KR100850162B1 - Floating matter exclusion device of sewage disposal tank - Google Patents

Abstract

An apparatus for removing floating matters of a sewage disposal tank is provided to transfer and collect scum on the surface of sewage by facing the blade in the downward direction after installing a blade on a siphon type sludge collector such that the blade moves together with the sludge collector, and to separately discharge the scum smoothly while moving the blade along the sludge collector by facing the blade in the upward direction. In a final settling basin(100) comprising a supernatant discharge channel(110) installed from an intermediate part of the settling basin to a rear side thereof to separate solids and liquid from a mixed solution discharged from a bioreactor, and a sludge collector(200) moved forward and backward to remove sludge settled on a bottom part of the settling basin, the sludge collector having siphon conduits for sucking sludge, an apparatus for removing floating matters of a sewage disposal tank comprises: operating rods(220) rotatably installed on rotary shaft parts(210) disposed in an equal distance on a bottom part of the sludge collector; a blade(240) mounted on a mount(230) connected to lower parts of the operating rods to transfer and collect scum on the surface of sewage; a pulling unit(300) for pulling the lower parts of the operating rods to face the blade in the upward direction; and a scum discharge path(400) for separately discharging the scum collected by the blade.

Description

Floating matter exclusion device of sewage disposal tank

The present invention relates to an apparatus for treating sewage in a sewage treatment tank, and more specifically, a mixed liquid flowing out of a bioreactor is separated and the supernatant is discharged through a discharge channel installed in a sedimentation basin, and the precipitated sludge is collected in a siphon type sludge collector. In the final sedimentation basin, which is configured to be removed, the blades installed in the siphon type sludge collector up and down and moved together are transported down to one side when collecting and collecting the scum on the surface of the sewage. The collected scum is related to a float treatment apparatus of a sewage treatment tank to be separated and discharged to a scum discharge furnace.

In general, sewage is a general term for wastewater generated in daily life and consists of sewage and rainwater. Sewage is a collection of household sewage from homes, drainage from factories and workplaces, groundwater, etc. Rainwater is water collected through drains such as roads.

Sewage treatment for the treatment of such sewage is to remove pollutants contained in the sewage, and it is classified into primary treatment, secondary treatment, tertiary treatment and advanced treatment according to the treatment method.

 Primary treatment is a method of physically removing suspended solids and sedimentary substances in the sewage treatment system, and screening and sedimentation facilities are used. This usually includes processes from sewage treatment plants to initial settler.

 In secondary treatment, chemical and biological treatment techniques are employed to create conditions that facilitate biological treatment or to treat organic matter.

 Tertiary treatment is a technique for treating nitrogen (N) and phosphorus (P), which are eutrophic agents, and chemical and biological treatment technologies are being introduced.

Advanced treatment technology uses physical, chemical and biological treatment techniques to improve the quality of the treated water. Advanced treatment objectives are being introduced to secure public water in clean areas or to reuse treated water.

 Usually, municipal sewage treatment mainly adopts biological secondary treatment, which filters influent sewage by screening and removes sand or minerals with a particle diameter of 0.2 mm or more from the sedimentation basin.

 Initially, the sedimentation basin is a facility that removes suspended solids by gravity settling. Its purpose is to reduce the load on biological treatment processes, reduce the capacity of subsequent treatment facilities, and stably reduce operating costs.

 In the aeration tank, the first settling effluent is discarded with microorganisms, so that organic matter is decomposed and removed by metabolism of microorganisms.

 Microorganisms and sewage are separated into solids and liquids in the final sedimentation basin and the supernatant is discharged. The sediment is returned to some aeration tanks and the remainder is treated through sludge treatment facilities.

The final sedimentation site where the sewage treated supernatant is discharged in the above treatment process corresponds to the final stage of the sewage treatment, so that more complete sewage treatment is required.

This final clarifier is mainly equipped with a siphon-type sludge collector, which is equipped with a siphon conduit that sucks the sludge, and a wheel installed to move along the rails installed on both sides of the clarifier to remove the sludge that has settled at the bottom of the clarifier. In the planar view of the sedimentation basin, a discharge channel for discharging the supernatant is installed in the middle to the rear part, and the discharge channel has a plurality of protrusions and discharge grooves projecting on the surface of the sewer at equal intervals. It is intended to be released in overflow form.

In the final sedimentation basin configured as described above, since the discharge passage protrudes on the sewage sewage surface, it is difficult to install a float removal device for removing various scums floating on the sewage surface.

Therefore, in the related art, water is sprayed in the direction of the sewage surface from the upper side of the inlet of the final sedimentation basin into which the mixed liquid flowing out of the bioreactor is introduced to block the inflow of scum, and also by spraying water to disintegrate and settle the scum. Although the scum is not properly removed, the scum is discharged to the supernatant and the sewage treatment efficiency is lowered.

The present invention is to solve this problem, the mixed solution is discharged from the bioreactor, the liquid is separated and the supernatant is discharged through the discharge channel installed in the sedimentation basin, the final sludge is composed of the configuration to remove by the siphon type sludge collector In the sedimentation basin, the blades are installed in the siphon type sludge collector to move together, but the blades are installed up and down, and the blades are downward when transporting and collecting and discharging scum on the surface of the sewage, and in the position where the scum is not discharged It is to provide a floating treatment apparatus of the sewage treatment tank to be able to facilitate the action of separating and discharging scum while moving along the sludge collector without being affected by the discharged water protruding from the surface of the sewage.

The sludge collector of the sewage treatment tank of the present invention is a sludge collector equipped with a siphon conduit for collecting sludge and a supernatant effluent which is separated from the bioreactor by the solid and liquid separation and is installed from the middle of the sedimentation basin to the rear. In the final sedimentation basin consisting of a sludge that sinks to the bottom of the sedimentation basin while moving to the front and rear, the operating rod rotatably installed on the rotating shaft disposed at equal intervals in the lower part of the sludge collector, and the lower part of the operation rod A blade mounted on a mount connected to the sewage to transfer and collect the scum on the surface of the sewage, a pulling means for pulling the lower portion of the working rod to raise the blade, and separating the scum collected by the blade. Characterized in that the float treatment apparatus of the sewage treatment tank is provided with a scum discharge passage.

As described above, the sewage treatment apparatus of the sewage treatment tank according to the present invention is a sludge collector installed at the sedimentation basin in the final sedimentation basin consisting of a discharge water passage and a settling sludge which allows the supernatant to overflow, and the siphon type sludge collector is removed. In the position that the blade is mounted on the blade is moved up and down by the operation rod, the blade moves downward along the sludge collector and the blade is moved downward to collect and separate the scum on the surface of sewage. In this position, the scum is not discharged, and the blade is upwardly contacted with the discharge water path protruding from the surface of the sewage so that it moves smoothly along the sludge collector. Can greatly improve It works.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

Suspension treatment apparatus of the sewage treatment tank of the present invention, the mixed liquid flowed out from the bioreactor (not shown), the liquid is separated and the supernatant water in the form of overflow through the supernatant discharge effluent 110 is installed from the middle of the sedimentation basin to the rear In the final sedimentation basin 100, which is discharged, the sludge collector 200 having a siphon conduit 201 for suctioning the sludge moves forward and backward to remove the sludge that has settled on the bottom of the sedimentation basin. The operating rod 220 rotatably installed on the rotary shaft portion 210 disposed at equal intervals on the lower portion thereof, and the mounting rod 230 connected to the lower portion of the operating rod 220 to be mounted on the surface of the sewage. Separating the scum collected by the blade 240 to transfer the scum, the pulling means 300 to pull the lower portion of the operating rod 220 to raise the blade 240, and the blade 240 Processing The scum discharge path 400 is characterized in that it is provided.

The final sedimentation basin 100 is a siphon conduit 201 for suctioning the sludge, as is known, the wheel is installed to move along the rail 130 is installed on both sides of the sedimentation basin 100, the sedimentation basin 100 Siphon-type sludge collector 200 for separating and discharging the sludge settled on the bottom of the sedimentation basin to the discharge unit 120 protruding in the sedimentation basin 100 is installed and the sludge collector 200 is moved. Discharge waterway 130 is installed in the upper part from the middle portion in the longitudinal direction can be discharged, the discharge channel 130 is formed with a plurality of protrusions and discharge grooves protruding on the surface of the sewage at equal intervals The supernatant is discharged in the form of an overflow.

The operating rod 220 and the mounting bracket 230 are connected to the spring 231 to allow the mounting bracket 230 to flow back and forth, and the blade 240 formed of an elastic material such as rubber in the mounting bracket 230. And the spring 231 has an installation angle of the blade 240 when the scum collected and transported by the blade 240 is pushed up along the inclined surface 402 of the scum discharge path 400. The function is to gently bend to reduce the contact resistance of the blade 240.

The mounting brackets 230 on which the blades 240 are mounted are installed in each of the sludge collectors 200 on both sides of the sludge collector 200, which is discharged to discharge the sludge to the sedimentation basin 100 as shown in the drawing. Considering that the 120 is disposed to protrude in the center, the blades 240 operate smoothly on both sides of the discharge part 120. The blade 240 has a discharge part 120 for discharging sludge. According to the center and left, right or various arrangements, at least one is installed and used correspondingly.

The pulling means 300, the winding roller 310 driven by the motor 312 is installed on the front of the sludge collector 200 and the pulling line 311 wound on the winding roller 310 is an operation rod ( The blade 240 is connected to the lower portion of the mounting unit 230 is connected to the operating rod 220 by a means for pulling the operating rod 220 to rotate forward with the axis of rotation (210) as the axis of rotation (220) Can be raised from the surface of the sewage.

In addition, in another embodiment of the pulling means 300, the cylinder 320 is installed on the front of the sludge collector 200 and the piston rod 321 of the cylinder 320 is the lower portion of the operation rod 220 The blade mounted to the mounting bracket 230 is connected to the operating rod 220 by a means for pulling the operating rod 220 to rotate forward by the rotation shaft portion 210 to the axis of the action of the cylinder 320 is connected to the It goes without saying that 240 can also be raised from the surface of the sewage.

In addition, the pull means 300, the blade 240 is moved while the blade 240 is moved along the sludge collector 200 from the front start of the discharge passage 110 installed to protrude onto the surface of the sewage. The scum on the surface of the sewage is collected to one side by the blade 240, and the collected scum is separated and discharged to the scum discharge path 400 at the inlet 101 of the sedimentation basin 100. At the point where the sludge collector 200 is moved backward along the sludge collector 200, the pullback of the operation rod 220 is returned from the point of returning the rear of the discharge channel 110 back to the beginning of the front of the discharge channel 110. Sensing is installed in the inlet 101 of the sedimentation basin 100 and the front start of the discharge channel 110 so that the blade 240 is made to be up to the height of the sewage surface and the discharge channel 110 does not contact Sensor (not shown) To be the operation by the signal transmitted by, the sensor is a contact sensor and a photo sensor with a conventional position sensing and the like are used.

In order to facilitate the forward rotation of the operation rod 220 by the pulling means 300 in the above state as shown in the drawing the operating rod 220 at an inclined angle forward blade 240 in the upright state sewage surface It is preferable to be configured to be in contact with the to facilitate the pulling action of the operating rod 220 in the inclined direction.

The scum discharge path 400 is formed of a concave collection groove 401 is provided with an upper end 403 on the upper side higher than the sewage surface contained in the sedimentation basin 100 and the rear end of the upper end 403 of the collection groove 401 is rear The inclined surface 402 is formed to be locked to the lower surface of the sewage so as to be inclined downward so that the blade 240 is pushed up to the scum to be contained in the collecting groove 401, so that the separate scum discharge of the scum can be made, Such scum discharge path 400 is preferably rolled over the inlet 101 of the sedimentation basin 100.

As described above, in the final settling tank 100 according to the present invention, the mixed liquid flowing out of the bioreactor is separated into solids, and the supernatant is discharged in an overflow form through the supernatant discharge channel 110 installed over the rear portion in the middle of the settling basin. The sludge collected in the bottom of the sedimentation basin is removed by the sludge collector 200 provided with the siphon conduit 201 that sucks the sludge.

And the float treatment apparatus of the sewage treatment tank of the present invention, while the sludge collector 200 is moved in the process of removing the sludge, while moving along the sludge collector 200, the surface of the sewage by the blades 240, up and down In addition to allowing the scum to be collected to one side, the collected scum is to be separated and discharged to the scum discharge furnace 400 to greatly improve the sewage treatment efficiency.

That is, in the present invention, the blade 240 mounted on the mounting platform 230 connected to the operation rod 220 rotatably installed at the lower portion of the sludge collector 200 is upward and downward depending on the position of transporting the scum. Along with the sludge collector 200 is moved to the front and rear of the sedimentation basin 100.

At this time, the siphon-type sludge collector 200 separates and discharges the sludge settled on the bottom of the sedimentation basin to the discharge unit 120, and the blade 240 is installed to protrude onto the surface of the sewage while the sludge collector 200 moves forward. When reaching the front start of the discharge channel 110, the operation rod 220 is rotated downward by the pulling means 300 to move the sludge collector 200 in a downward state to the blade 240 in contact with the surface of the sewage. Accordingly, the scum on the surface of the sewage is transported and collected to the front of the inlet 101 of the sedimentation basin 100 while moving forward.

The scum collected and transported to the inlet portion of the sedimentation basin 100 is pushed up to the inclined surface 402 at the rear end of the scum discharge path 400 by the blade 240, thereby collecting the scum discharge groove 400. Separated discharge is made through the scum discharge path 400 as a means to be contained in the (401).

As described above, the sludge collector 200 that is reciprocated forward and backward in the sedimentation basin 100 is moved forward with the sludge collector 200 when the sludge collector 200 is moved forward from the front start point of the supernatant discharge channel 110 while removing sludge. The scum on the surface of the sewage is collected and transported forward by the moved and downward blade 240 to separate and discharge the scum collector from the inlet 100 to the scum discharge path 400, and then the sludge collector 200 is moved backward. At this time, the blade 240 is moved upward by the pulling means 300 to move backward along the sludge collector 200 without being in contact with the discharge passage 110 installed to protrude onto the surface of the sewage and the surface of the sewage. .

As such, the blade 240 moved backward along the sludge collector 200 returns to the rear of the discharge channel 110 and sludges with the blade 240 upward until the front starting point of the discharge channel 110 is reached. At the front start of the discharge passage 110 corresponding to the position where the scum is continuously moved along the collector 200 and collects the scum, the blade 240 is lowered by the pulling means 300 so that the sludge collector 200 Moving forward along the sewage on the surface of the sewage to collect and discharge the continuous action.

In other words, the present invention is the sludge collector 200 is installed in the sedimentation basin 100, the mounting blade 230 is mounted on the blade 240 is configured to be up and down by the operating rod 220, the sludge collector ( In the position where the blade 240 moves along the 200 and collects and separates the scum on the surface of the sewage, the blade 240 moves downward to smoothly discharge the scum and do not discharge the scum. In the blade 240 is upwardly moved smoothly along the sludge collector 200 without hitting the discharge channel 110 and the like.

In the above, the present invention has been described with reference to the above embodiments, but various modifications are possible within the technical scope of the present invention.

1 is a plan view of the final settler showing the overall installation state of the present invention

Figure 2 is a front view showing the configuration of the present invention

Figure 3 is an enlarged front view of the main portion of the present invention

Figure 4 is a block diagram showing a scum transfer collection by the blade of the present invention

Figure 5 is a block diagram showing the separation of the scum by the blade of the present invention

6 (a) to (d) is a block diagram showing the discharge process of the scum by the blade in the scum discharge path portion of the present invention.

7 is a configuration diagram showing a state in which the blade moved along the sludge collector of the present invention is upwardly upward of the discharge channel by the pulling means.

8 is a configuration diagram showing a state in which the blade is upwardly upward of the discharge passage by the pulling means consisting of a cylinder in the configuration of FIG.

* Explanation of symbols for main parts of the drawings

100: sedimentation basin 101: inlet

110: discharge passage 120: discharge part

130: rail 200: sludge collector

201: conduit 210: rotating shaft portion

220: operating rod 230: mount

231: spring 240: blade

300: pulling means 310: winding roller

311: pull string 312: motor

320: cylinder 322: piston rod

400: Scum discharge furnace 401: collection home

402: slope 403: upper portion

Claims (5)

The sludge collector 200 having the supernatant effluent channel 110 installed in the middle part of the sedimentation basin and the siphon conduit 201 suctioning the sludge is separated by the solid and liquid separated from the bioreactor. In the final sedimentation basin 100 to remove the sludge settled to the bottom of the sedimentation basin while moving backwards, An actuating rod 220 rotatably installed on the rotary shaft 210 disposed at equal intervals below the sludge collector 200; A blade 240 mounted on the mounting table 230 connected to the lower portion of the operation rod 220 to collect and collect the scum on the surface of the sewage; Pulling means 300 to pull the lower portion of the operating rod 220 to raise the blade 240, Floating material treatment device of the sewage treatment tank characterized in that it comprises a scum discharge path 400 for separating the scum collected by the blade 240 The method of claim 1, The operation rod 220 and the mounting bracket 230 are connected to the spring 231 to allow the mounting bracket 230 to flow back and forth, and the blade 240 formed of an elastic material is mounted on the mounting bracket 230. Floating water treatment device of sewage treatment tank characterized in that the configuration The method of claim 1, The pulling means 300, A winding roller 310 driven by a motor 312 is installed on the front side of the sludge collector 200, and a pulling line 311 wound around the winding roller 310 is connected to the lower portion of the operation rod 220 to rotate the shaft portion. Pulling the operation rod 220 to rotate forward with the axis (210) as the axis of the sewage treatment tank float treatment device, characterized in that the blade 240 mounted on the mounting 230 can be raised from the surface of the sewage The method of claim 1, The pulling means 300, The cylinder 320 is installed on the front of the sludge collector 200, and the piston rod 321 of the cylinder 320 is connected to the lower portion of the working rod 220 to rotate the rotating shaft portion 210 by the action of the cylinder 320. Pulling the operating rod 220 to rotate in the forward direction to the axis of the sewage treatment tank float treatment device, characterized in that the blade 240 mounted on the mounting 230 can be raised from the surface of the sewage The method of claim 1, The scum discharge path 400 is formed of a concave collection groove 401 is provided with an upper end 403 on the upper side higher than the sewage surface contained in the sedimentation basin 100 and the rear end of the upper end 403 of the collection groove 401 is rear Slope treatment apparatus of the sewage treatment tank characterized in that the inclined surface 402 is formed to be inclined downward to be submerged in the lower surface of the sewage

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