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JPH0739680B2 - Regional integrated water usage - Google Patents
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JPH0739680B2 - Regional integrated water usage - Google Patents

Regional integrated water usage

Info

Publication number
JPH0739680B2
JPH0739680B2 JP1018650A JP1865089A JPH0739680B2 JP H0739680 B2 JPH0739680 B2 JP H0739680B2 JP 1018650 A JP1018650 A JP 1018650A JP 1865089 A JP1865089 A JP 1865089A JP H0739680 B2 JPH0739680 B2 JP H0739680B2
Authority
JP
Japan
Prior art keywords
water
reservoir
treated
rainwater
area
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
JP1018650A
Other languages
Japanese (ja)
Other versions
JPH02197628A (en
Inventor
貞宗 北條
宣夫 坂本
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Kubota Corp
Original Assignee
Kubota Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Kubota Corp filed Critical Kubota Corp
Priority to JP1018650A priority Critical patent/JPH0739680B2/en
Publication of JPH02197628A publication Critical patent/JPH02197628A/en
Publication of JPH0739680B2 publication Critical patent/JPH0739680B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02ATECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
    • Y02A20/00Water conservation; Efficient water supply; Efficient water use
    • Y02A20/108Rainwater harvesting

Description

【発明の詳細な説明】 産業上の利用分野 本発明は、地域総合水利用方法に関する。TECHNICAL FIELD The present invention relates to a regional integrated water utilization method.

従来の技術 近年、臨海部を大規模に埋め立て広大な用地を造成し、
埋め立てられた地域に高度な都市機能を備えた未来都市
を造る計画が多く提案されている。そして、未来都市に
おいては潤いのある生活環境が求められており、その地
域に生活する人々が樹木やせせらぎに身近に接すること
ができるように親水環境を整備することが提案されてい
る。
Conventional technology In recent years, the seaside area has been reclaimed on a large scale to create a vast land,
Many plans have been proposed to build future cities with advanced urban functions in the landfilled areas. A futuristic city is required to have a rich living environment, and it has been proposed to provide a hydrophilic environment so that people living in the area can come into close contact with trees and murmuring.

発明が解決しようとする課題 しかし、上記した構成においては生活水および親水環境
を維持するための用水として多量の水を必要とするが、
新たに造成された地域であるために河川等の自然の水源
を期待することができない問題があり、既存の地域にお
いても余分な水供給能力を有していないことから他の地
域から多量の水の供給を受けることは困難であり、地域
内で使用する用水については独自に確保しなければなら
ない問題があった。
DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention However, in the above configuration, a large amount of water is required as water for maintaining domestic water and a hydrophilic environment,
Since it is a newly created area, there is a problem that natural water sources such as rivers cannot be expected, and existing areas do not have extra water supply capacity. It was difficult to receive the supply of water, and there was a problem that the water used in the area had to be secured independently.

本発明は上記課題を解決するもので、地域内で使用され
る用水を地域内において確保することができる地域総合
水利用方法を提供することを目的とする。
The present invention solves the above problems, and an object of the present invention is to provide a regional integrated water use method capable of securing water for use in the region.

課題を解決するための手段 上記課題を解決するために、本発明は、地域内に降水し
た雨水を雨水集合溝を介して貯水池に集水し、貯水池の
被処理水を水処理場で各種用途先の使用目的に応じた水
質に水処理し、この処理水を地域用水として地域内の各
用途先に供給し、各用途先において発生した下水を下水
管を介して下水処理場に導いて下水処理し、この下水処
理水を前記貯水池に送水して雨水とともに再度水処理し
て循環再利用する構成としている。
Means for Solving the Problems In order to solve the above problems, the present invention collects rainwater that has fallen in a region into a reservoir through a rainwater collecting groove, and uses the treated water of the reservoir in a water treatment plant for various applications. Water is treated to a quality suitable for the intended use, and this treated water is supplied as regional water to each intended use in the region, and the sewage generated at each intended use is guided to the sewage treatment plant via a sewer pipe. The treated sewage water is sent to the reservoir for water treatment together with rainwater for recycling and reuse.

また、地域内の低位置と高位置に設けられた一対の貯水
池のうち、低位置に設けられた下貯水池に雨水および下
水処理水を集水し、集水した被処理水を上貯水池にポン
プで揚水し、上貯水池に貯留した被処理水を水処理した
後に、地域内の各用途先に自然流下で供給する構成とし
ている。
In addition, of the pair of low and high reservoirs in the area, rainwater and sewage treated water are collected in the lower reservoir in the lower position, and the collected treated water is pumped to the upper reservoir. After the water is pumped up and the treated water stored in the upper reservoir is treated, it is supplied to each destination in the area by gravity flow.

また、上貯留池から自然流下する流水によって発電する
構成としている。
In addition, the power is generated by running water that naturally flows from the upper reservoir.

また、上貯水池と下貯水池に連通して設けられ、途中の
適当位置に投入口と取出口を形成された管路内に、投入
口から物品搬送用カプセルを投入し、管路内を流れる水
流体によって物品搬送用カプセルを取出口まで搬送し、
取出口から物品搬送用カプセル管路外に取り出す構成と
している。
In addition, the water flowing in the pipeline is loaded into the pipeline, which is connected to the upper reservoir and the lower reservoir, and has an inlet and an outlet formed at appropriate positions in the middle of the pipeline. Transports the capsule for article transportation to the outlet by fluid,
It is configured to be taken out from the take-out port to the outside of the capsule pipeline for article transportation.

作用 上記した構成により、地域内に降水した雨水が地域用水
の主水源として確保されるとともに、貯水池に一元的に
管理され、地域内の多用途先に供給される。
Action With the above configuration, the rainwater that has rained in the area is secured as the main water source for the area water, and is also centrally managed in the reservoir and supplied to the multipurpose destinations in the area.

また、処理された雨水を自然流下させることにより地域
内に人工のせせらぎを形成して良好な親水環境を創造
し、豊かな自然感覚を具現化して地域の生活者に潤いを
与える。
In addition, by letting the treated rainwater flow down naturally, artificial babbles are formed in the area to create a good hydrophilic environment, and a rich sense of nature is embodied to enrich the people in the area.

また、雨水の自然流下を利用して発電することにより、
雨水を上貯水槽に揚水するために要したエネルギーが無
駄なく有効に活用され、発電された電力を地域内の親水
環境を維持するための動力源として利用することによ
り、地域内においてエネルギーを自給自足することがで
きる。
In addition, by using the natural flow of rainwater to generate electricity,
The energy required to pump rainwater to the upper reservoir is effectively used without waste, and the generated power is used as a power source to maintain the hydrophilic environment in the area, thereby self-sufficient in the area. Can be self-sufficient.

また、水流体のエネルギーを利用して物品を搬送するこ
とにより、地域内における消費エネルギーが低減される
とともに、送水用に設けた管路が有効に活用される。
In addition, by using the energy of the water fluid to convey the article, the energy consumption in the area is reduced and the pipeline provided for water supply is effectively used.

実施例 以下本発明の一実施例を図面に基づいて説明する。第1
図において、地域1の地表部には雨水集合溝2が形成さ
れており、この雨水集合溝2は地域1の全体を網羅する
ように配設されている。そして、地域1の地表上には、
工場や商業ビルや住宅などの建造物3が建設されてお
り、各建造物3の雨水排水路4が雨水集合溝2に連通し
ている。また、雨水集合溝2は下貯水池5に連通してお
り、この下貯水池5は地域1の低位置に設けられてい
る。そして、下貯水池5は返送用パイプライン6を介し
て上貯水池7に連通しており、返送用パイプライン6の
途中にはポンプ場8が設けられている。また、上貯水池
7は地域1の高位置に設けられている。そして、上貯水
池7は自然流下路9を介して水処理場10に連通してお
り、自然流下路9の途中には発電所11が設けられてい
る。そして、水処理場10の1次処理槽12に連通して街路
樹給水路13と人工の小川14が設けられており、水処理場
10の2次処理槽15に連通して配水池16が設けられてい
る。さらに、配水池16は配水管17を介して各建造物3の
配管18に連通しており、各建造物3の下排水管19は下水
管20を介して下水処理場21に連通している。また、下水
管20の途中にはポンプ場22が設けられている。そして、
下水処理場21は下貯水池5に連通するとともに、海への
放流路23に連通している。また、下貯水池5にも放流路
24が連通している。そして、配水管17および返送用パイ
プライン6の途中の適当位置にはカプセル投入口25とカ
プセル取出口26が設けられている。また、他の地域から
供給される上水道管27が下貯水池5および各建造物3の
配管18に連通して設けられている。
Embodiment An embodiment of the present invention will be described below with reference to the drawings. First
In the figure, a rainwater collecting groove 2 is formed on the surface of the area 1, and the rainwater collecting groove 2 is arranged so as to cover the whole area 1. And on the ground surface of area 1,
Buildings 3 such as factories, commercial buildings and houses are constructed, and a rainwater drainage channel 4 of each building 3 communicates with a rainwater collecting groove 2. Further, the rainwater collecting groove 2 communicates with the lower reservoir 5, and the lower reservoir 5 is provided at a low position in the area 1. The lower reservoir 5 communicates with the upper reservoir 7 via a return pipeline 6, and a pump station 8 is provided in the middle of the return pipeline 6. The upper reservoir 7 is provided at a high position in the area 1. The upper reservoir 7 communicates with the water treatment plant 10 via the natural flow-down path 9, and a power station 11 is provided in the middle of the natural flow-down path 9. Further, a street tree water supply channel 13 and an artificial stream 14 are provided in communication with the primary treatment tank 12 of the water treatment plant 10.
A distribution reservoir 16 is provided in communication with the 10 secondary treatment tanks 15. Further, the distribution reservoir 16 communicates with a pipe 18 of each building 3 via a distribution pipe 17, and the drainage pipe 19 of each building 3 communicates with a sewage treatment plant 21 via a sewer pipe 20. . A pump station 22 is provided in the middle of the sewer pipe 20. And
The sewage treatment plant 21 communicates with the sewage reservoir 5, and also communicates with a discharge channel 23 to the sea. In addition, the lower reservoir 5 also has a discharge channel
24 are in communication. A capsule inlet 25 and a capsule outlet 26 are provided at appropriate positions along the water pipe 17 and the return pipeline 6. Further, a water supply pipe 27 supplied from another area is provided in communication with the lower reservoir 5 and the pipe 18 of each building 3.

以下、上記構成における作用について説明する。地域1
の地表に降水した雨水は雨水集合溝2を通って下貯水池
5に流入し、建造物3に降水した雨水は雨水排水路4か
ら雨水集合溝2に流入して下貯水池5に流れ込む。そし
て、下貯水池5に集水された雨水はポンプ場8から返送
用パイプライン6を通って上貯水池7にポンプアップさ
れ、自然流下で水処理場10に送られる。このとき、自然
流下する水流のエネルギーを利用して発電が行なわれ、
発電された電力は地域1の動力源として利用される。そ
して、水処理場10に送られた雨水は用途に応じた水質に
処理され、1次処理槽12から街路樹給水管13を通って樹
木に与えられるとともに、小川14に供給されてせせらぎ
を形成し、小川14を流れる1次処理水は下貯水池5に戻
される。また、2次処理槽15から配水池16に送られた2
次処理水は配水管17を通って各建造物3の配管18に供給
され、洗車や空調用冷却水などの各種用途の生活水とし
て利用される。そして、各建造物3から排出される下水
は下排水管19から下水管20に流入し、ポンプ場22から下
水処理場21に圧送され、処理された下水処理水が下貯水
池5に流入する。また、上水道管27から下貯水池5に上
水道水が水質調整用として供給される。そして、返送用
パイプライン6および配水管17においては、カプセル投
入口25から管内に投入された物品搬送用カプセルが管内
を流れる水流体によってカプセル取出口26に搬送され、
カプセル取出口26から管外に取り出される。
The operation of the above configuration will be described below. Area 1
The rainwater that has rained on the surface of the above flows into the lower reservoir 5 through the rainwater collecting groove 2, and the rainwater that has rained on the building 3 flows from the rainwater drainage channel 4 into the rainwater collecting groove 2 and flows into the lower reservoir 5. Then, the rainwater collected in the lower reservoir 5 is pumped up from the pump station 8 through the return pipeline 6 to the upper reservoir 7 and sent to the water treatment plant 10 by gravity flow. At this time, power is generated using the energy of the water flowing naturally.
The generated electric power is used as a power source for area 1. Then, the rainwater sent to the water treatment plant 10 is treated to have a water quality suitable for the purpose, is given to the trees from the primary treatment tank 12 through the street tree water supply pipe 13, and is supplied to the stream 14 to form murmuring. Then, the primary treated water flowing through the stream 14 is returned to the lower reservoir 5. In addition, 2 was sent from the secondary treatment tank 15 to the distribution reservoir 16.
The secondary treated water is supplied to the pipe 18 of each building 3 through the water pipe 17, and is used as living water for various purposes such as car wash and cooling water for air conditioning. Then, the sewage discharged from each building 3 flows into the sewage pipe 20 from the sewage drain pipe 19, is pumped from the pump station 22 to the sewage treatment plant 21, and the treated sewage treated water flows into the sewage reservoir 5. Further, tap water is supplied from the water pipe 27 to the lower reservoir 5 for water quality adjustment. Then, in the return pipeline 6 and the water distribution pipe 17, the article-conveying capsules introduced into the pipe from the capsule introduction port 25 are conveyed to the capsule outlet 26 by the water fluid flowing in the pipe,
The capsule is taken out from the capsule outlet 26.

発明の効果 以上述べたように、本発明によれば、地域内に降水した
雨水を地域用水の主水源として一元的に管理し、地域内
の多用途先に供給することができる。また、処理された
雨水を自然流下させることにより地域内に人工のせせら
ぎを形成して良好な親水環境を創造し、豊かな自然感覚
を具現化して地域の生活者に潤いを与えることができ
る。また、雨水の自然流下を利用して発電することによ
り、雨水を上貯水槽に揚水するために要したエネルギー
を無駄なく有効に活用することができ、発電された電力
を地域内の親水環境を維持するための動力源として利用
することにより、地域内においてエネルギーを自給自足
することができる。また、水流体のエネルギーを利用し
て物品を搬送することにより、地域内における消費エネ
ルギーを低減することができるとともに、送水用に設け
た管路を有効に活用することができる。
EFFECTS OF THE INVENTION As described above, according to the present invention, rainwater that has rained in a region can be centrally managed as a main water source for regional water and supplied to a versatile destination in the region. In addition, the treated rainwater is allowed to flow down naturally to form artificial babbles in the area to create a good hydrophilic environment, and to embody a rich sense of nature to moisturize the people in the area. In addition, by using the natural flow of rainwater to generate electricity, the energy required to pump rainwater to the upper reservoir can be effectively used without waste, and the generated electricity can be used in a hydrophilic environment in the region. By using it as a power source for sustaining, energy can be self-sufficient in the area. Further, by transporting the article by using the energy of the water fluid, it is possible to reduce the energy consumption in the area, and it is possible to effectively utilize the pipeline provided for water supply.

【図面の簡単な説明】[Brief description of drawings]

第1図は本発明の一実施例を示す全体構成図である。 1……地域、2……雨水集合溝、3……建造物、5……
下貯水池、7……上貯水池、8……ポンプ場、10……水
処理場、11……発電所、14……小川、17……配水管、20
……下水管、25……カプセル投入口、26……カプセル取
出口。
FIG. 1 is an overall configuration diagram showing an embodiment of the present invention. 1 ... Region, 2 ... Rainwater collection ditch, 3 ... Building, 5 ...
Lower reservoir, 7 ... Upper reservoir, 8 ... Pump station, 10 ... Water treatment plant, 11 ... Power station, 14 ... Stream, 17 ... Water pipe, 20
…… Sewage pipe, 25 …… Capsule input port, 26 …… Capsule ejection port.

Claims (4)

【特許請求の範囲】[Claims] 【請求項1】地域内に降水した雨水を雨水集合溝を介し
て貯水池に集水し、貯水池の被処理水を水処理場で各種
用途先の使用目的に応じた水質に水処理し、この処理水
を地域用水として地域内の各用途先に供給し、各用途先
において発生した下水を下水管を介して下水処理場に導
いて下水処理し、この下水処理水を前記貯水池に送水し
て雨水とともに再度水処理して循環再利用することを特
徴とする地域総合水利用方法。
1. Rainwater that has rained in the area is collected into a reservoir through a rainwater collecting groove, and the water to be treated in the reservoir is treated at a water treatment plant to a water quality suitable for the intended use of various destinations. The treated water is supplied to each destination in the area as local water, and the sewage generated at each destination is guided to a sewage treatment plant through a sewer pipe for sewage treatment, and the sewage treated water is sent to the reservoir. An integrated regional water use method characterized in that water is treated again together with rainwater and then recycled.
【請求項2】請求項1記載の地域総合水利用方法におい
て、地域内の低位置と高位置に設けられた一対の貯水池
のうち、低位置に設けられた下貯水池に雨水および下水
処理水を集水し、集水した被処理水を上貯水池にポンプ
で揚水し、上貯水池に貯留した被処理水を水処理した後
に、地域内の各用途先に自然流下で供給することを特徴
とする地域総合水利用方法。
2. The method for utilizing integrated regional water according to claim 1, wherein rainwater and treated sewage water are stored in a lower reservoir provided in a lower position of a pair of reservoirs provided in a lower position and a higher position in the area. Characterized by collecting and collecting the treated water with a pump to the upper reservoir, treating the treated water stored in the upper reservoir with water, and then supplying it to each destination in the area by gravity flow. Regional integrated water usage.
【請求項3】請求項2記載の地域総合水利用方法におい
て、上貯留池から自然流下する流水によって発電するこ
とを特徴とする地域総合水利用方法。
3. The integrated regional water use method according to claim 2, wherein power is generated by running water that naturally flows down from the upper reservoir.
【請求項4】請求項2記載の地域総合水利用方法におい
て、上貯水池と下貯水池に連通して設けられ、途中の適
当位置に投入口と取出口を形成された管路内に、投入口
から物品搬送用カプセルを投入し、管路内を流れる水流
体によって物品搬送用カプセルを取出口まで搬送し、取
出口から物品搬送用カプセル管路外に取り出すことを特
徴とする地域総合水利用方法。
4. The method according to claim 2, wherein the upper reservoir and the lower reservoir are provided in communication with each other, and an inlet and an outlet are formed at appropriate positions on the way. An integrated regional water use method characterized in that an article-transporting capsule is introduced from the container, the article-transporting capsule is transported to the outlet by the water fluid flowing in the pipeline, and is taken out from the outlet to the outside of the article-transporting capsule pipeline. .
JP1018650A 1989-01-26 1989-01-26 Regional integrated water usage Expired - Lifetime JPH0739680B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP1018650A JPH0739680B2 (en) 1989-01-26 1989-01-26 Regional integrated water usage

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP1018650A JPH0739680B2 (en) 1989-01-26 1989-01-26 Regional integrated water usage

Publications (2)

Publication Number Publication Date
JPH02197628A JPH02197628A (en) 1990-08-06
JPH0739680B2 true JPH0739680B2 (en) 1995-05-01

Family

ID=11977491

Family Applications (1)

Application Number Title Priority Date Filing Date
JP1018650A Expired - Lifetime JPH0739680B2 (en) 1989-01-26 1989-01-26 Regional integrated water usage

Country Status (1)

Country Link
JP (1) JPH0739680B2 (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6436283B1 (en) * 2000-03-07 2002-08-20 Eddie D. Duke Portable rainwater collecting and purifying system
JP5946658B2 (en) * 2012-03-08 2016-07-06 株式会社Ihi建材工業 Radioactivity decontamination system and radioactivity decontamination method
CN103806500B (en) * 2012-11-14 2015-07-15 北京泰宁科创雨水利用技术股份有限公司 Snow mountain melt water collection and utilization device
CN103130286B (en) * 2013-02-28 2014-04-09 中国南方电网有限责任公司超高压输电公司 Convertor station external cooling water system dilution pool, external cooling water dilution method and convertor station
CN104652526A (en) * 2015-02-04 2015-05-27 北京中外建建筑设计有限公司 Town residential area rainwater recovery system
CN114495678B (en) * 2022-01-20 2022-10-21 武汉大学 Water inlet tank test bed capable of being used under conditions of sand content and flowing water

Also Published As

Publication number Publication date
JPH02197628A (en) 1990-08-06

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