JPH10235337A - Water distribution system - Google Patents
Water distribution systemInfo
- Publication number
- JPH10235337A JPH10235337A JP9287302A JP28730297A JPH10235337A JP H10235337 A JPH10235337 A JP H10235337A JP 9287302 A JP9287302 A JP 9287302A JP 28730297 A JP28730297 A JP 28730297A JP H10235337 A JPH10235337 A JP H10235337A
- Authority
- JP
- Japan
- Prior art keywords
- water
- pipe
- purified water
- tub
- hot
- 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
Links
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 355
- 238000009826 distribution Methods 0.000 title claims description 3
- 238000003860 storage Methods 0.000 claims abstract description 70
- 239000008213 purified water Substances 0.000 claims description 110
- 230000002265 prevention Effects 0.000 claims description 8
- 239000000463 material Substances 0.000 claims description 2
- 238000001223 reverse osmosis Methods 0.000 description 9
- 238000001914 filtration Methods 0.000 description 6
- 230000001954 sterilising effect Effects 0.000 description 6
- 239000000126 substance Substances 0.000 description 6
- 241000894006 Bacteria Species 0.000 description 5
- 238000006243 chemical reaction Methods 0.000 description 4
- 238000000034 method Methods 0.000 description 4
- 238000004659 sterilization and disinfection Methods 0.000 description 4
- 238000007664 blowing Methods 0.000 description 3
- 231100000357 carcinogen Toxicity 0.000 description 3
- 239000003183 carcinogenic agent Substances 0.000 description 3
- 229910001385 heavy metal Inorganic materials 0.000 description 3
- 230000002093 peripheral effect Effects 0.000 description 3
- 238000012805 post-processing Methods 0.000 description 3
- 238000000746 purification Methods 0.000 description 3
- ZAMOUSCENKQFHK-UHFFFAOYSA-N Chlorine atom Chemical compound [Cl] ZAMOUSCENKQFHK-UHFFFAOYSA-N 0.000 description 2
- 230000001580 bacterial effect Effects 0.000 description 2
- 239000000460 chlorine Substances 0.000 description 2
- 229910052801 chlorine Inorganic materials 0.000 description 2
- 238000011109 contamination Methods 0.000 description 2
- JEIPFZHSYJVQDO-UHFFFAOYSA-N iron(III) oxide Inorganic materials O=[Fe]O[Fe]=O JEIPFZHSYJVQDO-UHFFFAOYSA-N 0.000 description 2
- 238000007781 pre-processing Methods 0.000 description 2
- 239000013049 sediment Substances 0.000 description 2
- 239000002341 toxic gas Substances 0.000 description 2
- NWUYHJFMYQTDRP-UHFFFAOYSA-N 1,2-bis(ethenyl)benzene;1-ethenyl-2-ethylbenzene;styrene Chemical compound C=CC1=CC=CC=C1.CCC1=CC=CC=C1C=C.C=CC1=CC=CC=C1C=C NWUYHJFMYQTDRP-UHFFFAOYSA-N 0.000 description 1
- 101150114468 TUB1 gene Proteins 0.000 description 1
- QVGXLLKOCUKJST-UHFFFAOYSA-N atomic oxygen Chemical compound [O] QVGXLLKOCUKJST-UHFFFAOYSA-N 0.000 description 1
- 230000000903 blocking effect Effects 0.000 description 1
- 238000004140 cleaning Methods 0.000 description 1
- 238000001816 cooling Methods 0.000 description 1
- 238000001514 detection method Methods 0.000 description 1
- 235000020188 drinking water Nutrition 0.000 description 1
- 239000003651 drinking water Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000003912 environmental pollution Methods 0.000 description 1
- 230000000855 fungicidal effect Effects 0.000 description 1
- 230000002070 germicidal effect Effects 0.000 description 1
- JEGUKCSWCFPDGT-UHFFFAOYSA-N h2o hydrate Chemical compound O.O JEGUKCSWCFPDGT-UHFFFAOYSA-N 0.000 description 1
- 239000003456 ion exchange resin Substances 0.000 description 1
- 229920003303 ion-exchange polymer Polymers 0.000 description 1
- 239000012528 membrane Substances 0.000 description 1
- 244000005700 microbiome Species 0.000 description 1
- 239000001301 oxygen Substances 0.000 description 1
- 229910052760 oxygen Inorganic materials 0.000 description 1
- 238000003825 pressing Methods 0.000 description 1
- 238000002203 pretreatment Methods 0.000 description 1
- 238000004062 sedimentation Methods 0.000 description 1
- 239000008400 supply water Substances 0.000 description 1
- 239000008399 tap water Substances 0.000 description 1
- 235000020679 tap water Nutrition 0.000 description 1
- 239000002351 wastewater Substances 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D35/00—Filtering devices having features not specifically covered by groups B01D24/00 - B01D33/00, or for applications not specifically covered by groups B01D24/00 - B01D33/00; Auxiliary devices for filtration; Filter housing constructions
- B01D35/30—Filter housing constructions
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B67—OPENING, CLOSING OR CLEANING BOTTLES, JARS OR SIMILAR CONTAINERS; LIQUID HANDLING
- B67D—DISPENSING, DELIVERING OR TRANSFERRING LIQUIDS, NOT OTHERWISE PROVIDED FOR
- B67D1/00—Apparatus or devices for dispensing beverages on draught
- B67D1/08—Details
- B67D1/12—Flow or pressure control devices or systems, e.g. valves, gas pressure control, level control in storage containers
- B67D1/125—Safety means, e.g. over-pressure valves
Landscapes
- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Water Treatment By Sorption (AREA)
- Separation Using Semi-Permeable Membranes (AREA)
- Physical Water Treatments (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、水道水等の原水の
中に含まれた各種の有害物質を除去する逆浸透圧式水分
配機(例えば、冷温浄水機)に関するもので、より詳細
には温水桶内の浄水が浄水貯蔵桶に逆流しないようにし
た水分配機に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a reverse osmosis type water distributor (for example, a cold and hot water purifier) for removing various harmful substances contained in raw water such as tap water. The present invention relates to a water distributor that prevents purified water in a hot water tub from flowing back to a purified water storage tub.
【0002】[0002]
【従来の技術】一般的な水分配機は、水道栓から給水さ
れる原水を別途のろ過手段内を通過させ、原水の中に含
まれている異物質等を除去するようになる。このような
水分配機は、浄水する方式により自然ろ過式、直結ろ過
式、イオン交換樹脂式及び逆浸透圧式とに大別し得る
が、その中で特に逆浸透圧式水分配機は、原水に所定の
圧力を加えて、人工的な浸透膜であるメンブレンを通過
させて浄水を遂行するもので、重金属、バクテリア、発
ガン物質等を分離除去すると同時に、純粋な水と溶存酸
素のみが通過するようにし、最先端科学産業及び超精密
電子部品の洗浄用または医学用に使用されているし、最
近では深刻な環境汚染によって飲料水の為の家庭及び営
業所用の水分配機にも広く使用されている。2. Description of the Related Art In a general water distributor, raw water supplied from a tap is passed through a separate filtering means to remove foreign substances and the like contained in the raw water. Such water distributors can be roughly classified into natural filtration type, direct filtration type, ion-exchange resin type and reverse osmosis type, depending on the method of purifying water. Applying a predetermined pressure and passing through an artificial osmosis membrane to purify water, separating and removing heavy metals, bacteria, carcinogens, etc., while passing only pure water and dissolved oxygen It is used for cleaning or medical use in the cutting-edge scientific industry and ultra-precision electronic components, and recently it is widely used in home and business water dispensers for drinking water due to severe environmental pollution. ing.
【0003】すなわち、従来の逆浸透圧式の水分配機
は、図1の図示のように浄水貯蔵桶10と冷水桶20と
が同一な垂直方向に位置し、浄水貯蔵桶10内の浄水が
冷水桶20の内部に常に供給されるように、相互の通路
を常に開放して設置されており、前記の浄水貯蔵桶10
と温水桶30とが同一な水平方向に位置されて、配管4
0を媒介として浄水貯蔵桶10内の浄水が温水桶30に
供給されるように設置されており、前記配管40の所定
位置には、温水桶30内の浄水が浄水貯蔵桶10に逆流
しないように電子的な制御信号によって制御する、ソレ
ノイドバルブ50が設置されている。[0003] That is, in the conventional reverse osmosis type water distributor, the purified water storage tub 10 and the cold water tub 20 are located in the same vertical direction as shown in FIG. The passages are always open so that the water is always supplied to the inside of the water tub 20.
And the hot water tub 30 are located in the same horizontal direction,
0 is provided so that the purified water in the purified water storage tub 10 is supplied to the hot water tub 30 through the medium of 0, so that the purified water in the heated water tub 30 does not flow back to the purified water storage tub 10 at a predetermined position of the pipe 40. Is provided with a solenoid valve 50 controlled by an electronic control signal.
【0004】[0004]
【発明が解決しようとする課題】このように構成されて
いる従来の水分配機は、温水桶30内の浄水が浄水貯蔵
桶10に逆流しないように配管40の中間位置に、ソレ
ノイドバルブ50を設置する構造からなっているが、こ
のような構造のソレノイドバルブ50は費用負担が多い
だけでなく、これを実現するための諸般技術、即ち電子
的な回路構成及び構造が複雑になることによって、作業
能率が大きく低下するという問題点があった。In the conventional water distributor having such a configuration, the solenoid valve 50 is disposed at an intermediate position of the pipe 40 so that the purified water in the hot water tub 30 does not flow back to the purified water storage tub 10. Although the solenoid valve 50 has such a structure, the solenoid valve 50 having such a structure is not only costly but also has various techniques for realizing it, that is, the electronic circuit configuration and structure become complicated. There was a problem that work efficiency was greatly reduced.
【0005】また、配管40の両側端が、浄水貯蔵桶1
0と温水桶30の底に連結される構造からなっている
が、このような構造の浄水貯蔵桶10から配管40を通
して温水桶30に供給される浄水が、温水桶30内に作
用する一定圧力(水圧)に耐えられず徐徐に供給され
て、浄水の流れが円滑でないという問題点もあった。本
発明は、前記の問題点を解決するために案出されたもの
で、本発明の目的は、浄水貯蔵桶と温水桶とを連結する
配管の垂直ラインに費用負担が小さいだけでなく、電子
的な回路構成がなく構造が単純な温水逆流防止手段を設
置することによって、作業能率を高め得る水分配機を提
供することにある。[0005] Both ends of the pipe 40 are connected to the purified water storage tub 1.
0 and a structure connected to the bottom of the hot water tub 30. Purified water supplied to the hot water tub 30 through the pipe 40 from the purified water storage tub 10 of such a structure has a constant pressure acting in the hot water tub 30. There was also a problem that the flow of purified water was not smooth due to the gradual supply without being able to withstand (water pressure). SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is not only to reduce the cost of the vertical line of the pipe connecting the purified water storage tub and the hot water tub, but also to reduce the electronic burden. It is an object of the present invention to provide a water distributor capable of improving work efficiency by installing a hot water backflow preventing means having a simple circuit structure and a simple structure.
【0006】また本発明の他の目的は、浄水貯蔵桶と温
水桶を連結する配管の入出口の位置を改善し、浄水貯蔵
桶内の浄水が配管を通して温水桶に供給される時に、温
水桶内に作用する一定圧力(水圧)を受けず円滑に供給
されるようにした水分配機を提供することにある。Another object of the present invention is to improve the position of an inlet / outlet of a pipe connecting the purified water storage tub and the hot water tub, so that when purified water in the purified water storage tub is supplied to the hot water tub through the pipe, the hot water tub is improved. It is an object of the present invention to provide a water distributor which can be supplied smoothly without receiving a constant pressure (water pressure) acting therein.
【0007】[0007]
【課題を解決するための手段】前記の目的を達成するた
めの本発明による水分配機は、浄水貯蔵桶内の浄水が配
管に沿って温水桶に流入されるように、配管に温水逆流
防止手段を設置した水分配機において、前記の温水逆流
防止手段は、前記配管の垂直ライン側の拡大管部の内部
に設置されているストッパと、浄水貯蔵桶の浄水が、温
水桶に供給される水圧によって上昇動作され前記のスト
ッパに接触され、前記配管の通路を開放して水の流れを
自由にし、また浄水貯蔵桶から温水桶に浄水供給が終了
される時に、自体の重量により下降動作されつつ、配管
の通路を閉鎖し水が逆流されないように拡大管部の内部
に設置されたボールから構成されたことを特徴とする。SUMMARY OF THE INVENTION In order to achieve the above object, a water distributor according to the present invention prevents hot water from flowing back into a hot water tank so that purified water in a purified water storage tank flows into the hot water tank along the pipe. In the water dispenser provided with the means, the hot water backflow prevention means is provided with a stopper installed inside the enlarged pipe portion on the vertical line side of the pipe, and purified water in the purified water storage tank is supplied to the heated water tank. It is raised by water pressure and is brought into contact with the stopper, opening the passage of the pipe to free the flow of water, and when the supply of purified water from the purified water storage tub to the hot water tub is completed, it is lowered by its own weight. In addition, it is characterized by being constituted by a ball installed inside the enlarged pipe part so as to close the passage of the pipe and prevent water from flowing back.
【0008】[0008]
【発明の実施の形態】以下、本発明の実施の形態に関し
て添付図面を参考して詳細に説明する。本発明の水分配
機は、図2乃至図7の図示のように中央に外部の空気が
本体200内部の所定位置に流入されることを案内する
と同時に、その上面に多数の部品が取付されるように下
部パネル210が設置されており、前記下部パネル21
0の両側には、前面パネル220、後面パネル230、
第1及び第2側面パネル240、250、上部パネル1
90とがそれぞれ多数個の引っ掛け方式と締結方式とに
より設置されるように、第1及び第2支持フレーム26
0、270が同一な所定の高さで垂直に設置されてお
り、前記の第1支持フレーム260と第2支持フレーム
270との間において中間の高さには、本体200の上
部と下部側とにそれぞれ一定体積の上部及び下部空間
K、Lを形成するように、中間パネル280が締結方式
によって設置されている。Embodiments of the present invention will be described below in detail with reference to the accompanying drawings. In the water distributor of the present invention, as shown in FIGS. 2 to 7, the center guides external air to flow into a predetermined position inside the main body 200, and at the same time, a number of components are mounted on the upper surface thereof. The lower panel 210 is installed as shown in FIG.
0, the front panel 220, the rear panel 230,
First and second side panels 240, 250, upper panel 1
The first and second support frames 26 are installed so that the first and second support frames 90 are respectively installed by a plurality of hooking and fastening systems.
0 and 270 are vertically installed at the same predetermined height, and the upper and lower sides of the main body 200 are located at an intermediate height between the first support frame 260 and the second support frame 270. An intermediate panel 280 is installed by a fastening method so as to form upper and lower spaces K and L having predetermined volumes respectively.
【0009】すなわち、前記下部パネル210には、そ
の底の中央に外部の空気が本体200内部に流入される
時、空気の流れを一場所に案内するようにベルマウス2
11が、上部に向かって一定の高さで垂直に折曲形成さ
れており、前記ベルマウス211の内周面には、後述す
る送風手段が係止してネジ結合されており、その底の縁
には、後述する殺菌フィルター、加圧ポンプ、排水転換
手段、トランス等が漏電及び沈水されない一定高さで係
止して結合されている。That is, the bell mouth 2 is provided on the lower panel 210 so as to guide the flow of air to one place when external air flows into the body 200 at the center of the bottom thereof.
11 is vertically bent at a constant height toward the upper part, and a blower means to be described later is screwed to the inner peripheral surface of the bell mouth 211 so as to be engaged therewith. A germicidal filter, a pressure pump, a drainage conversion means, a transformer, and the like, which will be described later, are locked and connected to the rim at a certain height that prevents leakage and submersion.
【0010】前記の前面パネル220には、その上部側
にコントロールパット290とメインPCB(図示され
ていない)が結合されるように凸面221が一体に形成
しており、その下部側の中央には、容器を密着させ押す
力によって、後述する取水口が電子的にオン動作される
ことによって通路が開放され、水(例えば、冷水、温
水、浄水)を取水されるか、または押す力を解除する時
は、前記の取水口がオフ動作されることによって通路が
閉鎖され、水の取水が中断されるように押しボタン31
0が弾発可能に設置されており、その下方には後述する
取水口を通じて流れる残水を集水すると同時に外部に排
水させるように、水受け桶320が着脱可能に設置され
ている。On the front panel 220, a convex surface 221 is integrally formed on an upper side thereof so that a control pad 290 and a main PCB (not shown) are connected to each other. The passage is opened by electronically turning on a water intake, which will be described later, by the force of bringing the container into close contact with the container and pushing the container, thereby removing water (for example, cold water, hot water, or purified water) or releasing the pushing force. When the water intake is turned off, the push button 31 is closed so that the passage is closed and the water intake is interrupted.
0 is provided so as to be resilient, and a water trough 320 is detachably provided below it so as to collect remaining water flowing through an intake port described later and simultaneously drain the water to the outside.
【0011】一方、前記の上部空間Kには、その中央に
一定容量の浄水を貯蔵できるように前記中間パネル28
0の上面に浄水貯蔵桶330が係止されネジ方式で結合
されており、その一側には供給される原水の中に含まれ
ている各種の異物質等をフィルターリングして浄水化さ
せるように、前記第2支持フレーム270と中間パネル
280に締結されるフィルター固定ブラケット340を
媒介として、ろ過手段350が交換可能に設置されてお
り、その他側には前記浄水貯蔵桶330に貯蔵されてい
る浄水が供給され一定容量に貯蔵すると同時に、その内
部に収容されたヒーター(図示されていない)のヒーテ
ィング熱により貯蔵された浄水を高い温度に熱交換する
ように、前記中間パネル280の上面に温水桶360が
係止されネジ結合されている。On the other hand, in the upper space K, the intermediate panel 28 is provided so that a fixed volume of purified water can be stored in the center thereof.
A water purifying storage tank 330 is locked on the upper surface of the container 0 and is connected by a screw. One side of the water purifying tank 330 is configured to filter various foreign substances contained in the supplied raw water to purify the water. In addition, a filter means 350 is exchangeably installed through a filter fixing bracket 340 fastened to the second support frame 270 and the intermediate panel 280, and is stored in the purified water storage tank 330 on the other side. At the same time as the purified water is supplied and stored in a fixed volume, the heated water of a heater (not shown) housed therein is used to heat-exchange the stored purified water to a high temperature. The hot water tub 360 is locked and screwed.
【0012】この時、前記の浄水貯蔵桶330は、上部
が開口された一定体積の浄水貯蔵桶本体331と、前記
浄水貯蔵桶本体331の上部開口をカバーする蓋332
とからなっている。すなわち、前記の浄水貯蔵桶本体3
31には、側面の上方に前記ろ過手段350によりフィ
ルターリングされた浄水が、第1配管を媒介として浄水
貯蔵桶本体331の内部に流入したり、または浄水貯蔵
桶本体331内部の一定水位を超える浄水が、第2配管
を媒介として排水できるように貫通ホール333が形成
されており、その正面の下方には、浄水貯蔵桶本体33
1内部の浄水が第3配管を媒介として、後述する取水口
を通じ外部に流出されるように第1流出口334が形成
されており、その後面下方には、浄水貯蔵桶本体331
内部の浄水が第4配管373を媒介として前記温水桶3
60に流入するように、第2流出口335が形成されて
おり、浄水貯蔵桶本体331の底面中央には浄水貯蔵桶
本体331内部の浄水が、後述する冷水桶に流入するよ
うに第3流出口336が形成されている。At this time, the purified water storage tub 330 has a fixed volume water purified storage tub body 331 having an open upper part, and a lid 332 covering an upper opening of the purified water storage tub body 331.
It consists of That is, the purified water storage tank main body 3
At 31, the purified water filtered by the filtering means 350 above the side flows into the purified water storage tank main body 331 through the first pipe or exceeds a certain water level inside the purified water storage tank main body 331. A through-hole 333 is formed so that purified water can be drained through the second pipe, and a purified water storage tank main body 33 is formed below the front surface thereof.
A first outlet 334 is formed so that the purified water inside 1 flows out to the outside through a water intake described later through a third pipe, and a purified water storage tank main body 331 is formed below the rear surface thereof.
The internal clean water is supplied through the fourth pipe 373 as a medium.
A second outlet 335 is formed so as to flow into the water purifier 60, and the third water outlet 335 is formed at the center of the bottom surface of the water purifier main body 331 so that purified water inside the water purifier main body 331 flows into a cold water trough described later. An outlet 336 is formed.
【0013】前記の蓋332には、その一側に前記浄水
貯蔵桶本体331の内部に貯蔵されている浄水の水位状
態を多段階で感知するように、垂直方向に水位感知手段
380が設置されており、その他側には紫外線光により
前記浄水貯蔵桶330と、後述する冷水桶内部に貯蔵さ
れた浄水を2次殺菌処理すると同時に、長期間放置され
た浄水の2次細菌汚染を抑制するために、一つの殺菌ラ
ンプ390が前記の浄水貯蔵桶330を通し、後述する
冷水桶の内部に挿入可能に設置されている。この時、前
記の第4配管373の所定位置には、前記の浄水貯蔵桶
330内の浄水が、第4配管373に沿って温水桶36
0に流入されてから浄水貯蔵桶330に逆流しないよう
に温水逆流防止手段300が設置されている。The lid 332 is provided with a water level sensing means 380 on one side of the lid 332 in a vertical direction so as to sense the water level of the purified water stored in the water purifying tank main body 331 in multiple stages. On the other side, the purified water storage tank 330 and the purified water stored in the cold water tank described below are subjected to secondary sterilization treatment by ultraviolet light, and at the same time, to suppress secondary bacterial contamination of the purified water that has been left for a long time. In addition, one sterilization lamp 390 is installed so as to be inserted into a cold water tank described later through the purified water storage tank 330. At this time, the purified water in the purified water storage tank 330 is placed at a predetermined position of the fourth pipe 373 along the fourth pipe 373.
The hot water backflow prevention means 300 is installed so that the hot water does not flow back into the purified water storage tank 330 after flowing into the water purification tank 330.
【0014】すなわち、前記温水逆流防止手段300
は、図6乃至図7の図示のように、前記第4配管373
の垂直ラインに対し所定の位置に形成されている拡大管
部373aと、前記拡大管部373a内部の上方に浄水
が上下流動可能に設置されたストッパ302と、前記拡
大管部373aの内部に前記浄水貯蔵桶330の浄水
が、温水桶360に供給される水圧により上昇動作され
ると同時に、前記ストッパ302にぶつかることによっ
て、これ以上は上昇動作できず停止されつつ、浄水の流
れを自由にするかまたは浄水貯蔵桶330から温水桶3
60への浄水供給が終了される時、自体の重量によって
下降動作されつつ、第4配管373の通路を塞いで逆流
されないように設置されたボール303とからなってい
る。That is, the hot water backflow prevention means 300
As shown in FIG. 6 and FIG.
The enlarged pipe portion 373a formed at a predetermined position with respect to the vertical line, the stopper 302 in which purified water is installed to be able to flow up and down inside the enlarged pipe portion 373a, and the inside of the enlarged pipe portion 373a. The purified water in the purified water storage tank 330 is raised by the water pressure supplied to the hot water tank 360, and at the same time, by hitting the stopper 302, the water cannot be further raised and is stopped, so that the flow of the purified water is free. Or from hot water storage tank 330 to hot water tank 3
When the supply of purified water to 60 is completed, the ball 303 is lowered by its own weight, and is closed by blocking the passage of the fourth pipe 373 so as not to flow backward.
【0015】この時、前記の第4配管373は、前記浄
水貯蔵桶330内の浄水が第4配管373に案内され温
水桶360に供給される時、温水桶360内に作用する
一定圧力(水圧)に耐えて円滑に供給されるように、そ
の一側端が前記温水桶360の底面から一定高さで連結
され、その他側端は前記浄水貯蔵桶330の底面から一
定高さで連結される。At this time, when the purified water in the purified water storage tank 330 is guided to the fourth pipe 373 and supplied to the heated water tank 360, the fourth pipe 373 has a constant pressure (water pressure) acting in the heated water tank 360. ), One end thereof is connected to the bottom of the hot water tub 360 at a constant height, and the other end thereof is connected to the bottom of the purified water storage tub 330 at a constant height so as to be smoothly supplied. .
【0016】前記ストッパ302の中央には、前記ボー
ル303が水圧により上昇動作される時、前記拡大管部
373aの上方の通路を塞がないように、係止孔302
aが形成されており、前記係止孔302aの端には、前
記ボール303が上昇動作され係止孔302aに係止さ
れる時、浄水貯蔵桶330内の浄水が温水桶360に自
由に流れるように、相互に一定間隔で多数個の切欠凹溝
302bが形成されている。前記のボール303は、水
の密度より大きい材質からなっている。前記フィルター
固定ブラケット340は、正面からみるとL字形に折曲
形成され、その上側の端部が前記第2支持フレーム27
0の上方の前後面にネジ結合されている。At the center of the stopper 302, a locking hole 302 is provided so as not to block the passage above the expanding pipe portion 373a when the ball 303 is raised by water pressure.
a is formed at the end of the locking hole 302a, and when the ball 303 is raised and locked in the locking hole 302a, the purified water in the purified water storage tank 330 flows freely into the hot water tank 360. As described above, a number of notched grooves 302b are formed at regular intervals from each other. The ball 303 is made of a material larger than the density of water. The filter fixing bracket 340 is bent in an L-shape when viewed from the front, and an upper end thereof is connected to the second support frame 27.
It is screwed to the front and rear surfaces above the zero.
【0017】前記のろ過手段350は、水道栓(図示さ
れていない)から供給された原水が通過する時、原水の
中に含まれた錆カス等の浮遊物質を除去するように、前
記フィルター固定ブラケット340の上板の底面に交換
可能に設置された沈澱フィルター351と、前記沈澱フ
ィルター351から供給された原水が通過する時、原水
の中に含まれた塩素成分等の異物質を除去するように、
フィルター固定ブラケット340の上板の底面に交換可
能に設置された前処理フィルター352と、前記の前処
理フィルター352から前記下部パネル210の上面の
一側に設置された加圧ポンプ400に供給されて加圧さ
れた原水が通過する時、原水の中に含まれた各種の重金
属及び発ガン物質を除去するようにフィルター固定ブラ
ケット340の上板の底面に交換可能に設置された逆浸
透フィルター353と、前記逆浸透フィルター353か
ら供給された原水が通過する時、原水の中に含まれてい
る臭い及び有毒ガス成分を除去するように、フィルター
固定ブラケット340の上板の底面に交換可能に設置さ
れた後処理フィルター354と、前記の後処理フィルタ
ー354から供給された原水が通過する時、原水の中に
含まれた有害菌を殺菌し前記の浄水貯蔵桶330に供給
されるように、前記下部パネル210の上面の一側に設
置された殺菌フィルター355とからなっている。The filtering means 350 is used to fix the filter so as to remove suspended substances such as rust scum contained in the raw water when the raw water supplied from a tap (not shown) passes therethrough. A sediment filter 351 replaceably installed on the bottom surface of the upper plate of the bracket 340, and removes foreign substances such as chlorine components contained in the raw water when the raw water supplied from the sediment filter 351 passes. To
The pre-processing filter 352, which is replaceably installed on the bottom surface of the upper plate of the filter fixing bracket 340, is supplied to the pressurizing pump 400, which is installed on one side of the upper surface of the lower panel 210, from the pre-processing filter 352. When the pressurized raw water passes through, a reverse osmosis filter 353 replaceably installed on the bottom surface of the upper plate of the filter fixing bracket 340 to remove various heavy metals and carcinogens contained in the raw water. When the raw water supplied from the reverse osmosis filter 353 passes, the filter fixing bracket 340 is replaceably installed on the bottom surface of the upper plate so as to remove odor and toxic gas components contained in the raw water. When the raw water supplied from the post-processing filter 354 and the post-processing filter 354 passes, harmful bacteria contained in the raw water are removed. As supplied to the purified water storage tank 330 of bacteria above, it consists installed fungicidal filter 355. on one side of the upper surface of the lower panel 210.
【0018】この時、前記の沈澱フィルター351、前
処理フィルター352、逆浸透フィルター353、後処
理フィルター354、殺菌フィルター355及び加圧ポ
ンプ400は、原水の流れを案内する第5配管374に
より相互に連結されている。前記の逆浸透フィルター3
53の下部一側には、その内部を通過する時に発生され
る濃縮水が外部に排出されるように、濃縮水管410が
連結されている。At this time, the settling filter 351, the pretreatment filter 352, the reverse osmosis filter 353, the post-treatment filter 354, the sterilization filter 355, and the pressure pump 400 are mutually connected by a fifth pipe 374 for guiding the flow of raw water. Are linked. The above reverse osmosis filter 3
A concentrated water pipe 410 is connected to one side of the lower part of 53 so that concentrated water generated when passing through the inside is discharged to the outside.
【0019】一方、前記下部空間Lの上側には、前記浄
水貯蔵桶330に貯蔵された浄水が供給され一定容量に
貯蔵すると同時に、後述する熱交換手段により、浄水を
冷たい温度に熱交換させるように、前記中間パネル28
0の下面の中央に冷水桶450が所定の高さに掛けられ
るように密着されてネジ結合されており、その下側には
前記の下部パネル210を媒介として、殺菌フィルター
355、加圧ポンプ400、排水転換手段460、送風
手段470、トランス480が、それぞれ所定の位置に
設置されている。On the other hand, the purified water stored in the purified water storage tank 330 is supplied to the upper side of the lower space L and stored in a fixed volume, and at the same time, the purified water is heat-exchanged to a cold temperature by a heat exchange means described later. The intermediate panel 28
A cold water tub 450 is tightly screwed to a predetermined height at the center of the lower surface of the lower surface 0 and screwed to the lower side. , A drain conversion means 460, a blowing means 470, and a transformer 480 are respectively installed at predetermined positions.
【0020】この時、前記冷水桶450には、下部に冷
水桶450内部の浄水を冷たく熱交換させる熱交換手段
490が結合されており、その外側の側壁にはスイッチ
ングモードパワー部500(Switching Mo
de Power)が設置されており、その外側の側壁
端には、濃縮水量調節バルブ510が設置されており、
その上部の一側には、冷水桶450内部に受容され冷水
の上下側水位の温度を感知するように温度感知棒520
が設置されている。At this time, a heat exchanging means 490 for exchanging the purified water in the cold water tub 450 with cold heat is connected to the lower part of the cold water tub 450, and a switching mode power unit 500 (Switching Mo) is provided on an outer side wall thereof.
de Power) is installed, and a concentrated water amount control valve 510 is installed at an outer side wall end thereof.
On one side of the upper part, a temperature sensing rod 520 is received inside the cold water tub 450 so as to sense the temperature of the upper and lower water levels of the cold water.
Is installed.
【0021】前記の熱交換手段490は、前記冷水桶4
50に貯蔵された浄水に接触されつつ、底面が冷水桶4
50の底を貫通し外部に露出されるコールドシンク49
1(Cold Sink)と、前記コールドシンク49
1の下部面に緊密に密着されるように、前記冷水桶45
0の下部面に緊密に密着されるように、前記冷水桶45
0の下部面に多数個の締結ネジ493及びスリーブ49
4を媒介として、適正な圧力で固定されるヒートシンク
495とからなっている。この時、前記コールドシンク
491の上部側とヒートシンク495の下部側には、伝
熱面積を高めるように水平方向に多数個の切欠溝491
a、495aがそれぞれ形成されている。The heat exchange means 490 is provided in the cold water tub 4.
The bottom is cold water tank 4 while being in contact with the purified water stored in 50
Cold sink 49 which is exposed to the outside through the bottom of 50
1 (Cold Sink) and the cold sink 49
1 so as to be tightly attached to the lower surface of
0 so that it is tightly adhered to the lower surface of
0, a number of fastening screws 493 and a sleeve 49
4 and a heat sink 495 fixed at an appropriate pressure. At this time, a plurality of notches 491 are formed in a horizontal direction on an upper side of the cold sink 491 and a lower side of the heat sink 495 so as to increase a heat transfer area.
a, 495a are respectively formed.
【0022】一方、前記中間パネル280の正面には、
前記浄水貯蔵桶330、温水桶360、冷水桶450か
ら外部にそれぞれ流出される水を、電気的な信号によっ
て制御する第1乃至第3電子バルブ530、531、5
32が固定するように垂直方向に直角に、バルブ固定ブ
ラケット281が一体に折曲形成されており、前記第1
乃至第3電子バルブ530、531、532の一側端に
は、前記浄水貯蔵桶330の第2流出口335と温水及
び冷水桶360、450の流出口(符号図示されていな
い)を通して流出される水が、第1乃至第3電子バルブ
530、531、532を通過するように、それぞれ水
排出ホース540、542が連結されており、前記第1
乃至第3電子バルブ530、531、532の他側端に
は、前記浄水貯蔵桶330、温水桶360、冷水桶45
0から第1乃至第3電子バルブ530、531、532
にそれぞれ流出される水を一場所に流出させるように取
水ホース550が連結されている。On the other hand, on the front of the intermediate panel 280,
First to third electronic valves 530, 531, and 5 that control the water flowing out of the purified water storage tank 330, the hot water tank 360, and the cold water tank 450, respectively, using an electric signal.
The valve fixing bracket 281 is integrally bent at right angles to the vertical direction so that the first fixing member 32 is fixed.
In addition, one end of the third electronic valves 530, 531 and 532 flows out through the second outlet 335 of the purified water storage tank 330 and the outlets (not shown) of the hot and cold water tanks 360 and 450. Water discharge hoses 540 and 542 are connected so that water passes through the first to third electronic valves 530, 531 and 532, respectively.
The other ends of the third electronic valves 530, 531 and 532 include the purified water storage tub 330, the hot water tub 360, and the cold water tub 45, respectively.
0 to first to third electronic valves 530, 531 and 532
A water intake hose 550 is connected so that the water flowing out to each of the outlets flows out to one place.
【0023】まず、水道栓(図示されていない)に製品
を連結してから、水道栓を捩じると原水が水道栓にかか
る一定水圧と加圧ポンプ400の稼動による圧力によっ
て、複数のろ過手段350を通して浄水化される。すな
わち、水道栓から供給された原水が沈澱フィルター35
1の内部を通過する時、原水の中に含まれた錆カス等の
浮遊物質が除去され、この沈澱フィルター351を通し
てから前処理フィルター352を通過する時、原水の中
に含まれた塩素成分等の異物質が除去され、この前処理
フィルター352を通してから、逆浸透フィルター35
3を同時通過する時、原水の中に含まれた各種の重金属
及び発ガン物質が除去される。First, the product is connected to a tap (not shown), and then the tap is twisted so that the raw water is subjected to a plurality of filtrations by a constant water pressure applied to the tap and the pressure generated by the operation of the pressure pump 400. Water is purified through the means 350. That is, the raw water supplied from the faucet is transferred to the sedimentation filter 35.
1, suspended substances such as rust scum contained in the raw water are removed. When passing through the settling filter 351 and passing through the pre-treatment filter 352, chlorine components and the like contained in the raw water are removed. Is removed, and after passing through the pretreatment filter 352, the reverse osmosis filter 35
During the simultaneous passage, various heavy metals and carcinogens contained in the raw water are removed.
【0024】そして、逆浸透フィルター353を通して
から後処理フィルター354を通過する時、原水の中に
含まれている臭い及び有毒ガス成分が除去され、この後
処理フィルター354を通してから殺菌フィルター35
5を通過する時、原水の中に含まれている有害細菌が、
1次殺菌処理によって浄水貯蔵桶330の上端高さに連
結されている第1配管を通し、図5の図示のように浄水
貯蔵桶330の内部に供給される。When passing through the reverse osmosis filter 353 and passing through the post-processing filter 354, the odor and toxic gas components contained in the raw water are removed.
When passing through 5, harmful bacteria contained in the raw water,
As shown in FIG. 5, the water is supplied into the purified water storage tank 330 through the first pipe connected to the upper end of the purified water storage tank 330 by the primary sterilization process.
【0025】また、浄水貯蔵桶330の内部に供給され
た浄水の一部は、浄水貯蔵桶330の後側と温水桶36
0の後側とを連結する第4配管373を通し、浄水貯蔵
桶330の水位と同一な水位まで温水桶360に供給さ
れて、一部の浄水は浄水貯蔵桶330の底に形成された
第3流出口336と相互に連結された冷水桶450の上
部側を通し、満水位になる一定容量になるまで供給さ
れ、これらの浄水貯蔵桶330と温水及び冷水桶36
0、450が一定水位になると、浄水貯蔵桶330の蓋
332の一側に装着された水位感知手段380の多段階
感知信号によって原水供給が遮断されると同時に、加圧
ポンプ400の稼動が停止されるようになる。A part of the purified water supplied to the inside of the purified water storage tank 330 is supplied to the rear of the purified water storage tank 330 and the hot water tank 36.
The water is supplied to the hot water tank 360 through the fourth pipe 373 connecting the rear side of the hot water storage tank 330 to the same water level as that of the purified water storage tank 330, and a part of the purified water is formed at the bottom of the purified water storage tank 330. The water is supplied through the upper side of the cold water tub 450 interconnected with the three outlets 336 until the water reaches a certain level to reach a full level.
When 0 and 450 reach a certain water level, the supply of raw water is interrupted by the multi-level sensing signal of the water level sensing means 380 attached to one side of the lid 332 of the purified water storage tank 330, and at the same time, the operation of the pressure pump 400 is stopped. Will be done.
【0026】この時、浄水貯蔵桶330、温水及び冷水
桶360、450の内部の水位が低くなると、水位感知
手段380の多段階水位感知が遂行されると同時に、前
面パネル220のコントロールパッド290に形成され
た透明部(符号図示していない)を通し、メインPCB
(図示していない)のディスプレー部に表示されて、そ
れによって使用者は、浄水貯蔵桶330、温水及び冷水
桶360、450内に貯蔵されている水の消耗量を確認
し得る。At this time, when the water level inside the purified water storage tank 330, the hot and cold water tanks 360 and 450 becomes low, the water level detecting means 380 performs the multi-stage water level detection and simultaneously the control pad 290 of the front panel 220. The main PCB is passed through the formed transparent portion (not shown).
Displayed on a display unit (not shown), the user can check the consumption of water stored in the purified water storage tank 330, the hot and cold water tanks 360 and 450.
【0027】そして、浄水貯蔵桶330及び冷水桶45
0の浄水を取水する時、その内部の水位が温水桶360
の水位より低くなるか、または浄水貯蔵桶330から温
水への浄水の流れが停止されると、前記第4配管373
の拡大管部373aに設置されたボール303が、自体
の重量と温水桶360内の水圧によって下降動作され
て、図7の(b)のように第4配管373の内周面に緊
密に接触され通路を閉鎖し、温水桶360内に貯蔵され
た浄水(温水)が浄水貯蔵桶330に逆流されないよう
にする。Then, the purified water storage tub 330 and the cold water tub 45
When the clean water of 0 is taken, the water level inside it becomes 360
When the water level becomes lower than the water level, or when the flow of purified water from the purified water storage tank 330 to the warm water is stopped, the fourth pipe 373 may be used.
The ball 303 installed in the enlarged pipe portion 373a is lowered by its own weight and the water pressure in the hot water tub 360 to come into close contact with the inner peripheral surface of the fourth pipe 373 as shown in FIG. Then, the passage is closed to prevent the purified water (hot water) stored in the heated water tank 360 from flowing back to the purified water storage tank 330.
【0028】しかし、浄水貯蔵桶330内の浄水が温水
桶360に供給される時は、ボール303が図7の
(a)の図示のように、供給水圧により上昇動作される
と同時に、ストッパ302の係止孔302aに係止して
ストッパされ第4配管373の内周面に接触できないの
で、浄水はストッパ302の係止孔302aの縁に形成
された多数個の切欠凹溝302bを通過し、温水桶36
0に供給される。However, when the purified water in the purified water storage tank 330 is supplied to the hot water tank 360, the ball 303 is raised by the supply water pressure as shown in FIG. Is stopped by being locked by the locking hole 302a of the stopper 302 and cannot contact the inner peripheral surface of the fourth pipe 373, so that the purified water passes through a number of notched grooves 302b formed at the edge of the locking hole 302a of the stopper 302. , Heated tub 36
0 is supplied.
【0029】この時、第4配管373は、その一側端が
前記温水桶360の底面から一定高さの側壁に連結され
ると同時に、他側端が前記浄水貯蔵桶330の底面から
一定高さの側面に連結されているので、浄水貯蔵桶33
0内の浄水が第4配管373に沿って温水桶360に供
給される時、温水桶360内に作用する一定圧力(水
圧)を受けず円滑に供給され得る。At this time, the fourth pipe 373 has one end connected to a side wall having a predetermined height from the bottom of the hot water tub 360 and the other end connected to a predetermined height from the bottom of the purified water storage tub 330. Because it is connected to the side of
When the purified water within 0 is supplied to the hot water tub 360 along the fourth pipe 373, it can be supplied smoothly without receiving a constant pressure (water pressure) acting in the hot water tub 360.
【0030】一方、浄水貯蔵桶330の蓋332に設置
された殺菌ランプ390は、その先端が浄水貯蔵桶33
0の底に形成された第3流出口336を通し、冷水桶4
50の内部に一定高さまで垂直に設置され、浄水貯蔵桶
330と冷水桶450の内部に貯蔵された浄水の中に含
まれた菌を同時に2次殺菌する。すなわち、殺菌ランプ
390から発散される紫外線光は、浄水貯蔵桶330と
冷水桶450の内に一定容量に満たされた浄水に照射さ
れるので、浄水貯蔵桶330内に貯蔵された浄水が、長
期間外部に排出されない状態に放置される時に発生可能
性がある微生物繁殖を効果的に抑制して、2次細菌汚染
を未然に防止させる。On the other hand, the sterilizing lamp 390 installed on the lid 332 of the purified water storage tank 330 has
Through the third outlet 336 formed in the bottom of the cold water tub 4
It is installed vertically to a certain height inside 50, and simultaneously sterilizes bacteria contained in purified water stored in the purified water storage tank 330 and the cold water tank 450 at the same time. That is, the ultraviolet light radiated from the sterilizing lamp 390 is irradiated on the purified water filled in the water purifying tank 330 and the cold water trough 450 to a predetermined volume, so that the purified water stored in the water purifying tank 330 is long. The present invention effectively suppresses the growth of microorganisms that may occur when left undischarged for a period, thereby preventing secondary bacterial contamination.
【0031】一方、温水供給のために温水桶360に設
置したヒーター部材(図示されていない)が稼動される
と、このヒーター部材は印加された電流供給によって設
定された温度にヒーティングされつつ、温水桶360内
に貯蔵された浄水を熱く熱交換させるようになる。そし
て、冷水供給のために、送風手段470と熱交換手段4
90の熱伝素子492を稼動させると、この送風手段4
70のモーター471は電源が印加され駆動されつつフ
ァン472を回転させるようになり、このファン472
の回転による送風力により、外部の空気は下部パネル2
10の中央に形成されたベルマウス211の通路を通じ
本体200の内部に流入すると同時に、熱交換手段49
0のヒートシンク495に直接ぶつかるようになる。On the other hand, when a heater member (not shown) installed in the hot water tub 360 for supplying hot water is operated, the heater member is heated to a set temperature by the applied electric current while being heated. The purified water stored in the hot water tub 360 is heat-exchanged. In order to supply cold water, the blowing means 470 and the heat exchanging means 4
When the 90 heat transfer elements 492 are operated, the blowing means 4
The motor 471 rotates the fan 472 while being powered and driven.
The outside air is blown by the rotation of the
At the same time as flowing into the inside of the main body 200 through the passage of the bell mouth 211 formed at the center of the
0 directly hits the heat sink 495.
【0032】この時、ヒートシンク495は、前記の送
風により冷たく冷却され、前記熱伝素子492の電子的
な特性によって、冷水桶450内に受容されたコールド
シンク491に伝導された熱を外部に放出させる冷却サ
イクルを繰り返すことによって、冷水桶450内に貯蔵
された浄水は低い温度に冷たく熱交換がなされる。一
方、使用者が浄水貯蔵桶330、温水及び冷水桶36
0、450内に貯蔵された温水及び冷水をカップ等の容
器(図示されていない)に受けようとする場合は、まず
前面パネル220のコントロールパッド290上に突出
された電源ボタン(符号図示されていない)を押すと同
時に、浄水ボタン(符号図示されていない)を押してか
ら、カップ等の容器を取水ホース550に位置させて、
前面パネル220の下部側の中央に突出された押しボタ
ン310に向かって押す。At this time, the heat sink 495 is cooled down by the above-mentioned air flow, and radiates the heat conducted to the cold sink 491 received in the cold water trough 450 to the outside due to the electronic characteristics of the heat transfer element 492. By repeating the cooling cycle, the purified water stored in the cold water tub 450 is cooled to a low temperature and exchanges heat. On the other hand, when the user operates the purified water storage tub 330, the hot and cold water tub 36,
In order to receive the hot and cold water stored in the container 0, 450 into a container (not shown) such as a cup, first, a power button (reference numeral shown in FIG. At the same time as pressing the water purification button (not shown), and then placing a container such as a cup on the water hose 550,
The user pushes the push button 310 toward the center of the lower part of the front panel 220.
【0033】この時、押しボタン310は、後側に移動
する動作により押しボタン310内の図示されていない
稼動接点と固定接点が接続するオン信号をマイコン(図
示されていない)にデータ入力させると、このマイコン
はそのデータを判別しプログラム化した入力により、第
1電子バルブ530がオン動作されて取水通路を開放さ
せるようになり、この取水通路の開放により浄水貯蔵桶
330内に貯蔵された浄水は、浄水貯蔵桶330と第1
電子バルブ530を連結する水排出ホース540に沿っ
て流れると同時に、第1電子バルブ530と連結された
取水ホース550に沿って流れ、前記カップ等の容器内
に排出されることにより取水が可能になる。そして、取
水時に水受け桶320に集水された残水は、水受け桶3
20と排水転換手段460との間を連結する残水配水管
(図示されていない)に沿って製品の外部に排水され
る。At this time, the push button 310 causes the microcomputer (not shown) to input an ON signal for connecting the operating contact (not shown) and the fixed contact in the push button 310 to the microcomputer by an operation of moving the push button 310 backward. The microcomputer determines the data and inputs the programmed input signal to turn on the first electronic valve 530 to open the water intake passage. By opening the water intake passage, the purified water stored in the water purifying storage tank 330 is opened. Is the water purifier 330 and the first
At the same time as flowing along the water discharge hose 540 connected to the electronic valve 530, it flows along the water intake hose 550 connected to the first electronic valve 530, and is discharged into a container such as the cup so that water can be taken. Become. The remaining water collected in the water basin 320 at the time of water intake is supplied to the water basin 3
The waste water is drained to the outside of the product along a residual water distribution pipe (not shown) connecting the drain water conversion means 460 and the drainage conversion means 460.
【0034】[0034]
【発明の効果】前述したような本発明による水分配機に
よると、浄水貯蔵桶と温水桶とを連結する配管の垂直ラ
インに水圧と自体の重量により上下降されつつ、配管の
通路を開閉するストッパとボールとからなっている、温
水逆流防止手段が設置された構造からなっているので、
費用負担を減らすことができ、電子的な回路構成を除去
すると同時に、構造を単純にして作業能率を高める効果
がある。また、配管の入出口が浄水貯蔵桶と温水桶の底
から一定高さの側壁に設置された構造からなっているの
で、浄水貯蔵桶内の浄水が配管に沿って温水桶に供給さ
れる時、温水桶内に作用する一定圧力(水圧)を受けず
円滑に供給されることができる効果がある。According to the water distributor according to the present invention as described above, the vertical line of the pipe connecting the purified water storage tub and the hot water tub is opened and closed by the water pressure and the weight of the pipe, while opening and closing the pipe. Since it has a structure with hot water backflow prevention means consisting of a stopper and a ball,
The cost burden can be reduced, and the electronic circuit configuration can be eliminated, and at the same time, the structure can be simplified and the working efficiency can be improved. In addition, since the entrance and exit of the piping are installed on the side wall at a certain height from the bottom of the hot water storage tank and the hot water storage tank, when the purified water in the water purification storage tank is supplied to the hot water tank along the pipes Therefore, there is an effect that the water can be supplied smoothly without receiving a constant pressure (water pressure) acting in the hot water tub.
【図1】 従来の水分配機を図示した断面図である。FIG. 1 is a cross-sectional view illustrating a conventional water distributor.
【図2】 本発明の水分配機を図示した全体斜視図であ
る。FIG. 2 is an overall perspective view illustrating a water distributor according to the present invention.
【図3】 本発明の水分配機の内部を図示した結合斜視
図である。FIG. 3 is a combined perspective view illustrating the inside of the water distributor of the present invention.
【図4】 本発明の水分配機の内部を図示した分解斜視
図である。FIG. 4 is an exploded perspective view illustrating the inside of the water distributor of the present invention.
【図5】 本発明の水分配機を図示した概略断面図であ
る。FIG. 5 is a schematic sectional view illustrating a water distributor according to the present invention.
【図6】 本発明による温水逆流防止手段のボールとス
トッパとを図示した分解斜視図である。FIG. 6 is an exploded perspective view illustrating a ball and a stopper of the hot water backflow prevention unit according to the present invention.
【図7】 (a)、(b)は、本発明による温水逆流防
止手段の動作状態を図示した要部断面図である。FIGS. 7 (a) and 7 (b) are cross-sectional views showing the operation of the hot water backflow prevention means according to the present invention.
300 温水逆流防止手段 302 ストッパ 302a 係止孔 302b 切欠凹溝 303 ボール 330 浄水貯蔵桶 360 温水桶 373 第4配管 373a 拡大管部 300 Hot water backflow prevention means 302 Stopper 302a Locking hole 302b Notched concave groove 303 Ball 330 Purified water storage tank 360 Hot water tank 373 Fourth piping 373a Enlarged pipe section
Claims (5)
桶に流入されるように、配管に温水逆流防止手段を設置
した水分配機において、 前記の温水逆流防止手段は、 前記配管の垂直ライン側の拡大管部の内部に設置されて
いるストッパと、 浄水貯蔵桶の浄水が、温水桶に供給される水圧によって
上昇動作され前記のストッパに接触され、前記配管の通
路を開放して水の流れを自由にし、また浄水貯蔵桶から
温水桶に浄水供給が終了される時に、自体の重量により
下降動作されつつ、配管の通路を閉鎖し水が逆流されな
いように拡大管部の内部に設置されたボールから構成さ
れたことを特徴とする水分配機。1. A water distributor in which a hot water backflow prevention means is installed in a pipe so that purified water in a purified water storage tank flows into the hot water tank along the pipe. A stopper installed inside the enlarged pipe part on the vertical line side, the purified water in the purified water storage tank is raised by the water pressure supplied to the hot water tank, and is brought into contact with the stopper to open the passage of the pipe. When the purified water supply from the purified water storage tub to the hot water tub is completed, it is lowered by its own weight, while closing the pipe passage to prevent the water from flowing back inside the enlarged pipe section. A water distribution machine comprising a ball installed.
ボールが水圧により上昇動作される時、前記拡大管部の
上端通路を塞がないように形成されている係止孔と、 前記係止孔の縁に前記ボールが上昇動作され係止孔に係
止される時、浄水貯蔵桶内の浄水が温水桶に自由に流れ
るように形成された多数個の切欠凹溝とを備えたことを
特徴とする請求項1記載の水分配機。2. The stopper according to claim 2, wherein the stopper has a locking hole formed at a center thereof so as not to block an upper end passage of the enlarged pipe portion when the ball is raised by water pressure. A plurality of notch grooves formed at the edge of the stop hole so that the purified water in the purified water storage tank flows freely into the hot water tank when the ball is raised and locked in the locking hole. The water distributor according to claim 1, characterized in that:
からなっていることを特徴とする請求項1記載の水分配
機。3. The water distributor according to claim 1, wherein said balls are made of a material having a density higher than that of water.
に前記配管に一体に成型されたことを特徴とする請求項
1記載の水分配機。4. The water distributor according to claim 1, wherein said stopper is formed integrally with said pipe together with said enlarged pipe section.
が温水桶に供給される時、温水桶内に作用する一定圧力
(水圧)に耐え円滑に供給されるように、その一側端が
前記温水桶の底面から一定高さの側壁に連結されると同
時に、他側端が前記浄水貯蔵桶の底面から一定高さの側
面に連結されることを特徴とする請求項1記載の水分配
機。5. The one side of the pipe is such that when purified water in the purified water storage tub is supplied to the hot tub, the pipe is smoothly supplied with a constant pressure (water pressure) acting in the hot tub. 2. The end according to claim 1, wherein an end is connected to a side wall having a certain height from the bottom of the hot water tub, and another end is connected to a side having a certain height from the bottom of the purified water storage tub. Water distributor.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| KR19976653 | 1997-02-28 | ||
| KR1019970006653A KR19980069544A (en) | 1997-02-28 | 1997-02-28 | Hot water backflow prevention device for water distributor |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH10235337A true JPH10235337A (en) | 1998-09-08 |
Family
ID=19498410
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP9287302A Pending JPH10235337A (en) | 1997-02-28 | 1997-10-20 | Water distribution system |
Country Status (3)
| Country | Link |
|---|---|
| JP (1) | JPH10235337A (en) |
| KR (1) | KR19980069544A (en) |
| CN (1) | CN1191765A (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104437087A (en) * | 2014-11-13 | 2015-03-25 | 广东艾沃科技有限公司 | Multifunctional water tank |
| JP2016155080A (en) * | 2015-02-24 | 2016-09-01 | 広島化成株式会社 | Hydrogen water production device |
| JP2016203095A (en) * | 2015-04-22 | 2016-12-08 | 日機装株式会社 | Sterilizer |
| CN113180477A (en) * | 2021-06-07 | 2021-07-30 | 北京悦米科技有限公司 | Pollution-free underneath type water dispenser duct system capable of supplementing trace elements |
-
1997
- 1997-02-28 KR KR1019970006653A patent/KR19980069544A/en active IP Right Grant
- 1997-10-20 JP JP9287302A patent/JPH10235337A/en active Pending
- 1997-10-21 CN CN97120490A patent/CN1191765A/en active Pending
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104437087A (en) * | 2014-11-13 | 2015-03-25 | 广东艾沃科技有限公司 | Multifunctional water tank |
| JP2016155080A (en) * | 2015-02-24 | 2016-09-01 | 広島化成株式会社 | Hydrogen water production device |
| JP2016203095A (en) * | 2015-04-22 | 2016-12-08 | 日機装株式会社 | Sterilizer |
| CN113180477A (en) * | 2021-06-07 | 2021-07-30 | 北京悦米科技有限公司 | Pollution-free underneath type water dispenser duct system capable of supplementing trace elements |
Also Published As
| Publication number | Publication date |
|---|---|
| KR19980069544A (en) | 1998-10-26 |
| CN1191765A (en) | 1998-09-02 |
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