JPH03143588A - Water cleaning device - Google Patents

Water cleaning device

Info

Publication number
JPH03143588A
JPH03143588A JP28117889A JP28117889A JPH03143588A JP H03143588 A JPH03143588 A JP H03143588A JP 28117889 A JP28117889 A JP 28117889A JP 28117889 A JP28117889 A JP 28117889A JP H03143588 A JPH03143588 A JP H03143588A
Authority
JP
Japan
Prior art keywords
water
far
storage tank
water storage
radiating
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.)
Pending
Application number
JP28117889A
Other languages
Japanese (ja)
Inventor
Yasumoto Tanaka
田中 靖基
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.)
Shoei Pack Co Ltd
Original Assignee
Shoei Pack Co Ltd
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 Shoei Pack Co Ltd filed Critical Shoei Pack Co Ltd
Priority to JP28117889A priority Critical patent/JPH03143588A/en
Publication of JPH03143588A publication Critical patent/JPH03143588A/en
Pending legal-status Critical Current

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  • Physical Water Treatments (AREA)

Abstract

PURPOSE:To hardly generated algae, etc., in a water storage tank and to obtain potable water and cooling water which are hygienic and taste good by interposing a bubble generator and a far IR radiating device in a water supply piping between water source and a water storage tank and disposing far IR radiating objects into the water storage tank. CONSTITUTION:The city water pumped up into the water storage tank 3 successively passes the bubble generator 6 and the far IR radiating device 7. The bubbled water supplied to the far IR radiating device 7 absorbs the far IR rays radiated from both the inside and outside surfaces of the far IR radiating objects 14 and is simultaneously put into an activated state by being exposed to the ultrasonic waves generated at the time when the bubbles rupture. This water is supplied into the water storage tank 3. The activation is maintained by the radiation of the far IR rays from the far IR radiating objects 15 in the water storage tank 3, by which the algae, etc., are hardly generated in the water storage tank 3. The device is thus extremely hygienic. The water is activated and, therefore, tastes good and is adequate for cooking.

Description

【発明の詳細な説明】 (産業上の利用分野) 本発明は、水道水を各家庭に供給する際に水質改善され
た水が得られる浄水装置に関するものである。
DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a water purification device that can obtain water with improved water quality when supplying tap water to each household.

(従来の技術) 従来、給水装置としては、水道本管から分岐した給水管
を直接屋内まで引き込み給水するものが知られている。
(Prior Art) Conventionally, as a water supply device, one is known that supplies water by directly drawing a water supply pipe branched from a water main into a room.

また、従来の他の給水装置としては、屋上に設置したタ
ンク内に揚水ポンプにより水道水をいったんくみ上げて
貯え、これを自然流下して各家庭に供給するものが知ら
れている。
In addition, as another conventional water supply device, one is known in which tap water is once pumped up and stored in a tank installed on the roof using a lift pump, and the water is then allowed to flow down to each home.

(発明が解決しようとする課題) ところが、前者の給水装置では、何ら水質改善機能がな
いので、水道水を飲用水として利用する場合には、おい
しくないという欠点があった。
(Problem to be Solved by the Invention) However, the former water supply device does not have any water quality improvement function, and therefore has the disadvantage that tap water is not tasty when used as drinking water.

また、後者の給水装置では、上記の欠点に加えて、水道
水をいったんタンク内にくみ上げるので、タンク内に藻
などが発生しやすく、衛生的でないという欠点があった
In addition to the above-mentioned drawbacks, the latter water supply device also has the drawback that because tap water is once pumped into the tank, algae and the like are likely to grow in the tank, making it unhygienic.

本発明は、これらの欠点を解消することを目的とする。The present invention aims to eliminate these drawbacks.

(課題を解決するための手段) かかる目的を達成するために、本発明は、以下のように
構成した。
(Means for Solving the Problems) In order to achieve the above object, the present invention was configured as follows.

すなわち1本発明は、水源と貯水タンクとの間を水供給
管で接続し、前記水供給管に気泡発生器および遠赤外線
放射器を介在し、前記貯水タンク内には遠赤外線放射物
体を配置するとともに当該貯木タンクに排出口を設けて
なるものである。
That is, 1 the present invention connects a water source and a water storage tank with a water supply pipe, interposes a bubble generator and a far-infrared ray radiator in the water supply pipe, and arranges a far-infrared ray emitting object in the water storage tank. At the same time, the wood storage tank is provided with an outlet.

(作用) このように構成する本発明では、水は気泡発生器を通過
する際に気泡状となり、その後、気泡が破裂するときに
生ずる超音波が水に作用する。また、水は遠赤外線放射
器を通過する際に遠赤外線をあび、貯水タンク内では遠
赤外線を浴びつづける。
(Function) In the present invention configured as described above, water becomes bubble-like when passing through the bubble generator, and then ultrasonic waves generated when the bubbles burst act on the water. In addition, water is exposed to far-infrared rays when it passes through a far-infrared radiator, and continues to be exposed to far-infrared rays inside the water storage tank.

そのため、水は超音波と遠赤外線とが同時に作用するこ
とにより活性化して水質改善が図られ、その活性化は貯
水タンク内においても持続する。
Therefore, water is activated by the simultaneous action of ultrasonic waves and far infrared rays to improve water quality, and this activation continues even in the water storage tank.

従って、貯水タンク内に藻などが発生しにくく衛生的で
あり、かつ飲用水に利用するとおいしり、シかも調理用
水として利用すると美味な料理が得られる。
Therefore, algae and the like are not likely to grow in the water storage tank, making it hygienic and delicious when used as drinking water, and delicious dishes can be obtained when used as cooking water.

(実施例) 本発明の第1実施例について、第1図を参照して説明す
る。
(Example) A first example of the present invention will be described with reference to FIG.

図において、1は地中に埋設される水道本管であり、こ
の水道本管1は、揚水管2を介して建物の屋上に設置す
る貯水タンク3と接続する。揚水管2の排出口側2Aは
、貯水タンク3内で渦まき状の水流が生ずるように内壁
側に下向き斜めに配置する。
In the figure, 1 is a water main pipe buried underground, and this water main pipe 1 is connected via a pumping pipe 2 to a water storage tank 3 installed on the roof of a building. The discharge port side 2A of the water pump 2 is arranged diagonally downward toward the inner wall so that a swirling water flow is generated within the water storage tank 3.

揚水管2には、水道本管lから貯水タンク3側に向けて
、揚水ポンプ5、気泡発生器6、および遠赤外線放射器
7を順次介在する。
A pump 5, a bubble generator 6, and a far-infrared radiator 7 are sequentially provided in the pump pipe 2 from the water main l toward the water storage tank 3.

気泡発生器6は、第2図で示すように、両端を開口する
とともにほぼ中央に空気供給孔8を穿った■筒部9を有
し、空気供給孔8に空気供給筒lOを接続する。そして
1円筒部9の注入口側にノズル11を挿入し、そのノズ
ル11の噴出口を空気供給孔8にのぞませるとともに、
その噴出口の周囲に環状のすきま12を形成する。さら
に、円筒部9の排出側断面は、排出口に向けて拡張する
ように形成する。
As shown in FIG. 2, the bubble generator 6 has a cylindrical portion 9 which is open at both ends and has an air supply hole 8 approximately in the center thereof, and an air supply tube 10 is connected to the air supply hole 8. Then, the nozzle 11 is inserted into the injection port side of the cylindrical portion 9, and the ejection port of the nozzle 11 is exposed to the air supply hole 8.
An annular gap 12 is formed around the spout. Further, the discharge side cross section of the cylindrical portion 9 is formed to expand toward the discharge port.

遠赤外線放射器7は、円筒体13内に両端が開口する筒
状の遠赤外線放射物体14を複数個収容する。遠赤外線
放射物体14の外径は、円筒体13の内径よりも十分に
小さくする。
The far-infrared radiator 7 houses a plurality of cylindrical far-infrared radiating objects 14 with open ends in a cylindrical body 13 . The outer diameter of the far-infrared ray emitting object 14 is made sufficiently smaller than the inner diameter of the cylindrical body 13.

遠赤外線放射物体14としては、常温で遠赤外線を放射
する遠赤外線セラミックスが好適である。また、この遠
赤外線放射物体14を図示のように円筒形にすると、円
筒の内外両面から遠赤外線を放射でき、放射効率がよい
As the far-infrared ray emitting object 14, far-infrared ceramics that emit far-infrared rays at room temperature are suitable. Further, if the far-infrared ray emitting object 14 is formed into a cylinder as shown in the figure, far-infrared rays can be emitted from both the inside and outside of the cylinder, resulting in good radiation efficiency.

貯水タンク3内の所定個所には、常温で遠赤外線を放射
する棒状または板状などの所定形状の遠赤外線放射物体
15を配置する。貯水タンク3の内壁には、水面の上限
を検出する上限レベルスインチ16、水面の下限を検出
する下限レベルスイッチ17を設ける。そして、これら
両スイッチ16.17の各出力信号に基づき、貯水タン
ク3内に常に所定量の水が張り込まれるようにポンプ5
を駆動する。
A far-infrared ray emitting object 15 having a predetermined shape, such as a rod or plate shape, that emits far-infrared rays at room temperature is arranged at a predetermined location in the water storage tank 3 . The inner wall of the water storage tank 3 is provided with an upper limit level switch 16 for detecting the upper limit of the water surface and a lower limit level switch 17 for detecting the lower limit of the water surface. Based on the respective output signals of these switches 16 and 17, the pump 5 is operated so that a predetermined amount of water is always filled in the water storage tank 3.
to drive.

貯水タンク3の底部に設けた排出口には給水管18を接
続し、給水管18にはフィルタ19およびバルブ20を
介在する。そして、給水管18の終端側は複数に分岐し
てそれぞれ給水栓2工を設ける。
A water supply pipe 18 is connected to an outlet provided at the bottom of the water storage tank 3, and a filter 19 and a valve 20 are interposed in the water supply pipe 18. The terminal end side of the water supply pipe 18 is branched into a plurality of parts, and two water taps are provided in each branch.

次に、このように構成する第1実施例の使用例について
説明する。
Next, an example of use of the first embodiment configured as described above will be described.

水道本管1内の水道水は、ポンプ5により揚水管2内を
通って貯水タンク3内にくみあげられるので、この際に
、水道水は気泡発生器6および遠赤外線放射器7を順次
通過する。
The tap water in the water main 1 is pumped up into the water storage tank 3 through the pump 5 through the pump 2, and at this time, the tap water passes through the bubble generator 6 and the far-infrared radiator 7 in sequence. .

そして、気泡発生器6を通過するときに、水道水はその
流速がノズル11の噴射口で最大になってその周辺が負
圧になるため、外気が空気供給筒10からすきま12を
介して円筒部9内に吸入される。従って、ノズル11の
噴射口から噴出する水は、噴出時に上記吸入空気を混合
して気泡状となり、この気泡状の水は遠赤外線放射器7
に供給される。
When the tap water passes through the bubble generator 6, the flow velocity of the tap water reaches its maximum at the injection port of the nozzle 11, and the surrounding area becomes negative pressure. It is inhaled into part 9. Therefore, the water ejected from the injection port of the nozzle 11 mixes with the above-mentioned intake air at the time of ejection and becomes bubble-like, and this bubble-like water is transferred to the far-infrared radiator 7.
is supplied to

このようにして、遠赤外線放射器7に供給された気泡状
の水は、円筒体13内を通過する際に、遠赤外線放射物
体14の内外両面から放射されている遠赤外線を吸収す
ると同時に、気泡が破裂する際に生ずる超音波をあびる
In this way, when the bubble-like water supplied to the far-infrared radiator 7 passes through the cylindrical body 13, it absorbs the far-infrared rays emitted from both the inside and outside of the far-infrared radiating object 14, and at the same time, It is exposed to the ultrasonic waves generated when the bubbles burst.

これら遠赤外線および超音波の同時照射によって、水は
その分子を構成する酸素と水素との結合がわずかにずれ
て活性化された状態となり、貯水タンク3内に供給され
る。
By the simultaneous irradiation of these far infrared rays and ultrasonic waves, the bonds between oxygen and hydrogen that constitute the water molecules are slightly shifted, and the water is activated, and the water is supplied into the water storage tank 3.

このようにして供給された水は、貯水タンク3内におい
て遠赤外線放射物体15からの遠赤外線の放射により活
性化が維持され、これにより貯水タンク3内には藻など
が発生しにくく、きわめて衛生的である。
The water supplied in this way is kept activated in the water storage tank 3 by the radiation of far infrared rays from the far infrared ray emitting object 15, and as a result, algae etc. are difficult to grow in the water storage tank 3, making it extremely hygienic. It is true.

また、貯水タンク3内の水は、給水管18を経て各家庭
に飲用水として供給されるが、上述のように活性化され
ているので、たいへんおいしい水であり、調理にも好適
である。
Further, the water in the water storage tank 3 is supplied as drinking water to each household via the water supply pipe 18, and since it has been activated as described above, it is very delicious water and suitable for cooking.

次に、本発明の第2実施例について第3図を参照して説
明する。
Next, a second embodiment of the present invention will be described with reference to FIG.

この第2実施例は、水道本管と直接接続されて各家庭に
導かれている給水管30の排出口に接続し、家庭的に使
用するものである。
This second embodiment is connected to an outlet of a water supply pipe 30 that is directly connected to a water main and led to each home, and is used for domestic purposes.

すなわち給水栓31を有する給水管30の排出口を、水
供給管32を介して家庭内に据え付けた比較的小型の貯
水タンク33に接続する。
That is, the outlet of a water supply pipe 30 having a water tap 31 is connected via a water supply pipe 32 to a relatively small water storage tank 33 installed in the home.

水供給管32には、バルブ34.気泡発生器35、およ
び遠赤外線放射器36を順次介在する。
The water supply pipe 32 has a valve 34. A bubble generator 35 and a far infrared ray radiator 36 are sequentially provided.

気泡発生器35は第2図で示す気泡発生器6と同様に構
成し、遠赤外線放射器36は第1図で示す遠赤外線放射
器7と同様に構成する。
The bubble generator 35 has the same structure as the bubble generator 6 shown in FIG. 2, and the far-infrared radiator 36 has the same structure as the far-infrared radiator 7 shown in FIG.

水供給管32の排出口側32Aは、貯水タンク33内で
渦まき状の水流が生ずるように内壁側に下向き斜めに配
置する。
The discharge port side 32A of the water supply pipe 32 is disposed diagonally downward toward the inner wall so that a swirling water flow is generated within the water storage tank 33.

貯水タンク33内には、第1図で示す遠赤外線放射物体
15と同様な遠赤外線放射物体37を配置するとともに
、第1図で示す上限レベルスイッチ16および下限レベ
ルスイッチ17と同様な上限レベルスイッチ38および
下限レベルスイッチ39を設ける。そして、これら両ス
イッチ38.39の各出力信号に基づき、貯水タンク3
3内に常に所定量の水が張り込まれるようにバルブ34
を開閉する。
In the water storage tank 33, a far infrared ray emitting object 37 similar to the far infrared ray emitting object 15 shown in FIG. 1 is arranged, and an upper limit level switch similar to the upper limit level switch 16 and the lower limit level switch 17 shown in FIG. 38 and a lower limit level switch 39 are provided. Based on the respective output signals of these two switches 38 and 39, the water storage tank 3
valve 34 so that a predetermined amount of water is always filled into valve 34.
Open and close.

貯水タンク33の底部に設けた排出口には水排出管40
を接続し、水排出v40にはフィルタ41およびバルブ
42を介在する。
A water discharge pipe 40 is provided at the discharge port provided at the bottom of the water storage tank 33.
A filter 41 and a valve 42 are interposed in the water discharge v40.

このように構成する第2実施例では、Pt51実施例と
同様に気泡発生器35を通過する際に水は気泡状となり
、遠赤外線放射器36を通過する際に遠赤外線を吸収す
ると同時に、気泡が破裂する際に生ずる超音波をあびる
。従って、木は第1実施例と同様に活性化された状態と
なり、貯水タンク33内に供給される。
In the second embodiment configured as described above, water becomes bubble-like when passing through the bubble generator 35 and absorbs far-infrared rays when passing through the far-infrared radiator 36, as in the Pt51 embodiment. The device is exposed to the ultrasonic waves generated when it ruptures. Therefore, the tree is activated as in the first embodiment and is supplied into the water storage tank 33.

そして、貯水タンク33内においても、水は遠赤外線放
射物体37から放射される遠赤外線の作用により活性化
が維持されるので、貯水タンク33内には藻など発生し
にくく衛生的であり、かつ飲用水や調理用水として好適
である。
Also, in the water storage tank 33, the water is maintained activated by the action of far infrared rays emitted from the far infrared rays emitting object 37, so that algae etc. do not easily grow in the water storage tank 33, and the water is sanitary. It is suitable for drinking water and cooking water.

(発明の効果) 以上説明したように未発明では、水を気泡状にし気泡の
破裂時に生ずる超音波を水に作用するとともに、水に遠
赤外線を作用し、これら前作用により水が活性化して水
質改善が図れるようにしたので、貯水タンク内に藻など
が発生しに〈〈衛生的であり、かつ飲用水に利用すると
おいしく、シかも調理用水として利用すると美味な料理
が得られる。
(Effect of the invention) As explained above, in the uninvention, water is made into bubbles, and ultrasonic waves generated when the bubbles burst are applied to the water, and far infrared rays are applied to the water, and the water is activated by these pre-actions. The water quality has been improved so that algae does not grow in the water tank, making it sanitary and delicious when used for drinking, and delicious food when used for cooking.

【図面の簡単な説明】[Brief explanation of the drawing]

第1図は本発明の第1実施例の全体4W戊を示す図、第
2図は気泡発生器の断面図、第3図は本発明の第2実施
例の全体構成を示す図である。 1・・・水道木管、2・・・揚水管。 3.33・・・貯水タンク、 6.35・・・気泡発生器。 7.36・・・遠赤外線放射器、 15゜37・・・遠赤外線放射物体。
FIG. 1 is a diagram showing the entire 4W configuration of the first embodiment of the present invention, FIG. 2 is a sectional view of the bubble generator, and FIG. 3 is a diagram showing the overall configuration of the second embodiment of the present invention. 1... Water pipe, 2... Lifting pipe. 3.33...Water tank, 6.35...Bubble generator. 7.36... Far-infrared radiator, 15°37... Far-infrared radiating object.

Claims (1)

【特許請求の範囲】[Claims] 水源と貯水タンクとの間を水供給管で接続し、前記水供
給管に気泡発生器および遠赤外線放射器を介在し、前記
貯水タンク内には遠赤外線放射物体を配置するとともに
当該貯水タンクに排出口を設けてなる浄水装置。
A water supply pipe is connected between a water source and a water storage tank, a bubble generator and a far infrared ray radiator are interposed in the water supply pipe, a far infrared ray emitting object is disposed in the water storage tank, and a far infrared ray radiator is disposed in the water storage tank. A water purification device with a discharge port.
JP28117889A 1989-10-27 1989-10-27 Water cleaning device Pending JPH03143588A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP28117889A JPH03143588A (en) 1989-10-27 1989-10-27 Water cleaning device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP28117889A JPH03143588A (en) 1989-10-27 1989-10-27 Water cleaning device

Publications (1)

Publication Number Publication Date
JPH03143588A true JPH03143588A (en) 1991-06-19

Family

ID=17635436

Family Applications (1)

Application Number Title Priority Date Filing Date
JP28117889A Pending JPH03143588A (en) 1989-10-27 1989-10-27 Water cleaning device

Country Status (1)

Country Link
JP (1) JPH03143588A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000516522A (en) * 1996-07-04 2000-12-12 ドゥ モイレナエル エリック コルデマンス Apparatus and method for treating liquid medium
CN101913724A (en) * 2010-08-20 2010-12-15 常州大学 Device for treating eutrophication water blue algae
WO2012091068A1 (en) 2010-12-27 2012-07-05 三菱化学株式会社 Solar-cell-integrated roll screen
KR101677383B1 (en) * 2015-08-11 2016-11-18 (주)천일염업사 Roof rack assembly having solar generating module

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000516522A (en) * 1996-07-04 2000-12-12 ドゥ モイレナエル エリック コルデマンス Apparatus and method for treating liquid medium
JP2007125554A (en) * 1996-07-04 2007-05-24 Ashland Licensing & Intellectual Property Llc Apparatus and method for treating liquid medium
JP2010158679A (en) * 1996-07-04 2010-07-22 Ashland Licensing & Intellectual Property Llc Device and process for treating liquid medium
CN101913724A (en) * 2010-08-20 2010-12-15 常州大学 Device for treating eutrophication water blue algae
WO2012091068A1 (en) 2010-12-27 2012-07-05 三菱化学株式会社 Solar-cell-integrated roll screen
KR101677383B1 (en) * 2015-08-11 2016-11-18 (주)천일염업사 Roof rack assembly having solar generating module

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