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JP4789969B2 - Mud structure of sedimentation basin - Google Patents
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JP4789969B2 - Mud structure of sedimentation basin - Google Patents

Mud structure of sedimentation basin Download PDF

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JP4789969B2
JP4789969B2 JP2008113245A JP2008113245A JP4789969B2 JP 4789969 B2 JP4789969 B2 JP 4789969B2 JP 2008113245 A JP2008113245 A JP 2008113245A JP 2008113245 A JP2008113245 A JP 2008113245A JP 4789969 B2 JP4789969 B2 JP 4789969B2
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sludge
mud
pit
sedimentation basin
scraper
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JP2008207185A (en
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孝義 西田
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Maezawa Industries Inc
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Maezawa Industries Inc
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Description

本発明は、沈殿池の排泥構造に関し、詳しくは、池底に沈殿した汚泥を掻寄機によって排泥ピットに掻き寄せ、排泥ピット底部の排泥口から抜取る沈殿池の排泥構造に関する。   TECHNICAL FIELD The present invention relates to a sedimentation pond drainage structure, and more particularly, a sedimentation pond drainage structure in which sludge settled on a pond bottom is scraped to a drainage pit by a scraper and extracted from a drainage port at the bottom of the drainage pit. About.

図3に断面図で示すように、浄水処理設備に設けられている沈殿池10では、池底に沈殿した汚泥(スラッジ)11を排出するための排泥手段として、池底の一側や中央部に所定深さの排泥ピット(ホッパー)12を設けるとともに、該排泥ピット12に向けて沈殿汚泥を掻き寄せる掻寄機13を設置し、掻寄機13を作動させて汚泥11を排泥ピット12に掻き寄せ、排泥ピット12に所定量の汚泥11が集泥されて溜まったときに排泥弁14を開き、下向きに開口した排泥口15から自然流下あるいはポンプで汚泥を排泥池に送るようにしている。 As shown in a cross-sectional view in FIG. 3 , in the sedimentation basin 10 provided in the water purification treatment facility, one side or the center of the pond bottom is used as a mud draining means for discharging sludge (sludge) 11 deposited on the pond bottom. A drainage pit (hopper) 12 having a predetermined depth is provided in the section, and a scraper 13 for scraping the precipitated sludge toward the drainage pit 12 is installed, and the scraper 13 is operated to discharge the sludge 11. The mud pit 12 is scraped, and when a predetermined amount of sludge 11 is collected and collected in the mud pit 12, the mud valve 14 is opened, and the sludge is discharged from the mud port 15 opened downward by natural flow or by a pump. I send it to the mud pond.

このような沈殿池10における排泥操作は、掻寄機13の運転と排泥ピット12からの排泥とを特に関連させて行っているわけではなく、掻寄機13は連続的あるいは間欠的に作動させており、排泥弁14は排泥ピット12が汚泥で満たされたときに開くようにしていた。   The drainage operation in the sedimentation basin 10 is not performed by particularly relating the operation of the scraping machine 13 and the drainage mud from the drainage pit 12, and the scraping machine 13 is continuous or intermittent. The mud valve 14 was opened when the mud pit 12 was filled with sludge.

ところが、このような排泥ピット12からの排泥操作において、排泥ピット12内に溜まった汚泥11内に水路(みずみち)16が形成されてしまうことがある。この水路16が形成されると、水路16から汚泥11とともに大量の水が流出するため、排泥池に送る汚泥が希釈されて0.5%程度の濃度になってしまう。したがって、排泥池の容積を大きくしなければならず、汚泥の濃縮にもコストがかかっていた。さらに、水路16が一旦形成されると、次に排泥する際には、その水路16の部分に集泥された汚泥しか排泥できず、排泥ピット12の容量効率が著しく悪化することになる。   However, in such a sludge operation from the sludge pit 12, a water channel 16 may be formed in the sludge 11 accumulated in the sludge pit 12. When this water channel 16 is formed, a large amount of water flows out from the water channel 16 together with the sludge 11, so that the sludge sent to the waste mud pond is diluted to a concentration of about 0.5%. Therefore, the volume of the sludge pond has to be increased, and the concentration of sludge has also been costly. Furthermore, once the water channel 16 is formed, when the mud is discharged next, only the sludge collected in the portion of the water channel 16 can be discharged, and the capacity efficiency of the mud pit 12 is significantly deteriorated. Become.

このため、排泥ピット12部分に圧力水管を設置し、圧力水を噴出することにより排泥ピット12内の汚泥11を撹拌したり、排泥ピット壁面に付着した汚泥11を底部に滑落させたりすることも行われているが、多大なエネルギーが必要であり、汚泥11の撹拌等を効果的に行おうとすると、汚泥11が舞い上がって処理水の水質に悪影響を与えるおそれがあった。また、水路16の影響をできるだけ少なくするため、排泥口15の設置間隔を狭めることも行われているが、多数の排泥弁14が必要であり、設備コストや運転コストに大きな影響がでる。   For this reason, a pressure water pipe is installed in the portion of the mud pit 12 and the sludge 11 in the mud pit 12 is agitated by ejecting pressure water, or the sludge 11 attached to the wall of the mud pit is slid down to the bottom. However, a large amount of energy is required, and if the sludge 11 is stirred effectively, the sludge 11 may rise and adversely affect the quality of the treated water. Further, in order to reduce the influence of the water channel 16 as much as possible, the installation interval of the mud outlets 15 is reduced, but a large number of the mud valves 14 are necessary, which greatly affects the equipment cost and the operating cost. .

そこで本発明は、掻寄機により排泥ピットに集泥された汚泥を効率よく高濃度で排出することができる沈殿池の排泥構造を提供することを目的としている。   Then, this invention aims at providing the mud structure of a sedimentation basin which can discharge | emit the sludge collected in the mud pit by the scraper efficiently and with high concentration.

上記目的を達成するため、本発明の沈殿池における排泥構造は、沈殿した汚泥が掻き寄せられる排泥ピットに多孔板からなる蓋板を設置し、沈殿した汚泥を前記排泥ピットに向けて掻き寄せて前記蓋板上に集泥する掻寄機を設けるとともに、前記蓋板上に集泥された汚泥を撹拌せしめるために、前記掻寄機を前記蓋板の上部まで延設したことを特徴としている。さらに、前記掻寄機は、リンクベルト式であることを特徴としているTo achieve the above object, the exhaust mud structures that put the sedimentation tank of the present invention, a cover plate made of a porous plate in the waste sludge pit precipitated sludge is scraped established, the precipitated sludge to the waste sludge pit In addition to providing a scraping machine that gathers and collects mud on the lid plate, the scraper was extended to the top of the lid plate to stir the sludge collected on the lid plate. It is characterized by that. Further, the scraper is a link belt type .

本発明の沈殿池の排泥構造によれば、掻寄機で集泥ピットに集泥した汚泥を効率よく高濃度で排出することができる。   According to the mud structure of a sedimentation basin of the present invention, sludge collected in a mud pit by a scraper can be efficiently discharged at a high concentration.

図1及び図2は、本発明の排泥構造の一形態例を示すもので、図1は断面正面図、図2は断面側面図である。沈殿池20は、前述の従来の沈殿池と同様に、池底の一側に排泥ピット21を設けるとともに、この排泥ピット21に向けて汚泥22を掻き寄せる掻寄機23を設け、掻寄機23で排泥ピット21に集泥した汚泥22を排泥ピット21の底部に設けた排泥口24から排泥弁25を介して抜き取るように形成されている。   1 and 2 show an embodiment of the mud structure of the present invention, FIG. 1 is a sectional front view, and FIG. 2 is a sectional side view. The sedimentation basin 20 is provided with a drainage pit 21 on one side of the pond bottom, and a scraper 23 that scrapes the sludge 22 toward the drainage pit 21 in the same manner as the conventional sedimentation basin described above. The sludge 22 collected in the waste mud pit 21 by the machine 23 is formed so as to be extracted from the waste mud opening 24 provided at the bottom of the exhaust mud pit 21 through the waste mud valve 25.

排泥ピット21の上部開口は、パンチングメタルのような多孔板からなる蓋板26で覆われており、掻寄機23で掻き寄せられた汚泥22は、蓋板26の上に集泥された状態になる。排泥弁25を開くと、蓋板26上の汚泥22は、蓋板26の小通孔を通って排泥ピット21内に流下し、排泥口24から抜取られる。このとき、汚泥22が小通孔から相当の速度で排泥ピット21内に噴出する状態になるので、排泥ピット21内に堆積したり、壁面に付着したりすることがなく、排泥口24から汚泥22を円滑に抜取ることができる。   The upper opening of the mud pit 21 is covered with a cover plate 26 made of a perforated plate such as punching metal, and the sludge 22 raked by the scraper 23 is collected on the cover plate 26. It becomes a state. When the mud valve 25 is opened, the sludge 22 on the lid plate 26 flows through the small hole in the lid plate 26 into the mud pit 21 and is extracted from the mud port 24. At this time, the sludge 22 is ejected from the small through hole into the drainage pit 21 at a considerable speed, so that it does not accumulate in the drainage pit 21 or adhere to the wall surface. The sludge 22 can be extracted smoothly from 24.

さらに、蓋板26の多数の通孔を通して汚泥22を排泥ピット21内に導くので、前述のような水路が形成され難く、高濃度で汚泥22を抜取ることができる。また、汚泥22の吸い込みが蓋板26の全体に分散し、蓋板全体から汚泥22を吸い込むような状態になるので、一つの排泥口24の受持幅を大きくすることができ、排泥口24及び排泥弁25の設置数を低減することができる。   Furthermore, since the sludge 22 is guided into the discharge mud pit 21 through a large number of through holes in the lid plate 26, it is difficult to form the water channel as described above, and the sludge 22 can be extracted at a high concentration. Moreover, since the suction of the sludge 22 is dispersed throughout the cover plate 26 and the sludge 22 is sucked from the entire cover plate, the holding width of one drainage port 24 can be increased, and the sludge is discharged. It is possible to reduce the number of ports 24 and mud valves 25 installed.

加えて、本形態例に示すように、掻寄機23を蓋板26の上部にまで延設しておくことにより、蓋板26上に集泥された汚泥22を撹拌することができるので、排泥中の水路の発生を確実に防止することができる。   In addition, as shown in the present embodiment, the sludge 22 collected on the cover plate 26 can be stirred by extending the scraper 23 to the top of the cover plate 26, The generation of water channels in the mud can be reliably prevented.

なお、本形態例では、掻寄機23としてリンクベルト式を例示したが、水中牽引式や回転式等を使用することもできる。また、蓋板26における通孔の径や設置間隔は、沈殿池における汚泥の性状に応じて適宜に選定すればよい。通常は、20mm程度の丸孔あるいは角孔を、150mm間隔で設けたものを用いることができる。なお、排泥口24は、従来と同様に排泥ピット21の底部に向けて開口させてもよい。   In the present embodiment, the link belt type is exemplified as the scraper 23, but an underwater traction type, a rotary type, or the like can also be used. Moreover, what is necessary is just to select the diameter of the through-hole in the cover plate 26, and an installation space | interval suitably according to the property of the sludge in a sedimentation basin. Usually, round holes or square holes of about 20 mm provided at intervals of 150 mm can be used. In addition, you may open the mud discharge port 24 toward the bottom part of the mud pit 21, like the past.

本発明の排泥構造の一例を示す断面正面図である。It is a section front view showing an example of the mud structure of the present invention. 同じく断面側面図である。It is a sectional side view similarly. 従来の沈殿池の一例を示す断面図である It is sectional drawing which shows an example of the conventional sedimentation basin .

符号の説明Explanation of symbols

20…沈殿池、21…排泥ピット、22…汚泥、23…掻寄機、24…排泥口、25…排泥弁、26…蓋板   DESCRIPTION OF SYMBOLS 20 ... Sedimentation basin, 21 ... Waste mud pit, 22 ... Sludge, 23 ... Scratching machine, 24 ... Waste mud outlet, 25 ... Waste mud valve, 26 ... Cover plate

Claims (2)

沈殿した汚泥が掻き寄せられる排泥ピットに多孔板からなる蓋板を設置し、沈殿した汚泥を前記排泥ピットに向けて掻き寄せて前記蓋板上に集泥する掻寄機を設けるとともに、前記蓋板上に集泥された汚泥を撹拌せしめるために、前記掻寄機を前記蓋板の上部まで延設したことを特徴とする沈殿池の排泥構造。 A lid plate made of a perforated plate is installed in the waste mud pit where the precipitated sludge is scraped, and a scraping machine for collecting the collected sludge toward the waste mud pit and collecting the mud on the lid plate is provided. A mud structure for a sedimentation basin , wherein the scraper is extended to an upper part of the lid plate in order to stir the sludge collected on the lid plate . 前記掻寄機は、リンクベルト式であることを特徴とする請求項1記載の沈殿池の排泥構造 2. The mud structure of a sedimentation basin according to claim 1, wherein the scraper is a link belt type .
JP2008113245A 2008-04-23 2008-04-23 Mud structure of sedimentation basin Expired - Lifetime JP4789969B2 (en)

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CN110755893A (en) * 2019-10-31 2020-02-07 上海水业设计工程有限公司 A short-stroke sludge discharge system for a multi-layer sedimentation tank
CN118519343B (en) * 2024-05-11 2024-11-12 上海市政工程设计研究总院(集团)有限公司 A control method and system for a new type of intelligent low-carbon double-layer sedimentation tank

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