-emitting grooves formed at equal intervals on the fasteners and oxygen supply from the supply pipe, the plurality of through holes are formed on the inner peripheral surface of the mountain base body It is located between the perforated plate and the perforated plate of the perforated plate and the perforated plate to form bubbles, and at the bottom surface in relation to the operation port for blocking foreign matter by blocking the fastener when the supply of oxygen is interrupted Bubble release groove is formed is made of a cover member for covering the top of the mountain base.

Disposal device for wastewater treatment of Patent No. 301445 (2001.6.25) configured as described above is bubbled by finely breaking bubbles generated by irregular flow by the blowing force of oxygen supplied when oxygen is supplied through the fastener By increasing the surface area of, the transfer rate of oxygen to the waste water is remarkably improved.

However, the diffuser device according to the prior art as described above, when the operation of the oxygen supply is blocked, because the operating block blocks the upper surface of the fastener by the pressure difference, the operation is delayed slightly, so that backflow of waste water to the fastener may occur. There is a problem that can be.

In addition, the air diffuser having the structure described above increases the oxygen solubility of the waste water by splitting the bubbles generated through the operation port more finely, but does not show a significantly improved effect compared to the conventional air diffuser.

Moreover, the above-described conventional air dispersing device does not flow between the inner circumferential surface of the acid base body and the space formed by the porous plate due to the supply pressure of oxygen supplied from the air supply pipe, thereby lowering the solubility of oxygen. Problems that act as a cause arise.

The present invention has been made to solve the above problems, when the supply of air from the supply pipe is cut off immediately closes the air supply through the restoring force of the opening and closing member return means to the back flow of waste water into the supply pipe It is an object of the present invention to provide an air dispersing apparatus for treating sewage and wastewater that is not generated.

Another object of the present invention is to allow the flow of air supplied into the air diffuser member through the air supply hole to flow in the direction of the inclined plane of the inner peripheral surface of the air diffuser member as well as upward, while being able to flow in the spiral direction through the air guide rib By breaking the air bubbles (bubbles) through the energy generated by the rotational vortex of the air to thereby increase the oxygen transfer efficiency inside the aeration tank.

Furthermore, the present invention enables the flow of air supplied into the air diffuser member through the air supply hole in addition to the above-described objects to flow upwardly as well as the inclined surface direction of the inner peripheral surface of the air diffuser member, while spirally passing through the air guide rib. By allowing it to flow, the air introduced into the diffuser member is rotated and discharged in a spiral direction so that the air pressure is strongly injected so that it can be evenly distributed in the aeration tank.

1 is an exploded perspective view showing an air dispersing device for wastewater treatment according to the present invention.

Figure 2 is a plan view showing a planar view of the air dispersing member in the dispersing device for wastewater treatment according to the present invention.

Figure 3 is a longitudinal cross-sectional view showing a diffuser device for wastewater treatment according to the present invention.

Figure 4 is a longitudinal cross-sectional view showing the action of the dispersing device for waste water treatment according to the present invention.

Figure 5 is a longitudinal sectional view showing another example of the opening and closing member return means in the waste water treatment disperser according to the present invention.

** Description of symbols for the main parts of the drawing **

100. Air diffuser 110. Air diffuser

112. Fasteners 114. Air supply

116. Bubble release groove 120. Cover member

122. Through hole 124. Bubble release groove

130. Air blower pipe 132. Air blower

140. Air guide rib 150. Air supply opening and closing member

152. Shaft 154. Support piece

156. Sealing ring 160. Guide member

162. Guide hole for opening and closing member 164. Air blowing hole

170. Opening member return means, sponge rubber, coil spring

180. Support member

The present invention configured to achieve the above object is as follows. That is, the air dispersing device for wastewater treatment according to the present invention is a funnel-type diffuser member having air supply holes into which air is introduced from the air supply pipe and bubble discharge grooves through which air bubbles are released, and bubbles related to the bubble discharge grooves of the air diffuser members. In the air diffuser comprising a cover member having a discharge groove and a plurality of through holes, the air diffuser is formed in the form of a pipe that is open on the outer periphery of the air supply hole of the inner bottom of the air diffuser member inlet through the air inlet An air ejection tube having a plurality of air ejection holes penetrating the compressed air laterally; An air guide rib formed on the inner circumferential surface of the air blower member in the spiral direction at equal intervals on the outer circumferential surface of the air blower tube to guide the air blown out of the air blower hole in the spiral direction; An air supply opening / closing member installed to be able to flow up and down inside the air blowing pipe to open and close the air supply hole when air is supplied and blocked; An opening member guide hole through which an upper end of the air supply opening / closing member is guided to be formed to guide the upper and lower guide members in a vertical direction when the air supply opening and closing member flows; An opening / closing member returning means fitted on an outer circumferential surface of the air supply opening / closing member and having a force acting in a direction to normally return the air supply opening / closing member; And a support member formed on a lower surface of the cover member at a position relative to the guide member to support the guide member to be positioned inside the air blowing pipe.

In the above-described configuration, the air guide rib is preferably formed between each of the air ejection holes formed in the lateral direction of the air ejection pipe.

The guide member for guiding the air supply opening and closing member in the up and down vertical direction is formed at the center thereof and is formed on the outer periphery of the opening and closing member guide hole and the opening and closing member guide hole through which the air supply opening and closing member is guided through, It is provided with an air ejection hole for ejecting the air upwards through the ejection pipe but is fitted through the opening and closing member guide hole in the upper end of the air supply opening and closing member in the state that the opening and closing member return means is fitted.

In the above-described configuration, the air supply opening and closing member is fitted on a shaft of a predetermined size, a support piece for supporting the opening and closing member return means on the outer peripheral surface of the lower side of the shaft, and a water seal when the supply air is closed when the air supply hole is closed. It can be made of a configuration of the sealing ring.

On the other hand, the opening and closing member return means is inserted into the outer peripheral surface of the air supply opening and closing member between the lower end of the air supply opening and closing member and the guide member acts in the original position direction of the air supply opening and closing member which is a direction for closing the air supply hole.

The opening and closing member return means described above may be a tube-type sponge rubber having a constant elastic force and a restoring force, the opening and closing member return means may be a coil spring.

Hereinafter, an apparatus for treating waste water treatment according to a preferred embodiment of the present invention will be described in detail.

1 is an exploded perspective view showing an air discharging device for wastewater treatment according to the present invention, FIG. 2 is a plan view showing an air dispersing member in the air dispersing device for wastewater treatment according to the present invention, and FIG. Fig. 4 is a longitudinal sectional view showing the diffuser for wastewater treatment, Fig. 4 is a longitudinal sectional view showing the action of the effluent treatment device for wastewater treatment according to the present invention. A longitudinal cross-sectional view showing another example of the return means.

As shown in Figures 1 to 5, the apparatus for discharging wastewater treatment 100 according to the present invention is provided with a fastener 112, an air supply 114, and a plurality of bubble discharge grooves 116 from the bottom. A funnel-shaped diffuser member 110 extending upward, a through-hole 122 through which a plurality of through-holes are formed up and down and the bubble-releasing groove 124 related to the bubble-releasing groove 116 of the diffuser member 110 The cover member 120 is formed to cover the upper portion of the air diffuser member 110, a plurality of air blowing holes 132 are formed on the outer periphery is upwardly on the outer periphery of the air supply hole 114 of the inner bottom of the air diffuser member 110 Air guide pipe 140 formed in the form of an open pipe, the air guide rib 140 formed on the outer circumferential surface of the air blowing pipe 130 to guide the air blown out of the air blowing hole 132 in a spiral direction, air Air supply opening and closing portion is installed in the blower pipe 130 to open and close the air supply hole 114 when the air supply and blocking 150, the opening and closing member guide hole 162 is formed to guide the guide member 160 and the air supply opening and closing member 150 to the original position at all times in the up and down direction when the air supply opening and closing member 150 flows. It consists of a configuration of the support member 180 for supporting the opening and closing member return means 170 and the guide member 160, the force acting so as to be located inside the air blowing pipe 130.

In the air diffuser 100 of the present invention configured as described above, when air is supplied through the air supply pipe 10, the air supply opening / closing member 150 closing the air supply hole 114 by the pressure of the air supplied is upward. Pushed into the air supply hole 114 is opened. Accordingly, the air is introduced into the air ejection pipe 130 via the air supply hole 114 and ejected through the upward guide member 160, and is also ejected through the air ejection hole 132. At this time, the air ejected through the air ejection hole 132 is guided in a spiral direction by the air guide rib 140 to cause a vortex.

On the other hand, as described above, the air ejected through the air ejection hole 132 is guided in a spiral direction by the air guide unit 140 to form a vortex, thereby forming smaller air bubbles (bubbles). As the air bubbles are made smaller, this means that there is a lot of contact between the air and the waste water inside the aeration tank. In other words, the air is more dissolved.

Then, as described above, air bubbles (bubbles) are generated inside the air diffuser member 110 while air is ejected through the guide member 160 and the air ejection hole 132 upward of the air ejection pipe 130. These air bubbles are introduced into the aeration tank through the bubble discharge grooves 116 and 124 of the air diffuser member 110 and the cover member 120. Of course, the release through the through hole 122 of the cover member 120 is natural.

On the other hand, when the supply of air supplied through the air supply pipe 10 is cut off, the force for opening the air supply hole 114 by pushing upward the air supply opening / closing member 150 upward, that is, the air pressure disappears, thereby immediately returning to the opening and closing member. By the restoring force of the means 170, the air supply opening / closing member 150 is returned to its original position to close the air supply 114.

When the air discharging device 100 for wastewater treatment according to the present invention will be described in more detail. First, the air diffuser member 110 is for forming the air supplied from the air supply pipe 10 in the form of small air bubbles, and the air diffuser member 110 is connected to the air supply pipe 10 at a lower fastener 112. ), A plurality of bubble discharge grooves 116 formed at equal intervals in a spiral direction are provided on the flange surface of the upper end and the air supply hole 114 is formed to penetrate up and down in the upper center of the fastener 112 is formed in a funnel shape . That is, the diffuser member 110 is formed in the form of a funnel of the structure extending upward from the fastener 112 of the lower portion.

The diffuser member 110 configured as described above is connected to the air supply pipe 10 through the fastener 112, and the side shape thereof is installed in the form of an inverted triangle. In this way, air supplied from the air supply pipe 10 is introduced into the inner peripheral surface through the fastener 112 and the air supply hole 114 in the air diffuser member 110 connected to the air supply pipe 10.

On the other hand, in the above-described configuration, a plurality of bubble discharge grooves 116 formed at equal intervals on the flange surface of the air diffuser member 110 is a groove for discharging air bubbles (bubbles) generated in the air diffuser member 110, The bubble discharge groove 116 is formed in a spiral direction so that air bubbles (bubbles) to be discharged can be released while vortexing inside the aeration tank.

The cover member 120 is to prevent foreign substances in the aeration tank from being introduced into the diffuser member 110. The cover member 120 has a plurality of through-holes 122 and diffuser member 110 formed to penetrate up and down. In relation to the bubble discharge groove 116 is provided with a bubble discharge groove 124 formed on the bottom edge is coupled through the upper side of the air diffuser member (110). At this time, a locking jaw 126 is formed at the bottom inner surface of the cover member 120 and is coupled to the outer circumferential end of the diffuser member by the locking.

In the configuration as described above, the bubble discharge groove 124 is formed in the lower side of the open structure, the bubble release groove 116 of the diffuser member 110 associated with this is formed in an upwardly open structure diffuser member 110 By the combination of the cover member 120 and the two bubble release grooves (116, 124) to form a bubble discharge hole.

On the other hand, the through-holes 122 of the cover member 120 is a small air bubbles (bubbles) generated in the air diffuser member 110 is released without the foreign matter in the aeration tank 110 inside the air diffuser member 110 It is formed to a size that allows it. At this time, even though the through-holes 122 of the cover member 120 are blocked by foreign matter, air bubbles 122 generated when the air bubbles generated inside the air diffuser member 110 are discharged into the aeration tank through the through-holes 122. It is pierced. That is, foreign matters blocking the through hole 122 are removed by the air bubbles emitted through the through hole 122.

Air blowing pipe 130 is for guiding the air passing through the air supply 114 in the upward and lateral direction, the air blowing pipe 130 is the outer periphery of the air supply hole 114 of the inner bottom of the air diffuser member 110 It is formed in the form of a pipe with an upward opening on the top. At this time, the inner diameter of the air blowing pipe 130 is formed larger than the air supply hole 114 is formed in the planar shape on the upper outer periphery of the air supply hole 114.

The air ejection pipe 130 formed as described above is formed at equal intervals of the plurality of air ejection holes 132 so that air introduced into the air ejection pipe 130 may also be ejected in the lateral direction. As such, the air is blown out in the lateral direction so that smaller air bubbles are formed in the air diffuser member 110.

The air guide rib 140 guides the air ejected from the air ejection hole 132 in a spiral direction to cause a vortex inside the air diffuser member 110. The air guide rib 140 is an air ejection pipe 130. In the outer circumferential surface of the air diffuser member 110 is formed extending in the spiral direction at equal intervals to guide the air ejected from the air blowing hole 132 in the spiral direction. At this time, the air guide 140 is formed between each one of the air blowing holes (132). That is, it can be seen that the air blowing hole 132 is formed between each of the air guide ribs 140.

Accordingly, as described above, air guide ribs 140 are formed to guide the air ejected laterally through the air ejection holes 132 one by one between each of the air ejection holes 132. Air blown out through the blowing hole 132 is guided in a spiral direction between the two air guide ribs 140 to cause a vortex inside the diffuser member 110.

As described above, the air introduced into the air ejection pipe 130 through the air supply pipe 10 and the air supply hole 114 is ejected through the air ejection hole 132 and guided in a spiral direction by the air guide rib 140. As a result, the air is vortexed in contact with the waste water within the air diffuser member 110 to form a smaller air bubble (bubble).

The air supply opening / closing member 150 opens and closes the air supply hole 114 to supply and block air supplied from the air supply pipe 10, and the air supply opening / closing member 150 is disposed inside the air ejection pipe 130. It is installed to flow up and down to open and close the air supply hole 114 when the air supply and blocking of air.

On the other hand, the air supply opening and closing member 150 as described above is a support piece 154 for supporting the opening and closing member return means 170 to be described later on the shaft 152 and the lower side of the shaft 152 of a predetermined size It is made of a sealing ring 156 for watertight the air supply 114 when the pore 114 is closed.

The air supply opening and closing member 150 configured as described above is installed in the air blowing pipe 130 with the lower side on which the support piece 154 is formed to face the air supply hole 114. At this time, the lower end of the shaft 152 of the air supply opening and closing member 150 is formed with an outer diameter related to the diameter of the air supply hole 114.

The guide member 160 is for guiding the air supply opening / closing member 150 in an up and down vertical direction. The guide member 160 has a diameter at an upper end of the shaft 152 of the air supply opening / closing member 150 at the center thereof. A plurality of air ejection holes 164 are provided to allow the air introduced into the opening and closing member guide hole 162 and the air ejection pipe 130 of the related diameter to be ejected upward.

Guide member 160 configured as described above is the opening and closing member return means 170 and the upper portion of the lower opening and closing member guide hole 162 is described later in the state that the opening and closing member guide hole 162 is fitted to the top of the shaft 152 of the air supply opening and closing member 150 It is supported by the support member 180 is located inside the upper portion of the air blowing pipe (130). By installing the guide member 160 as described above, the shaft 152 of the air supply opening / closing member 150 is guided up and down along the opening and closing member guide hole 162 during the vertical flow of the air supply opening / closing member 150. This is done.

The opening / closing member returning means 170 is to return the air supply opening / closing member 150 to the original position when the air is cut off through the air supply pipe 10. The force acts in the direction in which the air supply opening / closing member 150 is normally placed on the outer circumferential surface of the shaft 152. That is, the opening and closing member return means 170 is positioned between the support piece 154 and the guide member 160 of the air supply opening and closing member 150 in a state of being fitted on the outer peripheral surface of the shaft 152 of the air supply opening and closing member 150. do.

As described above, the opening and closing member return means 170 is compressed when the air supply opening and closing member 150 moves upward according to the air supply because the guide member 160 of the upper portion is substantially fixed. The air supply hole 114 is closed by replacing the pore opening and closing member 150.

On the other hand, the opening and closing member return means 170 as described above may be a sponge rubber in the form of a tube having a constant elastic force and a restoring force as shown in Figures 1 to 4, as shown in Figure 5 opening and closing member return means 170 may be formed of a coil spring structure.

The support member 180 is to support the upper surface of the guide member 160 to fix its position. The support member 180 is provided on the lower surface of the cover member 120 at a position relative to the guide member 160. Is formed to support the guide member 160 to be located inside the air blowing pipe (130).

The support member 180 configured as described above supports (presses) the upper surface of the guide member 160 by coupling the cover member 120 to the diffuser member 110 so that the position of the guide member 160 is an air blowing pipe. It may be located inside the upper portion of the 130.

The waste water treatment air diffuser 100 according to the present invention configured as described above has the air blowing pipe 130 with the opening and closing member returning means 170 fitted to the shaft 152 of the air supply opening and closing member 150. It is installed on the inner side, the assembly is made by coupling the cover member 120 to the diffuser member 110 in a state where the guide member 160 is fitted to the shaft 152 on the top of the opening and closing member return means 170. When the fasteners 112 of the air diffuser 100 assembled as described above are connected to the air supply pipe 10, the installation of the air diffuser 100 is completed.

As described above, according to the present invention, when the air supply is blocked, the closing of the air supply hole 114 can be more reliably prevented to prevent backflow of the wastewater, and the air ejected through the air guide rib 140 in the spiral direction. By guiding and causing vortex to form smaller bubbles can improve the solubility of the air.

The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

As described above, according to the present invention, when the supply of air supplied from the air supply pipe is cut off, the supply air is immediately closed through the restoring force of the opening / closing member returning means, so that the backflow of waste water into the air supply pipe is not generated. have.

Another effect of the present invention is to allow the flow of air supplied into the air diffuser member through the air supply hole to flow in the direction of the inclined plane of the inner peripheral surface of the air diffuser member as well as upward, while flowing in a spiral direction through the air guide ribs In this way, the energy generated by the rotational vortex of the air can be broken more finely to increase the oxygen transfer efficiency inside the aeration tank.

Furthermore, the present invention allows the flow of air supplied into the air diffuser member through the air supply hole in addition to the above-described effects to flow upwardly as well as the inclined surface direction of the inner peripheral surface of the air diffuser member, while spirally passing through the air guide rib. By allowing it to flow, the air introduced into the diffuser member is rotated and discharged in a helical direction so that the air pressure is strongly injected, so that it can be evenly distributed in the aeration tank.

Claims (7)

A funnel-shaped diffuser member having an air supply air inlet from the air supply pipe and a bubble discharge groove for discharging bubbles, a bubble discharge groove associated with the bubble discharge groove of the air diffuser member, and a cover member having a plurality of through holes. In the diffuser made of The air is formed in the form of a pipe that is upwardly opened on the outer periphery of the air supply hole of the inner bottom of the air diffuser member, the inside and the outside of the air blowing through the plurality of air blowing holes for ejecting the air introduced through the air supply in the lateral direction tube; An air guide rib formed on an inner circumferential surface of the air dissipation member on an inner circumferential surface of the air ejection tube and extending in a helical direction at equal intervals to guide air ejected from the air ejection hole in a helical direction; An air supply opening / closing member installed to be able to flow up and down inside the air blowing pipe to open and close the air supply hole when air is supplied and blocked; An opening member guide hole through which an upper end of the air supply opening / closing member is guided and formed so as to guide in an up and down vertical direction when the air supply opening and closing member flows; Opening and closing member returning means fitted on an outer circumferential surface of the air supply opening and closing member, the force of which acts in a direction in which the air supply opening and closing member is normally returned; And And a support member formed on a lower surface of the cover member at a position relative to the guide member to support the guide member so as to be positioned inside the air blowing pipe. The air dissipation device for wastewater treatment according to claim 1, wherein the air guide rib is formed between each of the air ejection holes formed in the lateral direction of the air ejection pipe. According to claim 1, The guide member for guiding the air supply opening and closing member in the up and down assembled direction is formed in the center on the outer periphery of the opening and closing member guide hole and the opening and closing member guide hole through which the air supply opening and closing member is guided through It is provided with a plurality of air blowing holes for ejecting the air upwards from the air supply pipe via the air ejection pipe upward, but through the opening and closing member guide hole in the upper end of the air supply opening and closing member fitted state Discharge device for waste water treatment, characterized in that coupled. According to claim 1, wherein the air supply opening and closing member is a shaft of a predetermined size; A support piece for supporting the opening / closing member return means on a lower outer peripheral surface of the shaft; And Dispersion apparatus for sewage and wastewater treatment, characterized in that the sealing ring is fitted on the shaft outer peripheral surface of the lower side of the support piece to seal the air supply when the air supply hole is closed. The air supply opening and closing of claim 1, wherein the opening and closing member returning means is fitted to an outer circumferential surface of the air supply opening and closing member between the lower end of the air supply opening and closing member and the guide member, and the acting force is a direction for closing the air supply hole. An apparatus for treating sewage and wastewater, which acts in a home position direction of the member. The apparatus for treating waste water treatment according to any one of claims 1 to 5, wherein the opening / closing member return means is a sponge-type sponge rubber having a constant elastic force and a restoring force. The diffuser device for wastewater treatment according to any one of claims 1 to 5, wherein said opening / closing member return means is a coil spring.