100年07月20日修正替換頁 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作是有關於一種供水控制器,特別是有關於具有穩 壓供水與無水斷電功效之供水控制器。 【先前技術】 [0002] 傳統之加壓送水機會在其輸出端的管路上設置壓力偵測 開關及壓力桶’當用戶端打開水龍頭時,用戶端的供水 管路之壓力降低’則壓力伯測開關偵測壓力低於預設的 低壓值後就會啟動加壓送水機的抽水幫浦運轉。當用戶 端關閉水龍頭,而抽水幫浦繼續運轉中用戶端供水管路 内的壓力增加至預設的高壓值時,該壓力偵測開關就會 關閉抽水幫浦◊由於抽水幫浦的運轉會隨著用水流量的 大小使其管内水壓力而產生高低變化’當用水流量少時 壓力立刻增高’容易增至設定停止運轉之壓力值,而柚 水幫浦停止運轉又會因不斷繼續用水使輸出管路水壓下 降到達設定之抽水幫浦運轉啟動壓力值,是故抽水幫浦 又一再繼續運轉’造成用戶端用水時會覺得水龍頭的水 流會忽大忽小或產生水流瞬間增大的脈衝現象,當使用 熱水器時,就可能因水流忽大忽小使得熱水器點火不穩 ,熱水會有忽冷忽熱的問題。 【新型内容】 [0003] 综合所述,關於習知技術所衍生之問題’本創作目的之 一就是在提供一種供水控制器以解決習知技術之問題。 [0004] 具體而言,本創作之供水控制器至少包含一逆水閥體、 一第一活動桿體與 < 第二活動桿體。詳言之,本創作之 表單煸號A0101 第3頁/共21頁 , M429018 100年07月20日修正替換頁 供水控制器不僅與一受水管路及一送水管路連接,更與 一外部馬達電性連接。因此,利用本創作之供水控制器 可達成穩壓供水與無水斷電等兩大目的。Correction and replacement page on July 20, 100. New description: [New technical field] [0001] This creation is about a water supply controller, especially for water supply control with regulated water supply and water-free power-off function. Device. [Prior Art] [0002] The conventional pressurized water supply device is provided with a pressure detecting switch and a pressure tank on the pipeline at the output end. When the user opens the faucet, the pressure of the water supply line at the user end is lowered. When the measured pressure is lower than the preset low pressure value, the pumping pump of the pressurized water dispenser is started. When the user closes the faucet and the pumping pump continues to operate, the pressure in the water supply line of the user terminal increases to a preset high pressure value, the pressure detecting switch will close the pumping pump ◊ because the pumping pump will operate The water flow rate causes the water pressure in the pipe to produce high and low changes. 'When the water flow rate is low, the pressure immediately increases.' It is easy to increase to the pressure value of the stop operation, and the grapefruit water pump stops running and the output pipe is continuously used. The water pressure drop reaches the set pumping start pressure value, so the pumping pump will continue to run again. 'When the user uses water, the water flow of the faucet will be suddenly large or small, or the water flow will increase instantaneously. When using a water heater, the water heater may be unstable due to the flow of water, and the hot water may be hot and cold. [New Content] [0003] In summary, the problems arising from the prior art are one of the objects of the present invention to provide a water supply controller to solve the problems of the prior art. [0004] Specifically, the water supply controller of the present invention includes at least one reverse water valve body, a first movable rod body and a second movable rod body. In particular, the form of this creation is nicknamed A0101 Page 3 of 21, M429018 Revised on July 20, 100. Replacement page The water supply controller is not only connected to a water supply line and a water supply line, but also to an external motor. Electrical connection. Therefore, the water supply controller of the creation can achieve two major purposes of regulated water supply and waterless power failure.
[0005] 要言之,逆水閥體撐抵於供水控制器之内壁緣並靠近受 水管路,且逆水閥體係由耐候材質之塑膠所組成之單向 閥。再者,第一活動桿體係與逆水閥體以同心共構的方 式耦接於供水控制器之一内槽,本獨特而且實用的機構 是現時市面上所有其他廠牌供水控制器所不具有,也無 可比擬的創作設計。第二活動桿體係橫向樞設於該第一 活動桿體,第一、二活動桿體互成90度角第一活動桿體 之一端部設有一第一磁性單元且第二活動桿體設有一第 二磁性單元,並且設於第二活動桿體上之第二磁性單元 係與第二磁簧開關組成壓力開關。補述之,逆水閥體更 設有一彈性單元與内槽壁相連,該彈性單元係用於限制 逆水閥體在一定的區間移動。除此之外,本創作之供水 控制器更可以包含一開關盒,係設有一第一磁簧開關與 一第二磁簧開關,第一磁簧開關與第二磁簧開關可於特 定區域内分別與第一磁性單元及第二磁性單元相互感應 [0006] 具體而言,本創作之供水控制器之作動原理,係當送水 管路内之一水流輸出至外部時,送水管路會與受水管路 即便只是微量水流就會產生一壓差,使第一活動桿體上 浮並使該第一磁簧開關感應到該第一磁性單元,同時第 二磁簧開關感應到第二活動桿體的第二磁性單元,使馬 達電性連接,啟動加壓幫浦運轉,外部水流就可以經由 表單编號A0101 第4頁/共21頁 M429018 100年07月20日修正替換頁[0005] In other words, the reverse water valve body is supported by the inner wall edge of the water supply controller and is close to the water receiving pipe, and the reverse water valve system is a one-way valve composed of weather resistant plastic material. Furthermore, the first movable rod system and the reverse water valve body are coupled to one of the water supply controllers in a concentric joint manner. The unique and practical mechanism is not available in all other brands of water supply controllers currently on the market. There is also an unparalleled creative design. The second movable rod system is laterally pivoted on the first movable rod body, and the first and second movable rod bodies are at a 90 degree angle to each other. One end of the first movable rod body is provided with a first magnetic unit and the second movable rod body is provided with a first movable rod body. The second magnetic unit, and the second magnetic unit and the second reed switch disposed on the second movable rod body constitute a pressure switch. In addition, the reverse water valve body is further provided with an elastic unit connected to the inner groove wall, and the elastic unit is used for restricting the movement of the reverse water valve body in a certain interval. In addition, the water supply controller of the present invention may further comprise a switch box, which is provided with a first reed switch and a second reed switch, and the first reed switch and the second reed switch can be in a specific area. Inductively interacting with the first magnetic unit and the second magnetic unit respectively [0006] Specifically, the operation principle of the water supply controller of the present invention is that when one of the water flows in the water supply pipe is output to the outside, the water supply pipe is affected The water pipeline generates a pressure difference even if only a small amount of water flows, so that the first movable rod body floats up and the first reed switch senses the first magnetic unit, and the second reed switch senses the second movable rod body. The second magnetic unit electrically connects the motor and starts the pressurized pump operation. The external water flow can be corrected by the form number A0101. Page 4 of 21 M429018 Correction page of July 20, 100
受水管路流入供水控制器,使逆水閥體浮起。此時水流 就可以源源不斷供給予送水管路,然送水管路之手動閥 門關閉後,因為外部馬達不斷的加壓,終致使供水控制 器内部會呈現飽壓狀態,且在加壓過程中會使第二活動 桿體受流入水流之同步推壓而移動至第二磁簣開關無法 感應之區域致使電源切斷,外部馬達因此不再運轉。若 因為缺水,受水管路無水流進入控制器,接著第一活動 桿體隨之下沉,導致無法推升第一磁性單元與第一磁簧 開關相互感應,故馬達無法啟動而達到缺水斷電之安全 保護功能。 [0007] 再者,本創作更利用設置於第二活動桿體之一端部的介 面橡皮,介面橡皮係用於限制及緩衝該第二活動桿體之 位移,其中,介面橡皮係圓弧S形,用來增加介面橡皮的 使用時間,除此之外,鄰近第二活動桿體之此端部更設 有圓盤背座裝置,該裝置使得介面橡皮更能承受長期的 水錘衝擊效應並避免介面橡皮由於過多的延伸量而產生 鬆弛及彈性疲乏,此裝置是目前其他市售供水控制器品 牌所沒有的又一項獨創之功能設計。 [0008] 復次,本創作以一壓力調整機構調整供水控制器内部之 飽壓大小。壓力調整機構係樞設於第二活動桿體之一端 部,使用者可藉由調整壓力調整機構之調整壓力螺絲, 俾使壓力調整機構之壓力彈簧組件形成不同之彈簧間距 。總之,壓力調整機構係用於調整第二活動桿體之承壓 極限,而此承壓極限即等同供水控制器之飽壓大小。於 是,使用者可隨其需求而動態的調整供水控制器之飽壓 表單编號A0101 第5頁/共21頁 [0009] 100年07月20日梭正替換頁 大小,進而調配外邹馬達啟閉之時程。 承上所述,#外部馬達自動斷電不再運轉時,第一活動 桿體與逆水閥體_時往復歸的方向移動及義管内水 的机動’第—磁簧開關也因而不再感應到第一磁性單元 其中,第一活動桿體與逆水閥體均設有〇型橡膠環片以 防止沒壓。在此同時,如果使用者打開送水管路,使得 即便八是微量水流輪出供水控制器,則受水管路端與送 水S路端會形成-壓^,如此將會導致水流又再_次由 受水管路端流向送水管路端4此,該第—活動桿體上 升俾以形成另—次軸外部馬達啟動運轉加壓供水並 { 推升逆水_之雜整體說來利用本創作之供水控 制器可在紐時使外部馬達自動斷電不再供水,而在以 一手動_啟送水管路輸出水流時,外部馬達將再一次 被啟動,以對應滿足水流之輸出。 [0010] 依上開之闡釋,本創作之供水控制器,其可具有一或多 個下述優點: 一夕The water-receiving line flows into the water supply controller to float the reverse water valve body. At this time, the water flow can be continuously supplied to the water supply pipeline. However, after the manual valve of the water supply pipeline is closed, the internal pressure of the water supply controller will be saturated due to the continuous pressurization of the external motor, and during the pressurization process, When the second movable lever body is pushed by the inflowing water flow and moved to an area where the second magnetic switch cannot be sensed, the power supply is cut off, and the external motor is no longer operated. If there is no water, the water flow enters the controller without water flow, and then the first movable rod sinks, which makes it impossible to push the first magnetic unit and the first reed switch to sense each other, so the motor cannot be started to reach water shortage. Safety protection function for power failure. [0007] Furthermore, the present invention further utilizes an interface rubber disposed at one end of the second movable rod body, and the interface rubber system is used for limiting and buffering the displacement of the second movable rod body, wherein the interface rubber arc S shape In addition, the end of the second movable rod body is further provided with a disc back seat device, which makes the interface rubber more resistant to long-term water hammer impact and avoids The interface rubber is slack and elastic fatigue due to excessive elongation. This device is another original functional design that is not available in other commercially available water supply controller brands. [0008] In this case, the creation adjusts the saturation pressure inside the water supply controller by a pressure adjustment mechanism. The pressure adjusting mechanism is pivotally disposed at one end of the second movable rod body, and the user can adjust the pressure adjusting screw of the pressure adjusting mechanism to make the pressure spring assembly of the pressure adjusting mechanism form different spring spacings. In short, the pressure adjustment mechanism is used to adjust the pressure limit of the second movable rod body, and this pressure limit is equivalent to the saturation pressure of the water supply controller. Therefore, the user can dynamically adjust the saturation pressure form number of the water supply controller according to his needs. A0101 Page 5 of 21 [0009] On July 20, 100, the shuttle is replacing the page size, and then the external Zou motor is activated. Close the time course. As stated above, when the external motor is automatically powered off and no longer operates, the first movable rod body and the reverse water valve body _ reciprocate in the direction of reciprocation and the water in the inner tube of the motor 'the reed switch is no longer sensed. In the first magnetic unit, the first movable rod body and the reverse water valve body are both provided with a 橡胶 type rubber ring piece to prevent no pressure. At the same time, if the user opens the water supply pipe, even if the eight water flow controller is out of the water supply controller, the water supply pipe end and the water supply S road end will form a pressure-pressure, which will cause the water flow to be again The water-receiving pipe end flows to the water supply pipe end 4, and the first-moving rod body rises to form another-sub-shaft external motor to start the operation of the pressurized water supply and {push up the reverse water _ the whole body to use the water control of the creation When the button is turned on, the external motor is automatically powered off and no longer supplies water. When the water flow is outputted by a manual water supply line, the external motor will be activated again to meet the output of the water flow. [0010] According to the above explanation, the water supply controller of the present invention may have one or more of the following advantages:
(1) 本創作之供水控制器具有無水斷電之功效。 (2) 本創作之供水控制器具有穩壓供水之功效,供水不會 有水壓脈衝或忽冷忽熱的問題。 (3)本創作之供水控制器内之圓盤背座裝置可確保介面 皮長期保壓效能,並能避免介面橡皮容易產生鬆地及 性疲乏之效果。 ⑷本創作之供水控制器係透過與逆水_同心共構 的活動桿體而具有較高的靈敏度,只需小量的水 ’ 感應作動。 ^ ° 表單编號A0101 第6頁/共21頁 M429018 100年.07月20日核正替换頁 (5)本創作之供水控制器孓逆水閥體更具有彈性元件,因 此水流不會逆流到受水管路。 【實施方式】 [0011] 首先陳明,謹遵照如后之相關圖式,茲以說明本創作之 供水控制器之主要實施例。另為便於鈞審理解,所述之 實施例中所附之相同元件係以相同之符號標示以說明之 ,於此合先述明。 [0012] 謹遵於此,懇請參閱第1圖及第2A圖至第2E圖,其係分別 為本創作之供水控制器之剖面示意圖及本創作之供水控 制器之各視圖。誠如第1圖所示,本創作之供水控制器1 至少包含一逆水閥體11、一第一活動桿體12與一第二活 動桿體13。其中,更可以包含一開關盒14。詳言之,本 創作之供水控制器1不僅與一受水管路2及一送水管路3連 接,更與一外部馬達4電性連接,送水管路3係如圖例藉 由連接手動閥19,並透過手動閥19之啟閉來決定是否送 水。準此,利用本創作之供水控制器1可達成穩壓供水與 無水斷電等兩大目的。 [0013] 具體而言,逆水閥體11撐抵於供水控制器1之内壁緣並靠 近受水管路2,且逆水閥體11係由耐候材質之塑膠所組成 之單向閥。再者,第一活動桿體12係與逆水閥體11以同 心共構的方式耦接於供水控制器1之一内槽15。復次,第 二活動桿體13係橫向枢設於該第一活動桿體12,第一活 動桿體12與第二活動桿體13互成90度角,第一活動桿體 12之一端部設有一第一磁性單元121且第二活動桿體13設 有一第二磁性單元131。補充說明,逆水閥體11更設有一 表單編號A0101 第7頁/共21頁 M429018 100年07月20日孩正脊換頁 彈性單元ill與内槽壁相連,該彈性單元ln係用於限制 逆水間體11在一定的區間移動,並使得水流不會逆流至 受水管路2,其中彈性單元U1係圖例所示之彈簧。 [0014] [0015] 除此之外,上述之開關盒14係設有一第一磁簧開關141與 一第二磁簧開關142,第一磁簧開關141與第二磁簧開關 142可於特定區域内分別與第一磁性單元121及第二磁性 單元131相互感應。實際上,當送水管路3内只要是微量 水流輸出至外部時,送水管路3會與受水管路2產生壓差 ,就會使第一活動桿體111上浮,並使第一磁簧開關141 感應到第一磁性單元121,同時第二磁簧開關142感應到 第二磁性單元131,則與該開關盒14電性連接之一外部馬 達4會被啟動並開始對受水管路2加壓送水,致使該逆水 閥體11上升藉此提供水流予送水管路3。但當關閉手動閥 19後,由於外部馬達4不斷的加壓終致使供水控制器内部 呈現飽壓狀態時,進而使第二活動桿體13受流入水流之 同步推壓而往遠離第一活動桿體12方向移動,也就是說 ,此時第二磁性單元131將逐漸移離至第二磁簧開關142 無法感應之區域。當兩者之一的磁性單元沒有感應到對 應的磁簧開關,外部馬達就會停止供水,換言之,設於 第二活動桿體13上的第二磁性單元131可以與第二磁簽開 關142組成壓力開關。在此說明,外部馬達4即為吾人所 稱之加壓馬達,其為曰常生活中所常見之加壓裝置,故 於此不再贅述該構件與受水管路2相互連接之關係與圖式 〇 復言之’本創作以-愿力調整機構16調整該供水控制器】 表單編號A0101 M429018 100年07月20日修正替換頁 内部之飽壓大小。壓力調整機構16係樞設於第二活動桿 體13之前端,使用者藉由調整壓力調整機構16之調整壓 力螺絲161俾使壓力調整機構16之壓力彈簧組件162形成 不同之彈簧間距。總之,壓力調整機構16係用於調整第 二活動桿體13之承壓極限,而此承壓極限即等同供水控 制器1之飽壓大小。於是,使用者可隨其需求而動態的調 整供水控制器1之飽壓大小,進而調配外部馬達4啟閉之 時程。另外,本創作之供水控制器1更包含介面橡皮17, 該介面橡皮17設置於第二活動桿體13之一端部,介面橡 • 皮17係用於限制及緩衝第二活動桿體13之位移。此外, 為了避免因為臨時關閉送水管路引起的水錘效應而使得 介面橡皮17受到過大的形變量,本創作之供水控制器1更 包含圓盤背座裝置18,設於鄰近第二活動桿體之端部, 亦即設於接近介面橡皮17之一側,藉以緩衝該介面橡皮 之形變。 [0016] • 承上所述,當外部馬達4自動斷電不再運轉時,第一活動 桿體12與逆水閥體11則同時往復歸的方向移動,第一磁 簧開關141也因而不再感應到第一磁性單元121。在此同 時,如果使用者打開送水管路3,使得即便只是微量水流 輸出供水控制器1,則受水管路2端與送水管路3端會形成 一壓差,如此將會導致水流又再一次由受水管路2端流向 送水管路3端。爰此,第一活動桿體12會再次藉由此壓差 上升,使第一磁簧開關141再次感應到第一磁性單元121 ,此時若第二磁簧開關142同時感應到第二磁性單元131 ,就會形成另一次趨動外部馬達4之流程。 表單编號A0101 第9頁/共21頁 M429018 ____ 100年07月20日梭正替換頁 [0017] 總括來說,利用本創作之供水控制器1可在飽壓時使外部 馬達4自動斷電不再供水,當送水管路3不斷輸出水流時 ,外部馬達4將再一次被啟動,以對應滿足水流之輸出。’ 整體而言,藉由壓力調整機構16以控制供水控制器1内部 飽壓之大小,當供水控制器1内部呈現飽壓之狀態時,遂 不再供給水流,因此本創作之供水控制器1可達成無水斷 電外另一穩壓供水之目的。也就是說,使用本創作之供 水控制器1,不會有水壓脈衝及熱水忽冷忽熱的情況發生 〇 [0018] 除此之外,吾人將更進一步的特別闡明,本創作和一般 傳統的供水控制器最大的功能差異。首先,本創作之供 水控制器1中的第一活動桿體13與逆水閥體11除了是以同 心共構之方式耦接於供水控制器1之内槽15外,更是可以 完全分開作動的兩個獨立構件,此創作設計之機構亦獨 具有可以適用於較大受水管路2之優點。其原理是,當中 的第一活動桿體13,只要受水、送水管路中微量水流流 動所產生的壓差即會受到感應而上浮,並使外部馬達4被 | 啟動對受水管路2加壓送水,藉由此加壓的強勁水流即可 輕易推升更大受水管路中相對較大的逆水閥體,而達到 供水予送水管路3的目的。但一般傳統的供水控制器在受 水管路端實際上僅設置一逆水閥體,且其磁性單元係配 置在該逆水閥體之上端部,所以在較小的受水管路中, 因為其逆水閥體相對的較小,小量水流尚可推升該逆水 閥體而作動供水;反之,若是較大的受水管路就因為其 逆水閥體相對的更大,而且沒有具備類似本創作之供水 控制器内槽設置的第一活動桿體只需微量水流所產生的 表單编號Α0101 第10頁/共21頁 .07月20日 壓差即可受到感應而單獨作動進而啟動外部馬達加壓送 水的獨待設計功能;是故小水壓就不足以推升其較大的 逆水閥體,遂致使配置該閥體上端部的磁性單元也就因 此未能感應到磁簧開關並啟動外部馬達對受水管路加壓 供水,完全喪失供水控制器應有之功能。 [0019] 另請參閱第3A圖及第3B圖,其係分別為本創作之供水控 制器之開關盒之上視圖及本創作之供水控制器之開關合 之BB剖面線之剖面示意圖。本創作供水控制器^之開關盒 14另外更包含一控制電路板143,其藉由第—磁簀開關 141與第二磁簧開關142感應之結果,以控制外部馬達4之 啟閉》當然,該開關盒14更包含三指示燈導光棒144及一 啟動導桿145,其中各指示燈導光棒144裸露於開關盒14 表面之處更以燈光透視用之壓克力146嵌入成型之方式形 成一指示燈147,啟動導桿145裸露於開關盒14表面之處 更以超音波熔接之方式形成一尼龍護膜148。要言之,使 用者可藉由各指示燈147以清楚的了解目前外部馬達4的 驅動狀態,當然也可經由尼龍護骐148以按壓啟動導桿 145強迫驅動外部馬達4。值得一提者,利用燈光透視用 之壓克力146嵌入成型與尼龍護膜148保護之方式,使得 開關盒14可耐久操作且使用壽命得以延長。 [0020] 另外,為了增加介面橡皮的使用時間,本創作更提出一 種具有圓弧S型的介面橡皮,請參閱第4圖,第4圖係為本 創作之供水控制器之介面橡皮之剖面示意圖。進一步言 之,目前一般其他市售供水控制器廠牌雖然同樣都設置 有一介面橡皮,但其構造均為扁平狀,故當習知的供水 表單編號A0101 第丨丨頁/共21頁 M429018 100年07月20日修正替換頁 控制器實際作動時,此扁平狀的介面橡皮就得同步承受 並緩衝第二活動桿體高頻率的反覆推壓位移,所以市售 傳統供水控制器之扁平狀的介面橡皮很容易就會產生彈 性疲乏及龜裂,喪失其應有功能,因此而縮短了供水控 制器之使用壽命。爰此,本創作之供水控制器之介面橡 皮17因具有圓弧S形的特殊構造,除了擁有強靭的延展緩 衝性能,更不會輕易造成彈性疲乏效應及龜裂,因此可 以大大延長本創作之供水控制器之使用壽命。 [0021] 據此’以上所說明敘述僅為較佳實施例之揭示,而非用 以限定本創作之主要技術特徵。惟,任何未脫離本創作 之精神與範疇,而進行等效之修改或變更,均應包含於 後所附之申請專利範圍中。 【圖式簡單說明】 [0022] 第1圖係為本創作之供水控制器之剖面示意圖。 第2A圖係為本創作之供水控制器之前視圖。 第2B圖係為本創作之供水控制器之左視圖。 第2C圖係為本創作之供水控制器之右視圖。 第2D圖係為本創作之供水控制器之俯視圖。 第2E圖係為本創作之供水控制器之仰視圖。 第3A圖係為本創作之供水控制器之關盒之俯視圖。 第3B圖係為本創狀供水控制器之關盒之⑽剖面線之 剖面示意圖。 第4圖係為本創作之供水控制器之介面橡皮之剖面示意圖 【主要元件符號說明】 表單編號A0101 第12頁/共21頁 M429018 [0023] 1:供水控制器 11 :逆水閥體 lli :彈性單元 12 :第一活動桿體 121 :第一磁性單元 13 :第二活動桿體 131 :第二磁性單元 14 :開關盒 141 :第一磁簧開關 • 142 :第二磁簧開關 143 :控制電路板 144 :指示燈導光棒 145 :啟動導桿 146 :燈光透視用之壓克力 147 :指示燈 148 :尼龍護膜 15 :内槽 ® 16 :壓力調整機構 161 :調整壓力螺絲 162 :壓力彈簧組件 17 :介面橡皮 18 :圓盤背座裝置 1 9 :手動閥 2:受水管路 3 :送水管路 4:外部馬達 表單編號A0101(1) The water supply controller of this creation has the effect of no power interruption. (2) The water supply controller of this creation has the effect of regulating the water supply, and the water supply will not have the problem of water pressure pulse or cold and hot. (3) The disc back seat device in the water supply controller of the creation can ensure the long-term pressure holding performance of the interface skin, and can avoid the effect that the interface rubber is prone to looseness and fatigue. (4) The water supply controller of this creation has a high sensitivity through a moving rod that is concentrically co-constructed with the reverse water, and requires only a small amount of water to act. ^ ° Form No. A0101 Page 6 of 21 M429018 100. July 20th Nuclear Replacement Page (5) The water supply controller of this creation has a more elastic component, so the water flow will not flow back to the subject. Water line. [Embodiment] [0011] First, Chen Ming, in accordance with the relevant drawings as follows, is intended to explain the main embodiment of the water supply controller of the present invention. For the sake of understanding, the same components in the embodiments are denoted by the same reference numerals, and are described in the foregoing. [0012] In view of this, please refer to FIG. 1 and FIG. 2A to FIG. 2E, which are respectively a schematic cross-sectional view of the water supply controller of the present creation and various views of the water supply controller of the present invention. As shown in Fig. 1, the water supply controller 1 of the present invention includes at least one reverse water valve body 11, a first movable rod body 12 and a second movable rod body 13. Among them, a switch box 14 can be further included. In detail, the water supply controller 1 of the present invention is not only connected to a water receiving pipe 2 and a water supply pipe 3, but also electrically connected to an external motor 4, and the water supply pipe 3 is connected to the manual valve 19 as shown in the figure. The water supply is determined by the opening and closing of the manual valve 19. In view of this, the water supply controller 1 of the present invention can achieve two major purposes of regulated water supply and water-free power-off. Specifically, the reverse water valve body 11 is supported by the inner wall edge of the water supply controller 1 and is close to the water receiving pipe 2, and the reverse water valve body 11 is a one-way valve composed of a plastic material of a weather resistant material. Further, the first movable rod body 12 is coupled to the inner tank 15 of the water supply controller 1 in a concentric manner with the reverse water valve body 11. Repeatingly, the second movable rod body 13 is laterally pivoted to the first movable rod body 12, and the first movable rod body 12 and the second movable rod body 13 are at an angle of 90 degrees to each other, and one end of the first movable rod body 12 is A first magnetic unit 121 is disposed and the second movable rod body 13 is provided with a second magnetic unit 131. In addition, the reverse water valve body 11 is further provided with a form number A0101, page 7 / total 21 pages, M429018, July 20, 100, the child's ridge-changing elastic unit ill is connected to the inner groove wall, and the elastic unit ln is used to limit the reverse water room. The body 11 moves in a certain interval, and the water flow does not flow back to the water receiving pipe 2, wherein the elastic unit U1 is a spring as shown in the legend. [0015] In addition, the switch box 14 is provided with a first reed switch 141 and a second reed switch 142. The first reed switch 141 and the second reed switch 142 can be specific. The first magnetic unit 121 and the second magnetic unit 131 are mutually inductive in the region. In fact, when a small amount of water flow is output to the outside in the water supply pipe 3, the water supply pipe 3 will generate a pressure difference with the water receiving pipe 2, and the first movable rod body 111 will be floated, and the first reed switch will be made. 141, when the first magnetic unit 121 is sensed, and the second reed switch 142 senses the second magnetic unit 131, an external motor 4 is electrically connected to the switch box 14 and starts to pressurize the water receiving line 2 Water is supplied to cause the reverse water valve body 11 to rise to supply water to the water supply line 3. However, when the manual valve 19 is closed, the internal pressure of the water supply controller is caused by the continuous pressurization of the external motor 4, so that the second movable rod body 13 is pushed by the inflowing water stream and moved away from the first movable rod. The body 12 is moved in the direction, that is, at this time, the second magnetic unit 131 is gradually moved away to an area where the second reed switch 142 cannot sense. When the magnetic unit of one of the two does not sense the corresponding reed switch, the external motor stops the water supply. In other words, the second magnetic unit 131 disposed on the second movable rod body 13 can be combined with the second magnetic switch 142. Pressure Switch. Herein, the external motor 4 is what we call a pressurizing motor, which is a pressing device commonly used in normal life, so the relationship between the member and the water receiving pipe 2 and the drawing will not be described here. 〇Resume's 'This creation uses the -weighing adjustment mechanism 16 to adjust the water supply controller】 Form No. A0101 M429018 On July 20, 100, the correction of the internal saturation pressure of the replacement page. The pressure adjusting mechanism 16 is pivotally disposed at the front end of the second movable lever body 13. The user adjusts the pressure adjusting screw 161 of the pressure adjusting mechanism 16 to form the spring assembly 162 of the pressure adjusting mechanism 16 to have different spring pitches. In summary, the pressure adjusting mechanism 16 is used to adjust the pressure limit of the second movable rod body 13, which is equivalent to the saturation pressure of the water supply controller 1. Therefore, the user can dynamically adjust the saturation pressure of the water supply controller 1 according to his needs, thereby adjusting the time course of opening and closing of the external motor 4. In addition, the water supply controller 1 of the present invention further comprises an interface rubber 17, which is disposed at one end of the second movable rod body 13, and the interface rubber sheet 17 is used for restricting and buffering the displacement of the second movable rod body 13. . In addition, in order to avoid the excessive deformation of the interface rubber 17 due to the water hammer effect caused by temporarily closing the water supply pipe, the water supply controller 1 of the present invention further comprises a disc back seat device 18 disposed adjacent to the second movable rod body. The end portion, that is, disposed on one side of the interface rubber 17, thereby buffering the deformation of the interface rubber. [0016] According to the above, when the external motor 4 is automatically powered off and no longer operates, the first movable lever body 12 and the reverse water valve body 11 are simultaneously moved back and forth, and the first reed switch 141 is no longer The first magnetic unit 121 is sensed. At the same time, if the user opens the water supply pipe 3, even if only a small amount of water flows out of the water supply controller 1, a pressure difference is formed between the water receiving pipe 2 end and the water supply pipe 3 end, which will cause the water flow to be again It flows from the end of the water receiving pipe 2 to the end of the water supply pipe 3. In this way, the first movable rod body 12 will again rise by the pressure difference, so that the first reed switch 141 senses the first magnetic unit 121 again. At this time, if the second reed switch 142 senses the second magnetic unit at the same time. 131, another process of stimulating the external motor 4 is formed. Form No. A0101 Page 9 of 21 M429018 ____ 100 July 20th Shuttle Replacement Page [0017] In summary, the water supply controller 1 of this creation can automatically power off the external motor 4 during saturation When the water supply line 3 is no longer supplied with water, when the water supply line 3 continuously outputs the water flow, the external motor 4 will be activated again to correspond to the output of the water flow. Overall, by the pressure adjusting mechanism 16 to control the internal saturation pressure of the water supply controller 1, when the water supply controller 1 is in a state of full pressure inside, the water flow is no longer supplied, so the water supply controller 1 of the present creation It can achieve the purpose of another regulated water supply outside the water supply. That is to say, with the water supply controller 1 of the present creation, there will be no occurrence of water pressure pulses and hot water suddenly becoming hot and cold. [0018] In addition, we will further elaborate on this creation and general The biggest difference in functionality of traditional water supply controllers. First, the first movable rod body 13 and the reverse water valve body 11 in the water supply controller 1 of the present invention are coupled to the inner tank 15 of the water supply controller 1 in a concentric joint manner, and can be completely separated and actuated. Two separate components, the design of the mechanism also has the advantage of being able to adapt to the larger water-receiving pipeline 2. The principle is that the first movable rod body 13 is subjected to induction and floating as long as the differential pressure generated by the flow of water in the water and water supply lines is induced, and the external motor 4 is activated by the water supply line 2 The water is pumped, and the relatively large reverse water valve body in the larger water receiving pipe can be easily pushed up by the strong water flow pressurized thereby, thereby achieving the purpose of supplying water to the water supply pipe 3. However, the conventional water supply controller actually only provides a reverse water valve body at the water receiving pipe end, and the magnetic unit is disposed at the upper end of the reverse water valve body, so in the smaller water receiving pipe, because of its reverse water valve The body is relatively small, a small amount of water flow can push up the reverse water valve body to actuate the water supply; on the contrary, if the water receiving pipe is relatively larger, the water supply pipe is relatively larger, and there is no similar water supply control. The first movable rod body set in the inner tank requires only a small amount of water to generate the form number Α0101, page 10/total 21 pages. The pressure difference can be sensed and actuated separately to activate the external motor to pressurize the water. The design function is unique; therefore, the small water pressure is not enough to push up the larger reverse water valve body, so that the magnetic unit configuring the upper end of the valve body can not sense the reed switch and activate the external motor. The water pipeline is pressurized and the water supply completely loses the function of the water supply controller. [0019] Please also refer to FIGS. 3A and 3B, which are respectively a top view of the switch box of the water supply controller of the present invention and a cross-sectional view of the BB section line of the switch of the water supply controller of the present invention. The switch box 14 of the present water supply controller further includes a control circuit board 143 for controlling the opening and closing of the external motor 4 by the result of the first magnetic switch 141 and the second reed switch 142. Of course, The switch box 14 further includes a three-indicator light guiding rod 144 and a starting guide rod 145, wherein each indicator light guiding rod 144 is exposed on the surface of the switch box 14 and is further embedded in the embossing force 146 for fluoroscopy. An indicator light 147 is formed, and the starting guide 145 is exposed on the surface of the switch box 14 to form a nylon film 148 by ultrasonic welding. In other words, the user can clearly understand the driving state of the external motor 4 by means of the indicator lamps 147, and of course, the external driving motor 4 can be forced to be driven by the nylon damper 148 to press the starting guide 145. It is worth mentioning that the use of the acrylic 146 for embedding and the protection of the nylon film 148 makes the switch box 14 durable and has a long service life. [0020] In addition, in order to increase the use time of the interface rubber, the present invention also proposes an interface rubber with a circular arc S-shaped, please refer to FIG. 4, and FIG. 4 is a schematic cross-sectional view of the interface rubber of the water supply controller of the present invention. . Furthermore, at present, other commercially available water supply controller labels are also provided with an interface rubber, but the structure is flat, so when the conventional water supply form number A0101 page/total 21 pages M429018 100 years When the replacement page controller is actually activated on July 20, the flat interface rubber has to simultaneously withstand and buffer the high-frequency reverse pushing displacement of the second movable rod body, so the flat interface of the commercially available conventional water supply controller The rubber is prone to elastic fatigue and cracking, losing its proper function, thus shortening the service life of the water supply controller. Therefore, the interface rubber 17 of the water supply controller of the present invention has a special structure of a circular arc S shape, and in addition to having strong ducting and cushioning properties, it does not easily cause elastic fatigue effects and cracks, thereby greatly extending the creation of the present invention. The service life of the water supply controller. [0021] The above description is only a disclosure of the preferred embodiments, and is not intended to limit the main technical features of the present invention. However, any equivalent modifications or alterations that do not depart from the spirit and scope of this creation should be included in the scope of the patent application. [Simple Description of the Drawings] [0022] Figure 1 is a schematic cross-sectional view of the water supply controller of the present invention. Figure 2A is a front view of the water supply controller for this creation. Figure 2B is a left side view of the water supply controller of the creation. Figure 2C is a right side view of the water supply controller of the creation. The 2D image is a top view of the water supply controller of the creation. Figure 2E is a bottom view of the water supply controller of the creation. Figure 3A is a top view of the closing box of the water supply controller of the creation. Figure 3B is a schematic cross-sectional view of the (10) section line of the closure of the inventive water supply controller. Fig. 4 is a schematic cross-sectional view of the interface rubber of the water supply controller of the present invention. [Main component symbol description] Form No. A0101 Page 12 of 21 M429018 [0023] 1: Water supply controller 11: Reverse water valve body lli: Elastic Unit 12: first movable rod body 121: first magnetic unit 13: second movable rod body 131: second magnetic unit 14: switch box 141: first reed switch • 142: second reed switch 143: control circuit Plate 144: Indicator Light Bar 145: Start Guide 146: Acrylic for Light Perspective 147: Indicator Light 148: Nylon Protective Film 15: Inner Groove® 16: Pressure Adjustment Mechanism 161: Adjustment Pressure Screw 162: Pressure Spring Assembly 17: interface rubber 18: disc back seat unit 1 9 : manual valve 2: water receiving line 3: water supply line 4: external motor form number A0101
100年07月20日修正替換W 第13頁/共21頁Correction Replacement W, July 20, 100 Page 13 of 21