TWM419004U - Touch free automatic faucet - Google Patents
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- TWM419004U TWM419004U TW100208947U TW100208947U TWM419004U TW M419004 U TWM419004 U TW M419004U TW 100208947 U TW100208947 U TW 100208947U TW 100208947 U TW100208947 U TW 100208947U TW M419004 U TWM419004 U TW M419004U
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M419004 五、新型說明: 【新型所屬之技術領域】 本創作係有關于一自動水龍頭的領域,特別是本創作係有關于一種免 觸摸式自動水龍頭’使用紅外線傳感器結合邏輯處理器,而回應產生各種 功能以控制水流流量和溫度的水龍頭,進而提供一個易於操作方便,節約 用水和個人衛生防護供商業和住宅應用。 【先前技術】M419004 V. New description: [New technology field] This creation department is about the field of an automatic faucet. In particular, this creation department has a touch-free automatic faucet that uses an infrared sensor combined with a logic processor, and responds to various kinds of responses. Features a faucet that controls water flow and temperature, providing an easy-to-use, water-saving and personal hygiene protection for commercial and residential applications. [Prior Art]
自動水龍頭已經普遍成為節約用水和綠色地球的設備。由於個人衛生 的顧慮,免觸摸式自動水龍頭是非常適合於公共場所,商業,住宅應用。 傳統的自動水龍頭是以控制單一的電子傳感器開關預設水溫度和預設 水流流量,但是大多數的應用如廚房,盥洗室,廁所和一些商業用的水龍 頭,均需要調整水流流量,水流溫度和連續水流。 【新型内容】 本創作的主要目的係提供一免觸摸式自動水龍頭裝置。該水龍頭裝置 包含水龍頭本體,該錢财體包含減個傳感—於控制核流量和水 溫度,。:個電子邏輯處理器連接到傳感器…第—組控制閥組件連接到該 電子邏輯處理ϋ。—第二組控綱組件連制電子邏輯處理^。一電源 處理器,該第—個控制閥組件和該第二個控制閥組件。水流 抓量和水/皿度㈣傳感器控綱不需觸摸水龍頭本體。 動水目…㈣―纖^自脉11職ϋ免觸摸式自 複數個傳感$ 數個傳感11以控财溫。—電子邏輯處理11連結到該 複數傳感器…電源連結到該電子邏輯處理器…個溫 結子邏輯處理器。電子邏輯處理器控制水流流量和流^觸摸式自動 水龍頭的水溫度 器,該 複數個縣n ^騎供_水顏。财朗包麵數個傳感 理器連結_2=第二倾:Γ_ιΗ_。—電子邏輯處 專感益。-水流流量控制閥組連結到該電子邏輯處理 3 M419004 器…水流溫度控鋼域綱電子邏輯處㈣。—麵賴到電子邏輯 處理器,雌淋赫量㈣_水赫量和控财溫度控觸,以 期望的水流。 本創作的第四目_提供-水龍賴置包含—個水_本體包含數個 傳感器窗口。複_侃n組件在該水_本體^至少部份^置於水 龍頭本體内的管轴(s_,並連結一個固定螺母。該螺母係將複數個傳感器 組件固疋在水龍頭本體,並使該複數個傳感器組件對正傳感器窗口。 本創作所提供的-免_式自動水龍戦置包含的—個水龍頭系統, 包含-免願式自動模式,其中,在喊電子佩器通過—個電子邏輯處 理器之電路板,並經由-㈣水流流量控制_件和—溫度㈣閥組件而 得以控制水流《及水溫。水_可以在自_式或手龍式下操作,以 適應各種不同的應用情況。 在本創作的-免觸摸式自動水龍職置的實施例中,第—組中間傳感 器(傳感器C)與一對第二組傳感器(傳感器A和傳感器B)和一對第三 組傳感器(傳感器D和傳感器E)的傳感光束指向不同的方向,與水龍頭 前方的第-組㈣傳感器(傳感器c)約成9〇度角,以防止互相干擾, 以控制水溫⑽度控制模式㈣柯齡韻娜祕仆連續水流^續水 流模式(C〇ntinue-water_flOW-mode))’中間傳感器暫停(中間傳感器暫停模 式(faucet-pause-mode)),水流流量調節(調節水流流量模式 (adjUSt-Water-floW-mode ),内定值設定(常用内定值預設模式 (common-default-mode )和個人化預設(個人化預設模式 (customized-p細-mode))以適合住宅和商業應用的容易操作方便節約用 水和保護個人衛生的目的。 在本創作的—個或更多的實施例中…和可編程邏輯處理器配合的電 路板控制複數個傳感器,-水流流量控制閥組件和一溫度控制間組件。就 如在傳義自動水龍頭操作中,第—組中間傳感器(傳感器c)檢測到在 匕的檢測區域内有-個物體的存在時(例如,在洗臉盆内),此邏輯處理器 從而啟動流量控侧組件⑽A)以控制水龍頭水嘴的水流流量 (中間自 M419004 動水流模式的作動)。 在本創作的實補t ’中間自動水龍式的作驗,水流流量控制間 組件(閥A)是在_個作動的位置使錢頭在流水狀態巾,第_組中間傳 感器(傳感器C)檢測到在它的檢測區域内沒有物體的存在時(例如,在 洗臉盆内)’此雜處理驗而停止流量控綱組件⑽A)崎作以停止 水流到水龍頭水嘴(中間自動水流模式的停止作動)。 。在本創作的實施例中,在任何時候,第二組傳感器的兩個傳感器 感器A和傳感器B)肖時檢測到在它的檢測區域内有一個物體(例如,一 隻手)的存在且達到-個預設時間(連續水流啟動的時間),該邏輯 從而啟動流量控制閥組件(A閥)以控制連續水流到水龍頭水嘴_ 流模式)。這種連續水流模式讓制者可以枝地將水充滿洗臉盆或容器, 而不必把手保持在第-組中間傳感器(傳感器c)的檢測區域持、車 續水流(連續水流模式的啟動)<5 〃待連 在本創作的實施例中,水流流量控綱組件(間A)被作動 龍頭^嘴流出時。第二組傳感器的傳感器A檢測到有—個物體(例如,一 個手指)在其檢·内。邏輯處理器會根據檢測到物體(例如,—個 在傳感器A檢砸⑽時間段調整溫度控侧組件(閥b),增加 二Automatic faucets have become a popular device for water conservation and green earth. Due to personal hygiene concerns, touch-free automatic faucets are ideal for public, commercial, and residential applications. The traditional automatic faucet is to control the single water sensor to preset the water temperature and preset water flow, but most applications such as kitchens, bathrooms, toilets and some commercial faucets need to adjust the water flow, water temperature and Continuous water flow. [New content] The main purpose of this creation is to provide a touch-free automatic faucet device. The faucet assembly includes a faucet body that includes a reduced sensing - controlling nuclear flow and water temperature. An electronic logic processor is connected to the sensor... The first group control valve assembly is connected to the electronic logic processing unit. - The second set of control components is connected to the electronic logic processing ^. A power processor, the first control valve assembly and the second control valve assembly. Water flow Grab and water/dish (4) Sensor control does not need to touch the faucet body. Moving water... (4) - Fiber ^ Self-pulse 11 job-free touch-free self-complex number of sensing $ a few sensors 11 to control the financial temperature. - Electronic logic processing 11 is coupled to the complex sensor... power is coupled to the electronic logic processor... a temperature junction logic processor. The electronic logic processor controls the flow of water and the flow of the water heater of the touch-type automatic faucet, and the plurality of counties n ^ ride for _ water face. Cailang package several sensors link_2=second tilt: Γ_ιΗ_. - Electronic logic department. - The flow control valve group is connected to the electronic logic processing 3 M419004 ... water flow temperature control steel domain electronic logic (4). - Depending on the electronic logic processor, the female immersion (four) _ water weight and control temperature control, to the desired water flow. The fourth item of this creation _ provides - water dragon immersion contains - water _ body contains several sensor windows. The _侃n component is at least partially disposed in the water shaft of the faucet body (s_, and is coupled with a fixing nut. The nut is a plurality of sensor components fixed to the faucet body, and the plural The sensor component is aligned with the sensor window. The faucet system provided by the creation-free _ automatic water dragon 戦 , includes a --free automatic mode, in which the electronic squirrel is passed through - an electronic logic processor The circuit board, and through the - (four) water flow control _ pieces and - temperature (four) valve components to control the flow "and water temperature. Water _ can be operated under the _ type or hand dragon to adapt to a variety of different applications. In the present embodiment of the creation of the touch-free automatic water dragon, the first group of intermediate sensors (sensor C) and the pair of second group of sensors (sensor A and sensor B) and a pair of third group of sensors (sensor D And the sensor beam of sensor E) points in different directions, with the first group (four) sensor (sensor c) in front of the faucet at an angle of about 9 degrees to prevent mutual interference, to control the water temperature (10) degree control mode (4) 柯龄Yun Na Na servant continuous water flow ^ continuous water flow mode (C〇ntinue-water_flOW-mode)) 'intermediate sensor pause (intermediate sensor pause mode (faucet-pause-mode)), water flow regulation (adjust water flow mode (adjUSt-Water -floW-mode ), default settings (common-default-mode and personalized presets (customized-p fine-mode) for residential and commercial applications) Easy to operate, easy to save water and protect personal hygiene. In one or more embodiments of the present invention... a circuit board with a programmable logic processor controls a plurality of sensors, a water flow control valve assembly and a temperature Control room assembly. Just as in the automatic faucet operation, the first group of intermediate sensors (sensor c) detects the presence of an object in the detection area of the cymbal (for example, in the washbasin), this logic processing The flow control side assembly (10) A) is thus activated to control the flow of the water tap of the faucet (intermediate from the M419004 dynamic water flow mode). In the middle of the creation of the creation of the 't automatic water dragon type In the test, the flow control unit (valve A) is such that the head is in the running state, and the middle group sensor (sensor C) detects the presence of no object in its detection area ( For example, in the washbasin, 'this miscellaneous treatment stops the flow control assembly (10) A) to stop the flow of water to the faucet nozzle (the stop of the automatic flow mode in the middle). . In the present embodiment, at any time, the two sensor sensors A and B of the second set of sensors detect the presence of an object (eg, a hand) in its detection area and A predetermined time (time of continuous water flow start) is reached, which in turn activates the flow control valve assembly (A valve) to control the continuous flow of water to the faucet nozzle _ flow mode). This continuous flow pattern allows the maker to fill the washbasin or container with water without having to hold the handle in the detection zone of the first set of intermediate sensors (sensor c), the continuous flow of water (start of continuous flow mode) < 5 In the embodiment of the present invention, the flow control module (between A) is actuated by the faucet. Sensor A of the second group of sensors detects that an object (e.g., a finger) is in its inspection. The logic processor will increase the number according to the detected object (for example, the temperature control side component (valve b) is adjusted during the sensor A check (10) time period.
量摘:少冷水流流量以提高水流溫度。第二組傳感器的傳感器Μ;: -個物體(例如’-個手指)在其檢測區内。邏輯處 L 體(例如,—刪)在編B娜__職溫度 (閥B),減少熱水流流量,增加冷水流流量以減低水流溫度。水龍頭的1 流溫度由-對第二組傳感器的傳感器(傳感器场傳感器B ^ = 觸摸水龍嘱體的任何部分稱為(溫度控繼式)。 工制而不必 在本創作的實施例中,水流流量控侧組件(閥A)在作 如水龍在:感器D檢測到在它的檢測區域内有-個物體(: 曰.子在夺,此邏輯處理器會根據檢測到物體(傷丨 ί傳感器〇檢測區内的時間段增加水流流量控制閥組件(閥A): 冷水和熱水流流量,以增加水流到水龍頭水嘴。當傳感器£檢測== 5 M419004 檢測區域内有—個物趙(例如,—個手指) 據檢測到物體(例如,—辦指)在傳感m輯處理器會根 流量控制_ (·)的冷林熱杨咖減少水流 此免觸摸式自動水龍頭的水流流量由一對第三:水龍碩水嘴》據 :r器E)_整而不必接觸水龍顯任何部 在作1::::中’在連續水流模式時’水流流量控制間組件(閥A) 丨)啊制财觸檢漸域_—個物體 又手)的存在且_-個淑_ (連續水流停切_), ΐ=ΪΓΓ轉(㈣___讀蝴 在本創作的實關巾,錄機備職M的水_,第 =(=在它__沒有物體的存在時,而水 (閥A)疋在-辦止作動的位置使水龍頭在停止流水狀態中。 第-,.且傳感_傳感器續測到有_個物體(例如,—個手指)在 區内。邏輯處理器會根據檢測到物體的存在且達到—個預設時間(㈣傳 感器暫停的時間),此邏輯處理器從而暫停第—組中間傳感器(傳感器 的作動’稱為"中間傳感器暫賴式"q這個水龍射間傳感器暫停模 中’使用者可以在"傳«檢漸_工作而不會作動水_水流 省水(中間傳感器暫停模式的開始)。 在本創作的實施例中,在中間傳感器暫停模式時,第—組中間傳感器 (傳感器C)處在暫停狀H组傳感器的傳感_ A檢測到有—個物體 (例如,-個手指)在其檢測區内且達到一個預設時間(中間傳感器復位的 時間)。邏輯處理器會解除第-組中間傳感器的暫停狀態,以恢復其傳感的 功能。自動水龍頭系統復位回到待機狀態(中間傳感器暫停的復位 在本創作的實施例中,一個中間傳感器(傳感器C),一對第二組傳戚 器(傳感器A和傳感器B)和一對第三組傳感器(傳感器〇和傳感器E) =有/〇全控制水流流量和水溫的免聰自動水龍職置可以提供商業和住 毛的各種應用。水流流量控綱組件和水溫控綱組件有兩個越入口(冷 熱水入σ)和-個流體出口(混合冷/熱水流)導管結合一個或一個以上 的電動電賴和電齡輪控綱以控制水流向水龍頭水嘴。 在本創作的實關巾’錢頭是處於巾間自動水流模式或連續水流模 式’水流流量控侧組件(閥Α)是在—個作動的位置使水龍頭在流水狀 態中。當第三組傳感器的兩個傳感器(傳感器D和傳感器Ε)同時檢酬 在它的檢測II域内有-個物體(例如,—隻手)的存在且達到—個預設時 間(常用内定值設定剌)時,邏輯處理器即將當前的水流溫度和水流流 量的條件設定域的常时流溫度和水献量的喊值(常用岐值預設 模式)。24獨_常用水流流量和溫度岐值設定及復位功能可以防止使用 者打開水龍頭時由於以前的使用者設定的高溫熱水綠流出而意外受傷, 並且可以保持最少水流需要用量以節約用水。 在本創作的實關中,水龍頭至少包含有三侧定值狀的功能。在 -個例子中’岐值設定如下:1}常關定值設定細有_般使用者, 當水龍頭沒有選定第-個人化職或第二個人化預設的指定時;2)第一個 人化預设-使用傳感器D及3)第二個人化預設_使用傳感器£。 *使用第:個人化預設:當水流流量控制閥Α是關閉的,而使水龍頭在 停止流水狀態巾’傳感H 〇檢測到在它的檢砸域内有物體(例如,一個 手指’ -隻手’等等)的存在且達到—個預設時間後,水龍頭的水流以傳 感器C在達到另-個預設_時之中間自動水祕式或連續水流模式打開 時,水龍頭的水祕會料—個人化預設的條件流出。第二個人化預設亦 類似。 在備用狀態時的水龍頭:水龍頭的水流以傳感器c作動之中間自動水 流模式或舰H A和賊器B作動之_水祕式打開時,水流會以常用 内定值預設模式的條件流出。在使用後經過預定的内定值設定的時間沒有 水流的流出時’此水龍頭即回復設定為定值預設模式。如果先感測 傳感器D.水龍頭的水流崎感n c作動之中間自動水流模式或傳感器a M419004 和傳感器B作動之連續水流模式打開時水流會以第—個人化預設的條件 抓出在使用後經過預定的内定值設定的時間沒有水流的流出時,此水龍 頭即回復設定為常㈣定值預設模式。如果域測傳感^ E :水龍頭的水 胤以傳感H C作動之巾間自動水流模式或傳感^ a和傳感器B作動之連 、-r=机模式打開時’水流會以第二個人化預設的條件流出。在使用後經過 預疋的内定U的時間沒有水流的流出時此水龍頭即回復設定為常用 内定值預設模式》 一》又定帛個人化預設:當水龍頭的水流以第一個人化預設打開時第 三組傳感器的兩個傳感器(傳感器D和傳感器E)同時檢測到在它的檢測 區域内有—個傾的存在且達到-個預設時間時,邏輯處理器即將當前的 H皿度和水飢机量的條件设定為新的第一個人化預設條件。雖然預設時 門的長知會不同,第一個人化預設亦相同。在待機備用狀態時的水龍頭: 水龍頭的水流以傳感器C作動之中間自動水模式或傳感器A和傳感器 B作動之賴水流模式打開時,水流會以常_定值預設模式的條件流出。 ,用者可以感測傳感器A,傳感器B,傳感器d和傳感㈤以調節水流溫 :和水流流量,並且贿目前的設定為新的常用内定值設定條件。在水龍頭的 傳感器D檢測到在它的檢砸_有物體後,水龍頭的水流以傳感器c作 =之/間自動水抓模式或傳感器A和傳感器B作動之連續水流模式打開 ^水齡以第-似娜賴的條件流卜仙者可喊爾感器A, ,感益B ’舰器D和舰器E _節水流溫度和水流流量,並且以傳感 裔D和傳感器E同時感測以儲存目前的設定為新的第—個人化預設條件。 頭的傳感If E檢測到在它的檢測區域内有物體後,水龍頭的水流以 = 作動之t間自動水流模式或傳感器A和傳感器B作動之連續水 丁開時,水流會以第二個人化預設模式的條件流出。使用者可以感 節水流溫度和水流流量, 預設2 和傳感器_時感測以儲存目前的設定為新的第二個人化 傳感益D (傳感器£>) 在本創作的實施例中,當第三組傳感器的第 M419004 * 檢測到有-個物體(例如,-隻手或-個手指)在其檢測區内且達到一個 :預設時間(傳感器0設定_)時,即作動邏輯處理器設定(個人化預設 模式),水龍頭的水流在一個預設時間(預設時間)内 式 •.或連續水流模式打開時,水流流量控制閥組件(閥A)和二溫度控^組 件(閥B)會以第一個人化預設水流流量和水溫度的條件流出。 在本創作的一個或更多的免觸摸式自動水龍頭裝置中,當第三組傳感 器的第二傳感器E (傳感器E)檢測到有一個物體(例如,一隻手或一個 手指)在其檢測區内且達到一個預設時間(傳感器£設定時間)時,即作 動邏輯處理器設定(個人化預設模式),水龍頭的水流在一個預設時間(預 • 設時間〕内以中間自動水流模式或連續水流模式打開時,水流流量控制閥 組件(閥A)和水溫度控制閥組件(閥B)會以第二個人化預設水流流量和 水溫度的條件流出。 在本創作的實施例中,當水龍頭的水流以多個個人化預設中的一個設 疋作動,水流流量控制閥組件(閥A)是在一個作動的位置使水龍頭在流 水狀態中。第三組傳感器的兩個傳感器(傳感器D和傳感器E)同時檢測 到在它的檢測區域内有一個物體(例如,一隻手)的存在,且達到一個預 設時間(預設時間)時,邏輯處理器即將當前的水流溫度和水流流量的條 件設定為新的個人化預設條件(個人化預設模式> 這獨特的個人化預設水 • 流流量和溫度功能可以隨個人的喜好而舒適和方便的使用。 在本創作的實施例中,一個邏輯處理器電路板由一個邏輯處理器(微 芯片)和電路板組成。邏輯程序輸入邏輯處理器以控制所有的電子傳感器(傳 感器A,傳感器B,傳感器c,傳感器D和傳感器E),水流流量控制閥 組件(閥A)和水流溫度控制閥組件(閥b)的輸入及輸出功能。供電電源 包含一個電池包(可充電或不可充電電池)和交直流電流(交直流)變壓 器提供直流的邏輯處理器電路板以運作各電子傳感器,流量控制閥組件和 電動溫度控制閥組件。 該免觸摸式自動水龍頭含有傳統的自動水龍頭相同的節水功能。但可 以使水流流量和溫度保持在最舒適和經濟的溫度和流量以節約用水。 9 M419004 在本創作的實施例中對第二組傳感器組件的傳感器(傳感器八和 傳感器B)是以“免觸摸’’的方式控制水龍頭的水流溫度。内定值設定復位 功能可麟止使用者打開水龍辦,被突然流㈣高溫熱水意外缓傷。兩 個第二組傳感H組件的傳感n (顧H A和傳感H B)瞒歧時可以控 制水龍頭的連續水流。第二組傳感II組件的傳感II A可以暫停第—組中間 傳感器(侃H C)的功能讓伽者可以在巾麟感器檢砸域内工作而 不會啟動水龍縣流以節省水(巾哪感H暫賴式的開始 > 根據這一對 第三組的兩個傳感II (傳❹D和佩⑼)調整水龍頭本體的水流流量 (即增加或減少水流流量)。 【實施方式】 以下的制之目的是為贿本鑛的_般糊,而無意使本創新概念 侷限於本文的聲明。此外,本文特別描述的功能組合可以與其他摇述每 個功能的各種可能的組合和㈣使用^除非另有制描述或定義外,所有 條款都應給予最廣泛的-種可能的轉包含從隱含的規格意義,以及那些 熟練有如藝術化技巧的含義所理解和/或詞典的定義,論文著作等,這些公 開資料可能包含-些精選的免職式自動水龍頭裝置,以及操作和/或組件 及其零件等。而下面的說财的描述是依據免麵式自動水龍頭裝置以爱 清和呈現在以下内容,請記住此處講授的各點應該廣泛的制到所有類型 的系統’設備和應用上。 根據本創作的免觸摸式自動水龍頭說明提供了可以供所有操作需要的 全功4。為了提供方便使肖,I於操作,用水的有效率運作,第一組中 間傳感器(贼ϋ C)檢測到在自動水龍頭下的檢砸域㈣—個物體的 存在時’此邏輯處理ϋ從而瞒或停止水流,也就是提供這最高用水效率 的中間自動水流模心對於其他顧,例如填充水槽或浴缸,—個容器或 洗碗,清洗食物,進行淋料’水龍獅連續水歧必要的。在本創作的 免觸換式自動水龍頭’該水龍頭可以被切換進或切出連續水流模式而不必 _水龍頭本體任何部分衛生因為沒有接觸到水_本體 而受到保護》 M419004 • 在這獨特設計的中間傳感器暫停模式,使用者可以在自動水龍頭檢測 ;區域附近工作,而無水流出。此外,兩對傳感器的調節水流流量模式和水 流溫度控讎絲調脉龍縣錢姊溫度,而域雜用者接觸水龍 .頭。—個常用《值預賴式功能提供了常_定值預設的水流流量和水 流溫度’以防止使用者打開水龍頭時被前_個的使用者設定的高溫熱水突 然流出而意外讀,也維持水龍頭水流流量在—個最低需要用量而節約用 水。 圖1是根據本創作的免觸摸式自動水龍頭裝置系統的一較佳實施例的 一方塊流程圖。此描述的免觸摸式自動水龍頭裝置系統(1〇〇)顯示連結到 Φ 冷水來源〇04),熱水來源(105)和-個水流出口使混合水流到水龍頭 (106)。該系統(100)包含第一組中間電子傳感器c (111),一對第二組 傳感器組件A和B ( 112和1〗3),一對第三組傳感器組件D和E ( 114和 115),一個電源供應組件(121), —個邏輯處理器電路板(122),一個水 流流量控制閥組件A (123),一個溫度控制閥組件b (124)和一個水溫度 傳感器(119)。在本創作中,電源供應組件(12ι)可能是一個或多個的電 池,一個或多個可充電電池,太陽能電池系統,一個由交流/直流電壓轉 換器等提供的直流電壓。 從第一組中間電子傳感器C (111) 一對第二組傳感器組件電子傳感器 φ A和B(112’ 113)和一對第三組傳感器組件電子傳感器d和E(114, 115) 輸出的傳感信號(141,142,143,I44和H5 ),傳入邏輯處理器電路板(122 )。 邏輯處理器送出的邏輯信號(301和302)控制水流流量控制閥組件(123) 和水流溫度控制閥組件(124)。電源供應組件(121)提供電力(148)給 邏輯處理電路板(122)為整個系統提供動力^在本創作所描述的一個免觸 摸式自動水龍頭裝置一個中,水流(107)流出溫度控制閥組件B (124), 進入水流流量控制閥組件A (123)。在本創作中,水流由水流流量控制閥 組件A (123)流出並以水流(1〇6)流向水龍頭,或當這個免觸摸式自動 水龍頭裝置系統(100)包含可增加的水溫度傳感器(119),水流流量(109) 流出水流流量控制閥組件A (123),在流向龍頭水流流量(106)之前進入 M419004 或以其他方式來接觸水溫度傳感器(119)。 - 在本創作的-較佳實補,水溫度傳感器(119)檢測到這水流流量的 齡水溫度(1〇6)至水龍頭的噴嘴》檢測到的溫度信號(146)傳送到邏· 輯處理器(122),也用來顯示水流溫度顯示裝置,如咖顯示設備,仰 液晶顯示設備等。在本創作的-個裝置中,顯示屏可能位於水龍頭水嘴 ^101) ’或在靠近水龍頭。在本創作的另一個裝置,傳送了一個信號給邏 輯處理器(122)水/皿傳感器控制水溫度控糊組件(124)來控制感應到 的超過溫度,它可_止由水溫傳感器(119)被傳感過高溫度的水流受傷。 圖2是根據本創作的免觸摸式自動水龍頭一較佳實施例圖式。第一組 中間傳感器C ( 111 :)是當在水槽中區(⑽〕需要水以便洗手或清洗食品而 φ 作動時中間自動水流模式ϋ第二組傳感器組件電子傳感器A (112) 和傳感器B (113)具有三個不同的功能:調整水流溫度,中間傳感器暫停 (傳感器c)模式及由一對第二組傳感器(傳感器八和傳感器B) (112和 u3)合併作用以作動或停止連續水流模式供裝填水槽,容器或洗碗,洗食 物等需要連續水流的時候。 在中間傳感器暫停模式或連續水流模式中,當水從水龍頭流出時,這 一對第二組傳感器組件(傳感器A和傳感器B) (112和113)具有功能調 整水的溫度(溫度控制模式)調上/調下。當第一組中間傳感器(傳感器c) (111)處於無作動狀態時’傳感器A (112)的作動觸發一個“中間傳感器 $ 暫停模式,,以暫停傳感器C (111)的功能,使 _ 用者可以在水龍頭附近工作而不必使水流出。在這對第三組傳感器(傳 感•器D ’傳感器E) (114) (115)控制水龍頭的水流流量(調節水流流量 模式)。 該一對第二組傳感器(傳感器A,傳感器B) (112) (113)和這對第 二組傳感器(傳感器D,傳感器E) (114) (115)控制水龍頭的水流流量 和溫度的常用内定值(常用内定值預設模式)β在一個本創作的一個裝置 中’一個常用内定值可用於預先設定水流流量和/或溫度控制。在一個例子 中’在第三組傳感器組件的傳感器D (114)和傳感器Ε (115)同時檢測 12 M419004 到在它的檢測區域内有-個碰(例如,_t手指)的存在且達到一個 2秒,1明),顯叫122)㈣_控制閥組 =(m)處於作動狀態,-個LED指示燈閃爍(和/或聲音芯片產生聲立 曰不),邏輯處理器(丨22)即設定當前的溫度和水流流量條件為常用内二 值預设值(常用内定值預設模式)。 一該-對第二組傳感器(傳感器A,傳感_ B) (112) (113)和這Measured: less cold water flow to increase water temperature. The sensor of the second group of sensors is: - an object (e.g., a finger) is in its detection zone. The logic L body (for example, - delete) is in the B Na __ occupation temperature (valve B), reducing the hot water flow rate, increasing the cold water flow rate to reduce the water flow temperature. The convection temperature of the faucet is determined by the sensor of the second group of sensors (sensor field sensor B ^ = any part of the touch water dragon 嘱 body is called (temperature control relay). The system does not have to be in the embodiment of the present creation, the water flow The flow control side component (valve A) is working as a water dragon: the sensor D detects that there is an object in its detection area (: 曰. The child is in the capture, this logical processor will detect the object according to the detection The sensor 〇 detection zone increases the flow control valve assembly (valve A): cold water and hot water flow to increase the flow of water to the faucet nozzle. When the sensor is detected == 5 M419004 There is a material in the detection area ( For example, a finger) According to the detected object (for example, the finger) in the sensor m processor will root flow control _ (·) cold forest hot Yang coffee to reduce the flow of water, this touch-free automatic faucet water flow by A pair of third: Shuilong Shuoshui mouth" according to: r device E) _ whole without having to touch the water dragon display any part in 1:::: 'in the continuous flow mode' water flow control components (valve A) 丨Ah, the existence of the financial test, the gradual domain _ - an object and the hand) _-一淑_ (continuous water flow stop cut _), ΐ = ΪΓΓ turn ((four) ___ read butterfly in this creation of the real customs towel, record machine to prepare M water _, the first = (= in it __ no object When present, the water (valve A) is at the position where the operation is stopped, so that the faucet is in the stopped flow state. The first, and the sensor_sensor continues to detect that there is an object (for example, a finger) in the area. The logical processor will suspend the first-group intermediate sensor (the sensor's actuation is called " intermediate sensor temporarily according to the presence of the detected object and reaching a preset time ((4) the time the sensor is paused) Lai"q This water dragon shot sensor pauses in the mold's user can't work in the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ In the intermediate sensor pause mode, the sensing of the first group of intermediate sensors (sensor C) in the paused group H sensor detects that there is an object (eg, - a finger) in its detection zone and reaches A preset time (the time the intermediate sensor is reset). The processor will release the pause state of the first group of intermediate sensors to restore its sensing function. The automatic faucet system resets back to the standby state (intermediate sensor pause reset in the present embodiment, an intermediate sensor (sensor C ), a pair of second group of transmitters (sensor A and sensor B) and a pair of third group of sensors (sensors and sensors E) = have / / full control of water flow and water temperature of the intelligent automatic water dragon can Provides a variety of applications for commercial and live hair. The flow control module and water temperature control assembly have two inlets (cold hot water into σ) and one fluid outlet (mixed cold/hot water flow) conduit combined with one or more Electric electric and electric age wheel control to control the flow of water to the faucet nozzle. In the creation of the real towel, the head is in the automatic water flow mode or the continuous water flow mode. The water flow control side component (valve) is the immersed position in the running state. When the two sensors of the third group of sensors (sensor D and sensor Ε) simultaneously have the presence of an object (for example, a hand) in its detection II domain and reach a preset time (common default setting)剌), the logical processor sets the current flow temperature and water flow condition conditions to the constant flow temperature of the domain and the water supply's shout value (commonly used threshold preset mode). 24 _ Commonly used water flow and temperature threshold setting and reset function can prevent the user from accidentally injuring due to the high temperature hot water green set by the user before opening the faucet, and can maintain the minimum water flow required to save water. In the real world of this creation, the faucet contains at least three sides of the value-setting function. In the example - the threshold is set as follows: 1} The constant setting is fine with the _ user, when the faucet does not have the designation of the first-personal or second personalization preset; 2) the first personalization Preset - use sensor D and 3) second personalized preset _ use sensor £. * Use the first: personalization preset: when the water flow control valve is closed, and the faucet is stopped in the state of the water towel 'sensing H 〇 detected an object in its inspection area (for example, a finger' - only The presence of the hand 'etc.' and after reaching a preset time, the water flow of the faucet is turned on when the sensor C is opened in the middle of the automatic preset or continuous water flow mode in the middle of another preset_ - Personalized preset conditions flow out. The second personalization preset is similar. In the standby state, the faucet: when the water flow of the faucet is in the middle automatic water flow mode of the sensor c or when the water H A and the thief B actuate, the water flow will flow out under the condition of the preset mode of the commonly used default value. When there is no flow out of the time set by the predetermined default value after use, the tap is set to the fixed value preset mode. If the sensor D is detected first, the water flow in the faucet is in the middle of the automatic water flow mode or the sensor a M419004 and the sensor B actuate the continuous water flow mode to open. The water flow will be captured under the condition of the first-personalized preset. When the predetermined default value is set, there is no flow out of the water flow, and the tap is set to the normal (four) fixed value preset mode. If the field measurement sensor ^ E: the tap of the tap is to sense the automatic water flow mode between the wipes of the HC or the sensor ^ a and the sensor B actuate, -r = machine mode is turned on, the water flow will be second personalized The preset conditions flow out. After the use of the pre-existing default U time, there is no flow out of the water when the tap is set to the default default mode preset mode. "" and then set the personalized preset: when the water flow of the tap opens with the first personalized preset When the two sensors of the third group of sensors (sensor D and sensor E) simultaneously detect that there is a tilting presence in its detection area and reaches a preset time, the logical processor is about to the current H degree and The condition of the water hunger is set as the new first personalization precondition. Although the length of the door will be different, the first personalization preset will be the same. The faucet in the standby standby state: When the water flow of the faucet is in the middle automatic water mode in which the sensor C is actuated or the sensor A and the sensor B actuate in the water flow mode, the water flow will flow out under the condition of the constant_set value preset mode. The user can sense sensor A, sensor B, sensor d and sensor (5) to adjust the water flow temperature: and the water flow rate, and the current setting of the bribe is a new common default setting condition. After the sensor D of the faucet detects that there is an object, the water flow of the faucet is opened by the continuous water flow mode of the sensor c for the /automatic water catching mode or the sensor A and the sensor B. Like Nai Lai's conditional flow, the immortal can call the sensor A, and the benefit B 'the ship D and the ship E _ water flow temperature and water flow, and simultaneously sense the sensor D and the sensor E to store The current setting is the new first-personalized preset condition. The head of the sensor If E detects that there is an object in its detection area, the water flow of the faucet is controlled by the automatic water flow mode of the action t or the continuous water of the sensor A and the sensor B is activated, the water flow is the second person The conditions of the preset mode flow out. The user can sense the water flow temperature and the water flow rate, preset 2 and sensor_time sensing to store the current setting as the new second personalized sensory benefit D (sensor £>) in the present embodiment, When the M419004* of the third group of sensors detects that there is an object (for example, - hand or - finger) in its detection zone and reaches one: preset time (sensor 0 setting _), the active logic processing Setting (personalized preset mode), when the water flow of the faucet is in a preset time (preset time) or when the continuous water flow mode is on, the flow control valve assembly (valve A) and the two temperature control components ( Valve B) will flow out under the conditions of the first personalized preset flow rate and water temperature. In one or more of the touchless automatic faucet devices of the present creation, when the second sensor E (sensor E) of the third group of sensors detects that an object (for example, a hand or a finger) is in its detection zone Within a preset time (sensor £ set time), the logical processor setting (personalized preset mode) is activated, and the water flow of the faucet is in the middle automatic water flow mode within a preset time (pre-set time) or When the continuous flow mode is open, the flow control valve assembly (valve A) and the water temperature control valve assembly (valve B) will flow out under the conditions of the second personalized preset flow rate and water temperature. In the presently constructed embodiment, When the water flow of the faucet is actuated by one of a plurality of personalized presets, the flow control valve assembly (valve A) is in an actuating position to cause the faucet to be in a flowing state. Two sensors of the third set of sensors (sensors) D and sensor E) simultaneously detect the presence of an object (eg, a hand) in its detection area and reach a preset time (preset time) The logical processor sets the current water temperature and water flow conditions to the new personalized preset conditions (personalized preset mode). This unique personalized preset water • Flow flow and temperature functions can be tailored to individual preferences. Comfortable and convenient to use. In the present embodiment, a logical processor circuit board is composed of a logical processor (microchip) and a circuit board. The logic program is input to the logic processor to control all the electronic sensors (sensor A , sensor B, sensor c, sensor D and sensor E), water flow control valve assembly (valve A) and water flow temperature control valve assembly (valve b) input and output functions. Power supply includes a battery pack (rechargeable or not available) A rechargeable battery) and an AC/DC current (AC-DC) transformer provide a DC logic processor board to operate various electronic sensors, flow control valve assemblies and electric temperature control valve assemblies. The touch-free automatic faucet contains the same traditional automatic faucet Water saving function, but can keep the water flow and temperature at the most comfortable and economical temperature Flow to save water. 9 M419004 In the present embodiment, the sensors (sensors 8 and B) of the second set of sensor components control the water temperature of the faucet in a “touch-free” manner. The default setting reset function can be When the user stops the water dragon, the sudden flow (four) high temperature hot water accidental injury. The sensing current n (Gu HA and sensing HB) of the two second sensing H components can control the continuous water flow of the faucet. Sensing II A of the second group of sensing II components can suspend the function of the first group of intermediate sensors (侃HC) so that the gambler can work in the inspection area of the towel without stopping the water flow to save water (towels) What is the beginning of the H-temporary formula> The flow of the water flow of the faucet body (ie, increasing or decreasing the flow rate of the water flow) is adjusted according to the two senses II (passing D and pen (9)) of the third group. [Embodiment] The purpose of the system is to bribe the mine, and does not intend to limit this innovative concept to the statement in this article. In addition, the combinations of functions specifically described herein may be combined with other possible combinations of each function and (4) use. Unless otherwise stated or defined, all terms shall be given the broadest possible The meaning of the specifications, as well as those that are understood as artistic skills, and/or dictionary definitions, papers, etc., may include - a selection of dismissive automatic faucet devices, as well as operations and / or components and Parts, etc. The following description of the wealth is based on the face-free automatic faucet device in the following content, please remember that the points taught here should be widely applied to all types of systems' equipment and applications. The touch-free automatic faucet description according to this creation provides all the work that can be done for all operations. In order to provide convenience, the operation of the water and the efficient operation of the water, the first group of intermediate sensors (thief C) detected the inspection area under the automatic faucet (four) - the existence of an object 'this logic processing ϋ 瞒Or stop the flow of water, that is, provide the highest water efficiency of the intermediate automatic water flow model for other considerations, such as filling the sink or bathtub, a container or dishwashing, cleaning the food, and performing the leaching of the water lion's continuous water. In this creation of the touch-free automatic faucet 'the faucet can be switched into or out of the continuous water flow mode without having to _ any part of the faucet body is protected because it is not exposed to the water _ body. M419004 • In the middle of this unique design The sensor pause mode allows the user to work in the automatic faucet detection area near the area without water flowing out. In addition, the two pairs of sensors regulate the flow pattern of water flow and the temperature of the water flow control 调 调 调 县 县 县 县 县 , , , , , , , , , , , , , , , , 域- A commonly used "value pre-requisite function provides a constant default flow rate and water flow temperature" to prevent the user from accidentally reading the high temperature hot water set by the user before the user opens the faucet. Maintain faucet water flow at a minimum required amount to save water. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a block flow diagram of a preferred embodiment of a touchless automatic faucet apparatus system in accordance with the present teachings. The touch-free automatic faucet system (1〇〇) described here is shown connected to Φ cold water source 〇 04), hot water source (105) and a water outlet for mixing water to the faucet (106). The system (100) includes a first set of intermediate electronic sensors c (111), a pair of second sets of sensor assemblies A and B (112 and 1) 3, and a pair of third sets of sensor assemblies D and E (114 and 115) A power supply component (121), a logic processor circuit board (122), a water flow flow control valve assembly A (123), a temperature control valve assembly b (124) and a water temperature sensor (119). In the present creation, the power supply component (12i) may be one or more batteries, one or more rechargeable batteries, a solar cell system, a DC voltage supplied by an AC/DC voltage converter or the like. From the first set of intermediate electronic sensors C (111) a pair of second set of sensor components electronic sensors φ A and B (112' 113) and a pair of third set of sensor components electronic sensors d and E (114, 115) output transmission The sense signals (141, 142, 143, I44, and H5) are passed to the logic processor board (122). The logic signals (301 and 302) sent by the logic processor control the flow control valve assembly (123) and the water flow temperature control valve assembly (124). The power supply assembly (121) provides power (148) to the logic processing board (122) to power the entire system. ^ In one of the touchless automatic faucet devices described in this creation, the water stream (107) flows out of the temperature control valve assembly. B (124), enter the flow control valve assembly A (123). In the present creation, the water flow is flowed out by the flow control valve assembly A (123) and flows to the faucet with water flow (1〇6), or when the touch-free automatic faucet device system (100) contains an increaseable water temperature sensor (119) Flow Flow (109) Outflow Flow Control Valve Assembly A (123) enters M419004 or otherwise contacts the water temperature sensor (119) before flowing to the faucet flow (106). - In this creation - the better compensation, the water temperature sensor (119) detects the temperature of the water flow (1〇6) to the nozzle of the faucet. The detected temperature signal (146) is transmitted to the logic processing. The device (122) is also used to display a water flow temperature display device, such as a coffee display device, a liquid crystal display device, and the like. In the device of this creation, the display may be located at the faucet nozzle ^101) or near the faucet. In another device of the present invention, a signal is sent to the logic processor (122) water/dish sensor to control the water temperature control assembly (124) to control the sensed excess temperature, which can be stopped by the water temperature sensor (119). ) Water that is sensed to be exposed to high temperatures is injured. 2 is a diagram of a preferred embodiment of a touch-free automatic faucet according to the present invention. The first group of intermediate sensors C (111:) is the intermediate automatic flow mode when the water in the tank ((10)) requires water to wash hands or clean the food while the φ is activated. The second set of sensor components, electronic sensor A (112) and sensor B ( 113) has three different functions: adjusting the water flow temperature, intermediate sensor pause (sensor c) mode and combining a pair of second sensors (sensor eight and sensor B) (112 and u3) to actuate or stop the continuous flow pattern When filling water tanks, containers or dishes, washing food, etc. require continuous water flow. In the intermediate sensor pause mode or continuous water flow mode, when the water flows out of the faucet, the pair of second sensor components (sensor A and sensor B) (112 and 113) The temperature (temperature control mode) with function adjustment water is adjusted up/down. When the first group of intermediate sensors (sensor c) (111) is in the non-actuated state, the actuation of sensor A (112) is triggered. An "intermediate sensor $ pause mode, to suspend sensor C (111) function, so that _ users can work near the tap without having to let the water flow out. In this pair of third Group Sensor (Sensor D 'Sensor E) (114) (115) Controls the water flow rate of the faucet (adjusts the water flow mode). The pair of second group sensors (Sensor A, Sensor B) (112) (113) And the pair of second sensors (sensor D, sensor E) (114) (115) control the common flow rate of water flow and temperature of the faucet (common default preset mode) β in a device of the present invention Commonly used default values can be used to pre-set water flow and/or temperature control. In one example, sensor D (114) and sensor Ε (115) in the third set of sensor components simultaneously detect 12 M419004 to be in its detection zone. - One touch (for example, _t finger) exists and reaches a 2 second, 1 Ming), pronounced 122) (4) _ control valve group = (m) is active, - LED indicator flashes (and / or sound chip The logic processor (丨22) sets the current temperature and water flow condition to the common internal binary preset value (common default preset mode). One-to-second set of sensors (sensor A, sensing _ B) (112) (113) This
j轉感器(傳感器D,傳感器E)(114)(115)控制水龍頭的水流流量 和溫度的個人化職(個人化預賴式)。在賴作的―個裝置巾,一個第 三組傳感Μ餅預先奴水赫4和/或溫度㈣,卜在—_子中,在第 三組傳感器組件的第-個傳感器D(114)檢測到在其檢測區域内有一個物 體(例如’-隻手指)的存在且達到一個預設時間(例如2秒,则少等) 一個LED指示燈_ (和/或聲音芯片產生聲音指示),邏輯處理器(如 從而作動流量控制閥組件(124)處於作動狀態使水流出水龍頭此時在— 個預設_ (例如2秒,10秒等)内,第一組中間傳感器c (in)作動中 間自動水流模式或該一對第二組傳感器(傳感器A和傳感器B)(il2和 113)作動連續水流模式則水流料―個個人化預設的溫度和水流流量條件 流出(個人化預設模式)。 μj Transducer (Sensor D, Sensor E) (114) (115) controls the flow of water and the temperature of the faucet (personalized pre-requisite). In the device wipes, a third group of sensory cakes pre-slave water 4 and / or temperature (four), in the -_ sub, in the third sensor module of the third sensor D (114) Detecting the presence of an object (eg, a '-finger) in its detection area and reaching a preset time (eg, 2 seconds, then less) an LED indicator _ (and/or the sound chip produces an audible indication), The logical processor (eg, the actuating flow control valve assembly (124) is actuated to cause water to flow out of the faucet at this time in a preset _ (eg, 2 seconds, 10 seconds, etc.), the first set of intermediate sensors c (in) actuated The intermediate automatic water flow mode or the pair of second group sensors (sensor A and sensor B) (il2 and 113) actuate the continuous water flow mode, then the water flow material - a personalized preset temperature and water flow flow condition out (personalized preset mode) ) μ
另一較佳實施例是,第三組中間傳感器組件的第二個傳感器c (115) 檢測到在其檢·域内有-個物體(例如,—隻手指)的存在且達到—個 預設時間(例如2秒,10秒等),一個LED指示燈閃爍(和/或聲音芯片產 生聲音指示),邏輯處理器(122)從而作動流量控制閥組件(124)處於作 動狀態使水流出水龍頭,此時在一個預設時間(例如2秒,1〇秒等)内, 第一組中間傳感器C (111)作動中間自動水流模式或該一對第二組傳感器 (傳感器A和傳感器B)(112和113)作動連續水流模式則水流以第二個 個人化預設的溫度和水流流量條件流出(個人化預設模式)。 該對第二組傳感器(傳感器A,傳感器b) (112) (113)和這對第三 傳感器(傳感器D,傳感器E) (114) (115)控制個人化預設的溫度和水 流流量條件流出(個人化預设模式)〇在本創作的一個裝置中,一個第三組 13 M419004 傳感器可驗預先設定水流流量和/或溫度控制。在—烟子中如上段所 述水流流#控綱組件⑽)料—侧人錢設處於作嫌態使水流出 水龍頭時’在第二組傳感器組件的第-個傳感器D ( 114)和第三組傳感器 組件的第二個傳感器E (115)同時檢測到在其檢漸域内有__個物體(例 如’一隻手指)的存在且達到一個預設時間(例如2秒,1〇秒等),一個led 4曰示燈閃爍(和/或聲音芯片產生聲音指示),邏輯處理器(122)此時即設 疋當則的溫度和水赫懿件騎的第—個個人化預設值(個人化預設模 式)。 另一較佳實施例是,如上段所述水流流量控制間組件(124)以第二個 個人化預設處於作動狀態使水流出水龍麟,在第三組傳感驗件的第一 個傳感器D (114)和第三組傳感器組件的第二個傳感_ E (115)同時檢 測到在其檢測區域内有—個物體(例如,—隻手指)的存在且達到一個預 設時間(例如2秒’ 10秒等),-個LED指示燈閃爍(和/或聲音芯片產生 聲音指示),邏輯處理器(m)此時即設定當前的溫度和水流流量條件為 新的第二個個人化預設值(個人化預設模式)。 另-較佳實關是,邏雛理H (122) _令使水流流量控制間組件 (124)處於停止作動的狀態,在第三組傳感器組件的第_個傳感器d(⑽ 或第三組傳感器組件的第二個傳感器E (115)之—檢測到在其檢測區域内 有-個物體的存在且達到-侧設時間(例如2秒,1G秒等),邏輯處理器 (122)即作動水流流量控制閥組件(124)使水流以第一個個人化預^值 設定或第二_人化預設舰定之溫度和水流流量流出。在另—個例子 中’當流ώ水溫度和賴流量倾變時,個人倾設值設定的水溫度和水 流流量即被。在本創_-個裝置中,視應贼需要錢頭第一组傳 感器組件的第-個傳感器c (111)可以安置在水龍頭的出水口(1〇2)。 圊3是根據本創作的免觸摸式自動水龍頭的控制邏輯的系統和方法的 -較佳實施例的流程圖。此描述的免觸摸式自動水龍頭系統()顯示由 混合水流流量(1G6)流到水龍頭水嘴⑽)。水龍頭水嘴⑽)包八一 個第-組中間傳感1(111),-個LED指示燈(118),第二組傳感^ M4l9〇〇4 (U2和113)和一對第三組傳感器組件(114和115)都是安裝在水龍頭本 體(101)。其中每一個電子傳感器(111,112,113,114和115)包含一個 紅外線發射器和接收器以檢測物體的存在,和一個LED指示燈(118)指 示系統的信息。 第一組中間傳感器c(m)檢測盥洗槽區域(1〇8)物體的存在,以操作 t間自動水流模式。這對第二組傳感器組件的傳感器A和B (112和113) 和這對第三組傳感器組件的傳感器D和E (114和115)的功能是控制水龍 頭(101)的連續水流模式,溫度控制模式,中間傳感器暫停模式和調節水 流流量模式。此水龍頭系統(1〇〇)還包含電源供應組件(121)提供必要 的電力(148)到控制系統,有預裝邏輯程序的電子邏輯處理器電路板(122) 來控制水龍頭系統(1〇〇 )’一水流流量控制閥組件(丨23),溫度控制閥組 件(124)來控制水流流量(301)和溫度(302) ’和一個水流溫度傳感器 (119)。 圖4是根據本創作的免觸摸式自動水龍頭的控制邏輯的系統和方法的 —較佳實施例的邏輯流程圖,顯示根據本創作使用電子傳感器(如紅外線 感應器),檢測裝置,一個邏輯處理器,水流的水流流量控制閥組件件以控 制水流流量和溫度而達到“免觸摸,,和“自動,,水龍頭系統的一個裝置之邏輯 程序和方法的邏輯流程圖。 第一組傳感器(傳感器C) (111)檢測到一個物體在其檢測區(I?】) 内(例如,在一個盥洗槽裡)作動(H1)第一組傳感器(傳感器c)(m) 且邏輯處理器(122 )作動(301)水流流量控制閥組件(閥a) ( 123)使 水流由水龍頭(101)流出(中間自動水流模式的作動)(2〇1)。 在中間自動水流模式作動(2〇1)操作時,水流流量控制閥組件(閥A) (123)的水流是在作動的位置,且當第一組傳感器(傳感器c) (m)沒 有檢測到(141) 一個物體在其檢測區(171)(例如’在一個盥洗槽裡), 邏輯處理器(122)停止作動(301)水流流量控制閥組件(閥A) (123) 以停止水流到水龍頭水嘴(1〇1)(中間自動水流模式的停止作動) 在任何時候,第二組傳感器(傳感器A和傳感器B) (112和113)統 15 M419004 同時檢測到一個物體(例如,一隻手)在其檢測區且達到預設的時間(作 動連續水流的時間)(142和143),邏輯處理器(122)作動(301)水流流 量控制閥組件(閥A)( 123)使水連續流(252)(連續水流模式)(202) 到水龍頭水嘴(101) β這種連續水流模式(2〇2)讓使用者可以方便的充滿 洗驗盆或谷器(108 )而不必把手保持在第一組中間傳感器(傳感器c)( ηι ) 的檢測區域内以保持連續水流(連續水流模式的啟動)(2〇2)。 正如圖4所示。水流流量控制閥組件(閥A) (123)是在作動狀態使 的水流(301)到水龍頭水嘴(101)。第二組傳感器A (112)檢測(142) 到個物體(例如’一隻手指)在檢測區(丨72),邏輯處理器(122)依 照傳感器(傳感器A)(112)的感應時間增加溫度控制閥組件(閥b)(i24) 的熱水流流量(105),減少冷水流流量(104)以增加水龍頭通過的水流 溫度。第二組傳感器B (113)檢測(143)到一個物體(例如,一隻手指) 在檢測區(Π3),邏輯處理器〇22)依照傳感器(傳感器B) (113)的 感應時間減少溫度控制閥組件(閥B) 〇24)的熱水流流量(1〇5),增 加冷水流流量(104)以減少水龍頭通過的水流溫度。因此水龍頭通過的Z 流溫度是由一對第二組傳感器(傳感器八和傳感器B) (112和113)的功 能所控制而無需人或物體接觸任何水龍頭本體(1〇1)(溫度控制模式)(2〇3 和204) »在本創作的一個裝置中,可選項的水溫傳感器(119)感知溫度 和反鎮信號給邏輯處理器(122)。在本創作的-個裝置中,如果檢測到$ 溫度超過預定溫度這個邏輯處理器發送一個信號到溫度控制閥組件(閥 (124),以減少水流溫度,或如果超過預設的最高溫度則發送一個信號到 水流流量控_組件(·)(123) _閉水流^這水溫傳感器防止使用 人接觸到加熱過高的水溫度以維護安全。在一個例子中,指示器是一個 扎示燈顯示攝氏或華氏溫度。在另一侧子中,該指示器是_個產生聲音 (例如,一個響鈐)的聲音顯示器或以所選擇的語言表達其溫度。在另二 個例子中,聲音和指示燈顯示同時用來指示當前水溫給使用者。 在本創作的-較佳實施例中,中間自動水流模式⑽)和連續水流模 式(2〇2)作動中,水流流量控制閥組件(閥A) (123)處於一個作動/的位 M419004 置使水流(301 )到水龍頭水嘴(106)。當第三組傳感器組件的傳感器D( 114) ; 在其檢測區(口4)檢測到(144) 一個物體(例如,一隻手指),邏輯處理 器(122)根據傳感器D (114)的感應時間同時提高(26〇)水流流量控制 •閥組件(閥A) (123)的熱水和冷水流流量。當第三組傳感器組件的傳感 器E ( 115 )在其檢測區(175 )檢測到(145 ) —個物體(例如,一隻手指), 邏輯處理器(122)根據傳感H E (M5)的感應時間同畴低(261)水流 流量控制閥組件(閥A)的熱水和冷水流流量。水龍頭水流流量調節的運 作由-對第三組傳感器(傳感器D和傳感器E)(m和115)所控制爾而不 必接觸水龍頭本體⑽)的任何部分(調節水流流量模式)(206和207)。 • 纟本創作的—較佳實施例中,水龍頭於連續水流模式(202),水流流 量控制閥組件(閥A) (123)處於—個作動的位置使水流⑽)到水龍頭 水嘴(106)。第二組傳感器(傳感器a和傳感器B)(ll2和ιι3)同時檢 測到-個物體(例如’-隻手)在其檢測區且達到預設的時間(停止作動 連續水流的時間)(142和143),邏輯處理!|(122)作動連續水雜式(3〇ι) =/❹量控糊組件(閥A) (123)使停止水流(2幻)(連續水流模式的 停止)(202)。 在本創作的-較佳實施例中,當水龍頭(1〇〇)是在待機狀態下,第一 組傳感器(傳感器c) (111)檢測到沒有一個物體在其檢砸(255),且 • 水流流量控綱組件(閥A)(123)設置為停用狀態(301)而沒有水從水 龍頭流出(256 )»第二組傳感器組件的傳感器A檢測(142 )到—個物艘(例 如’手或手指)在其檢測區(112)且達到預定時間(傳感器c暫停的時間) 觸發邏輯處理器(122)暫停(257)第一組傳感器(傳感器c)(⑴)的 功能’這是被稱為“中間傳感器暫停模式,,(2〇5)。在這個中間傳感器暫停模 中使用者可以在中間傳感器檢測區域内工作而不會作動水龍頭水流以 節省水(中間傳感器暫停模式的開始)。 在中間傳感器暫停模式時(2〇5),第-組中間傳感器(傳感器c)(ln) 處在暫停狀態(257)。第二組傳感器的傳感器△ 〇⑴檢測(⑻到有 個物體(例如,-個手指)在其檢測區内且達到一個預設時間(中間傳 M419004 感器復位的時間)。邏輯處理器會解除第一組中間傳感器的暫停狀態。恢復 其傳感的功能(257 )。自動水龍頭系統(1〇〇)復位回到待機狀態(中間 傳感器暫停的復位))(205)。 水龍頭是處於中間自動水流模式(2〇丨)或連續水流模式(2〇2),水流 流量控制閥組件(閥Α)是在一個作動的位置使水龍頭在流水狀態中(3〇1 當第三組傳感器的兩個傳感器(傳感器D和傳感器Ε) (114和115)同時 檢測到在它的檢測區域内有一個物體(例如’一隻手)的存在且達到一個 預設時間(常用内定值設定時間)時,邏輯處理器(122)即將當前的水流 溫度和水流流量的條件設定為新的常用水流溫度和水流流量的内定值(常 用内定值預設模式)(208)。這獨特的常用水流流量和溫度内定值設定及復 位功能(263)可以防止使用者打開水龍頭時由於以前的使用者設定的熱水 突然流出而意外受傷,並且可以保持最少水流需要用量以節約用水。 在本創作的-較佳實施例中,水流流量控制閥組件(123)和水溫控制 閥組件(124)有-個熱水流體入口(1〇5) 一個冷水流體入口(1〇4)和一 個流體出口⑽)(混合冷/熱水流)導管,結合一個或一個以上的電動電 磁閥和電動齒輪控制閥以控制水流(1〇6)向水龍頭水嘴。 在本創作的-些免觸摸式自動水龍頭裝置中,一個中間傳感器(傳感 器c) (lu) ’ -對第二組傳感器(傳感器八和傳感器β)) (ιΐ2,⑻和 二對第三組傳感器(傳感HD和傳感器Ε)(114, 115)具有完全控制水流 量(301)和水’皿(3〇2)的免觸摸自動水龍頭裝置的創作可以提供商業 和住宅的各種應用。 〜 圖5和® 6說明了根據本創作的一個免觸摸式自動水龍頭中,第一組 感器(傳感器C) (111)的安裝與一對第二組傳感器(傳感器Α和 ’.益B)(112和113)和-對第三組傳感器(傳感器D和傳感器 口 115)的傳感光束指向不同的方向,與水龍頭⑽)前方的第一組中間 傳感益(傳感器C)(111)約成9〇度角,以防止互相干援。 圖7和圖8說明了本創作中可以有不同的電子傳感器的安排 創作的-個裝置第-組中間傳感器(傳感器c)(m)可以安裝在水龍= M419004 ’ 的出水口出口(101)以更好地檢測。應當指出的是,本創作的其他裝置中 • 第一組中間傳感器(傳感器c) (111)可能安裝在水龍頭出水口 Q〇1)的 其他位置。 - 圖9顯示說明了本創作的一個裝置中可以有不同的電子傳感器的安 排。分開的水龍頭傳感器控制盒(127)設計功能提供容易使用的廚房,盟 洗室水龍頭的應用,特別是為兒童,殘疾人和老年使用者等。本創作的一 個裝置中’一個分開的水龍頭傳感器控制盒(127)顯示在頂部上面安裝一 個可選項的溫度顯示器(455)。在一個例子中,顯示器(455)是一種LED 顯示屏,LCD液晶顯示器等等。在一個本創作的裝置中,可選項的溫度顯 • 示益(455)顯示從邏輯處理器(122)傳遞之可選項的溫度傳感器(I”) 感應到水的溫度信號,並將信號轉換顯示當前水溫。 圖10是根據本創作的免觸摸式自動水龍頭的一水流流量控制閥組件 較佳實施例圖式,說明本創作中的水流流量控制閥組件(123 )和水流溫度 控制閥組件(124)。水流流量控制閥組件(123)包含一個電磁閥(181) 及一電動齒輪閥門裝置(182)。電磁閥(181)接收從邏輯處理器的信號(3〇1) 切換打開/關閉電磁閥(181)以啟動/停止水流(1〇6)到水龍頭水嘴(1〇1)。 電動齒輪閥組件(182)根據信號輸入(301)以調節水流(1〇6)β水溫度 控制閥組件(124)包含一個電動齒輪三向閥門裝置(183)根據從邏輯處 # 理器(122)輸出的信號(302)調整冷水進口(104)和熱水入口(1〇5) 的冷/熱水流流量比例以調節水溫。 圖11是根據本創作的免觸摸式自動水龍頭的另一種水流流量控制閥 組件較佳實施例圖式,說明本創作中的水流流量控制閥組件(123)和水流 溫度控制閥組件(124)。水流流量控制閥組件(123 )包含電動齒輪閥門裝 置(182)。電動齒輪閥組件(182)根據信號輸入(3〇1)調節水流流量(1〇6)。 水流溫度控制閥組件(124)包含一個電動齒輪三向閥門裝置(183)接收 從邏輯處理器(122)輸出的信號(302)調整分別從冷水進口(1〇4)和 熱水入口( 1〇5 )的冷/熱水流流量比例以調節水溫。 圖12說明了本創作中结合水流流量控制閥組件(123)和水流溫度控 19 M419004 制閥組件(124)的另一個裝置。該水流流量和溫度控制閥组件〇23和124) 包含一個電磁閥(181)和兩個電動齒輪閥組件(丨84和185)。兩個電動齒 輪閥組件(184和185)接收從邏輯處理器(122)輸出的信號(3〇1和3〇2) 分別調整從冷水進口(104)和熱水入口(1()5)的冷/熱水流流量比例以調 節水溫。本創作的一個裝置中。此兩個電動齒輪閥組件(184和185)控制 水流流量而沒有一個分開的水流流量控制閥。 圖13說明了根據另一個本創作裝置中的水流流量控制閥組件(123) 和溫度控綱組件(124)。流量/溫度控綱組件(123和124)包含兩個電 動齒輪閥裝置(186)( 187),根據接收從邏輯處理器(122)輸丨的信號(3〇1 和302)以開啟/關閉並調整從冷水進口(1〇4)和熱水進口(1〇5)的冷/ 熱水流流量比例以調節水溫。 圖Μ說明本創作安裝於&缸(452)的免觸摸式自動水龍頭系統 (100)。在本創作裝置中’水龍頭水嘴⑽〇和分開的水龍頭傳感器控制 盒(4〇2)非常方便的連接到浴缸(則。裝置在遠端包含水流流量控制間 組件(123)和水溫度控制閥組件〇24)❼一個電子控制盒(4〇1),並與 安裝在單獨的水龍頭傳感器控制盒⑽)以有線或無線連接(4⑹進行 信號交流。在本創作裝置中這水龍頭⑽)可能被一對第二組傳感器打開 的連續水流充填浴缸(452)到所需的水位和所需的溫度。舉—個例子,一 讎制盒⑽)可安裝在牆壁内或在浴缸旁邊或下面(Μ2)以方便進行 維修。襄置中該傳感器控制盒(則包含傳感器(112,⑴,ιΐ4和ιΐ5), 和LED指示燈〇18)。在本創作一個裝置中傳感器控制盒(402)不包含 第,.且中間傳感器C (in),因為一個浴仏(452)通常是沒有必要瞬間水 流的机出應田才曰出的是在本創作其他的裝置,浴缸中的應用可能包含第 -組中間傳感器C (111)β在本創作的—些裝置,内定值和個人化預設的 設定溫度允許者根據自己喜㈣溫度奴戦水流溫度,㈣必每次 使用洛缸(452)時還要調整溫度。 的-個裝置,包含—個個人化的計時器(未顯示於此)以保 所而/1度。在本創作的這個裝置,基於過去使用浴缸(452) M419004 的經驗,個者可以麟計時器在預定_時自動_水流。本創作的這 ,個裝置讓使用者不必注意浴紅(452)而達到所需的水位。此功能讓使用者 能在浴缸(452)自動裝水到所需溫度時做其它事情。在又另一個裝置中, .計時器和傳感器可以通過-個手持遙控器或通過網絡如互聯網以控制。在 本創作的這健置,讓使用者秘與驗(452)在同__個賴或位置而使 浴缸(收)充滿達到所需水位和所需溫度。還有在另一個裝置中,此計時 器還包含-個日期和時間設置功能以事先設定浴虹(則需要充滿的日期 和時間。 圖15 ^明本創作安裝於浴缸Μ2)的免觸摸式自動水龍頭系統(⑽) • 與包含傳感器(112, 113,114和Μ),和-個LED指示燈(118)而沒 有分開的傳感器控制盒(402)的水龍頭水嘴(1〇1)。含有水流流量控糊 組件(⑵)和溫度控制閥組件(124)的一個電子控制盒(4〇1),與通過 有線或無線連接(403)信號連接安置在水龍頭水嘴(1〇1)的傳感器互相 溝通。在本創作這個裝置的水龍頭⑽)可能由第二組傳感器的兩個傳感 器同時作動的連續水流模式打開充滿浴缸(452)到所需的水位和所需的溫 度。在-個例子中’-個控歡(4〇〇可安裝在牆壁内或在浴缸旁邊或下 面(452)以方便進行維修。在本創作一個裝置中,也可包含如上所述個人 化定時器。在本創作-個裝置中傳感器控制盒(4〇2)不包含第一組中間傳 • 感器C (m),因為一個浴缸(452)通常是沒有必要瞬間水流的流出。應 當指出的是在本創作其他的裝置,浴缸中的應用可能包含第一組中間傳感 器C (111)。在本創作的一些裝置,内定值和個人化預設的設定溫度允許 使用者根據自己喜好的溫度設定所需水流溫度,而不必每次使用浴缸(452) 時還要調整溫度》 圖16說明本創作的免觸摸式自動水龍頭系統安裝的淋浴設備(6〇〇)。 本創作這個裝置中,水龍頭感應器(112,113,114,115)和可選項的LED 溫度顯示(455)非常方便的連接到淋浴設備(6〇1)。在本創作的一個裝置 中一個包含水流流量控制閥組件(123)和溫度控制閥組件(124)的電子 控制盒(401) ’通過有線或無線連接(4〇3)信號連接傳感器(112,113, 21 M419004 114和115)互相溝通。在本創作的一個裝置中固定於牆内木條柱上(6〇8) 的電子控制盒(401)連接冷水閥(603)(連接管道611)和熱水閥(604) (連接到管道612)。在本創作的這個裝置,水流(1〇6)通過肘關節(6〇6), 並通過出口(607)流入水管(605)。牆上的開關蓋板(6〇2)類似於傳統 的開關蓋板。本創作的這個襄置可以容易的取代傳統的淋浴龍頭閥門。 在本創作的一個裝置水龍頭(607)中,可能由第二組傳感器的兩個傳 感器同時作動的連續水流模式打開淋浴設備(6〇〇)到所需的水流溫度。在 一個例子中,電子控制盒(401)可能安裝在與嵌入同一淋浴設備的牆壁内 以便於進行維護。在本創作一個裝置中傳感器控制盒(601)不包含第一組 中間傳感器C (111),因為一個淋浴設備(600)通常是沒有必要瞬間水流 的流出。應當指出的是在本創作其他的裝置,淋浴設備的應用可能包含第 一組中間傳感器C (111)。在本創作的一個裝置,可能會包含一個可選項 的計時器以便提前打開淋浴設備,使可達到希冀的溫度。在本創作的一些 裝置,預先設定的溫度讓使用者可以根據個人喜好設定個人化的水流溫 度,而不必每次使用淋浴設備(6〇〇)時還要調整溫度。在本創作的另一些 裝置,個人化預設的計時器可用來限制淋浴時間以節約或限制用水。 圖17說明本創作的免觸摸式自動水龍頭系統(1〇〇),可以是安裝在浴 缸(452)或其他應用上,包含傳感器(112, 113,114和115),和一個led 指示燈(118)而沒有分開的傳感器控制盒(4〇2)的水龍頭水嘴 在本創作的一個裝置,水龍頭面板(454)可能會包含溫度顯示器(455)。 在一個在本創作的一個裝置中一個包含水流流量控制閥組件(123)和溫度 控制閥組件(124)的遙控電子控制盒(4〇1),通過有線或無線連接(4〇3) 並與安置在水龍頭水嘴(101)内的傳感器信號互相溝通。在本創作這個裝 置的水龍頭(101)可能由第二組傳感器的兩個傳感器同時作動的連續水流 模式打開充滿浴缸(452)到所需的水位和所需的温度。在本創作一個裝置 中,也可包含如上所述個人化定時器。在本創作的一些裝置,内定值和個 人化預設的設定溫度允許使用者根據個人喜好的溫度設定所需水流溫度, 而不必每次使用時還要調整水龍頭(1〇〇)的水溫度。 22 本創作的各種實施例,含有三個或更 溫度供商業和住宅應用上提供一個簡 得感益,以控制水流流量和 衛生的功能》 '作方便,節約用水和保護個人In another preferred embodiment, the second sensor c (115) of the third set of intermediate sensor assemblies detects the presence of an object (eg, a finger) within its inspection domain and reaches a predetermined time (eg 2 seconds, 10 seconds, etc.), an LED indicator flashes (and/or the sound chip produces an audible indication), and the logic processor (122) thereby actuates the flow control valve assembly (124) to actuate to allow water to flow out of the faucet, During a preset time (eg, 2 seconds, 1 second, etc.), the first set of intermediate sensors C (111) actuate the intermediate automatic water flow mode or the pair of second set of sensors (sensor A and sensor B) (112 and 113) When the continuous water flow mode is activated, the water flow flows out with a second personalized preset temperature and water flow condition (personalized preset mode). The pair of second sensors (sensor A, sensor b) (112) (113) and the third pair of sensors (sensor D, sensor E) (114) (115) control the personalized preset temperature and water flow conditions flow out (Personalized Preset Mode) In a device of this creation, a third set of 13 M419004 sensors can be used to pre-set water flow and/or temperature control. In the smoke, as described in the above paragraph, the flow of the water control unit (10)) - the side of the money is set to make the water out of the faucet 'the first sensor D in the second group of sensor components (114) and The second sensor E (115) of the three sets of sensor components simultaneously detects the presence of __ objects (eg 'one finger') within its detection fade-in and reaches a preset time (eg 2 seconds, 1 second, etc.) ), a led 4 flashes (and/or the sound chip produces an audible indication), and the logical processor (122) sets the temperature and the first personalized preset of the water ride. (personalized preset mode). In another preferred embodiment, the water flow control room assembly (124) as described in the above paragraph is operated in a second personalized preset to cause water to flow out of the water, and the first sensor in the third set of sensing pieces. D (114) and the second sensor _ E (115) of the third group of sensor components simultaneously detect the presence of an object (eg, a finger) within its detection zone for a predetermined time (eg, 2 seconds '10 seconds, etc.), - an LED flashes (and / or the sound chip produces an audible indication), the logical processor (m) sets the current temperature and current flow conditions to a new second personalization Default value (personalized preset mode). In addition, the preferred one is that the logic flow H (122) _ makes the water flow control component (124) in a state of being stopped, and the _th sensor d ((10) or the third group of the third group of sensor components The second sensor E (115) of the sensor assembly detects that there is an object in its detection area and reaches the side setting time (for example, 2 seconds, 1 G seconds, etc.), and the logical processor (122) is actuated. The flow control valve assembly (124) causes the flow of water to flow out at the first personalized pre-value setting or the second-personalized preset temperature and water flow. In another example, 'when the flowing water temperature and temperature are When the flow is tilted, the water temperature and the flow rate set by the personal dumping value are received. In the present device, the first sensor c (111) of the first group of sensor components can be placed in the thief. At the water outlet of the faucet (1〇2). 圊3 is a flow chart of a preferred embodiment of the system and method for the control logic of the touch-free automatic faucet according to the present invention. The touch-free automatic faucet system described herein ( ) shows the flow from the mixed water flow (1G6) to the faucet nozzle (10)Faucet faucet (10)) Pack eight one-group intermediate sensing 1 (111), - LED indicator (118), second group sensing ^ M4l9〇〇4 (U2 and 113) and a pair of third group The sensor assemblies (114 and 115) are both mounted to the faucet body (101). Each of the electronic sensors (111, 112, 113, 114 and 115) includes an infrared emitter and receiver to detect the presence of an object, and an LED indicator (118) indicates information about the system. The first set of intermediate sensors c(m) detects the presence of an object in the scrubbing zone (1〇8) to operate the automatic water flow mode between t. The functions of the sensors A and B (112 and 113) of the second set of sensor components and the sensors D and E (114 and 115) of the third set of sensor components are controlled by the continuous flow pattern of the faucet (101), temperature control Mode, intermediate sensor pause mode and regulated water flow mode. The faucet system (1〇〇) also includes a power supply component (121) that provides the necessary power (148) to the control system, and an electronic logic processor circuit board (122) with pre-installed logic to control the faucet system (1〇〇) A water flow control valve assembly (丨23), a temperature control valve assembly (124) to control the water flow (301) and temperature (302)' and a water flow temperature sensor (119). 4 is a logic flow diagram of a preferred embodiment of a system and method for control logic of a touch-free automatic faucet according to the present invention, showing the use of an electronic sensor (eg, an infrared sensor), a detection device, a logic process according to the present creation The flow of water flow control valve assembly components to control the flow and temperature of the water to achieve a "no touch," and "automatic," logic flow diagram of a device and method of the faucet system. The first set of sensors (sensor C) (111) detects that an object is in its detection zone (I?)) (eg, in a wash tank) to actuate (H1) the first set of sensors (sensor c)(m) and The logic processor (122) actuates (301) the water flow flow control valve assembly (valve a) (123) to cause the water flow to flow out of the faucet (101) (actuation in the intermediate automatic water flow mode) (2〇1). In the middle automatic water flow mode operation (2〇1) operation, the water flow control valve assembly (valve A) (123) is in the actuated position, and when the first group of sensors (sensor c) (m) is not detected (141) An object is in its detection zone (171) (eg, 'in a wash tank), the logic processor (122) stops actuating (301) the water flow control valve assembly (valve A) (123) to stop the flow of water to the faucet Water nozzle (1〇1) (stop operation in the middle automatic water flow mode) At any time, the second group of sensors (sensor A and sensor B) (112 and 113) and 15 M419004 simultaneously detect an object (for example, one hand) In its detection zone and reaching a preset time (time to actuate the continuous flow) (142 and 143), the logic processor (122) actuates (301) the water flow control valve assembly (valve A) (123) to continuously flow the water (252) (continuous water flow mode) (202) to the faucet nozzle (101) β This continuous water flow mode (2〇2) allows the user to conveniently fill the wash basin or the bowl (108) without having to hold the handle Detection area of the first group of intermediate sensors (sensor c) ( ηι ) To maintain a continuous flow of water inside (start continuous flow mode) (2〇2). As shown in Figure 4. The flow control valve assembly (Valve A) (123) is a flow of water (301) to the faucet nozzle (101). The second set of sensors A (112) detects (142) an object (eg, 'one finger') in the detection zone (丨72), and the logical processor (122) increases the temperature according to the sensing time of the sensor (sensor A) (112). The hot water flow (105) of the control valve assembly (valve b) (i24) reduces the cold water flow (104) to increase the temperature of the water flow through the faucet. The second group of sensors B (113) detects (143) an object (eg, a finger) in the detection zone (Π3), and the logic processor 22) reduces the temperature control according to the sensing time of the sensor (sensor B) (113). The hot water flow rate (1〇5) of the valve assembly (valve B) 〇24) increases the cold water flow rate (104) to reduce the temperature of the water flowing through the faucet. Therefore, the Z-flow temperature through which the faucet passes is controlled by the function of a pair of second sensors (sensors 8 and B) (112 and 113) without touching any faucet body (1〇1) (temperature control mode). (2〇3 and 204) » In one device of the present creation, an optional water temperature sensor (119) senses temperature and inverse signals to the logic processor (122). In the device of the present invention, if it is detected that the temperature exceeds the predetermined temperature, the logic processor sends a signal to the temperature control valve assembly (valve (124) to reduce the water flow temperature, or if the temperature exceeds the preset maximum temperature. A signal to the flow control _ component (·) (123) _ closed water flow ^ This water temperature sensor prevents the user from touching the heated water temperature to maintain safety. In one example, the indicator is a display light Celsius or Fahrenheit. In the other side, the indicator is a sound display that produces a sound (eg, a ring) or expresses its temperature in the selected language. In the other two examples, the sound and indication The light display is also used to indicate the current water temperature to the user. In the presently preferred embodiment, the intermediate flow mode (10) and the continuous flow mode (2〇2) are actuated, the flow control valve assembly (valve A) (123) At an actuating/position M419004, the water flow (301) is brought to the faucet nozzle (106). When the sensor D (114) of the third group of sensor components detects (144) an object (eg, a finger) in its detection zone (port 4), the logic processor (122) senses based on the sensor D (114) The time is simultaneously increased (26 〇) water flow control • valve assembly (Valve A) (123) for hot and cold water flow. When the sensor E (115) of the third group of sensor components detects (145) an object (eg, a finger) in its detection zone (175), the logic processor (122) senses based on the sensing HE (M5) Time-domain low (261) water flow control valve assembly (valve A) for hot and cold water flow. The operation of the faucet flow regulation is controlled by the third set of sensors (sensor D and sensor E) (m and 115) without necessarily touching any part of the faucet body (10) (adjusting the water flow pattern) (206 and 207). • In the preferred embodiment of the present invention, the faucet is in continuous flow mode (202) and the flow control valve assembly (valve A) (123) is in an actuating position to cause water flow (10) to the faucet nozzle (106) . The second set of sensors (sensor a and sensor B) (ll2 and ιι3) simultaneously detect that an object (eg '-hand only) is in its detection zone and reaches a preset time (time to stop the continuous flow of water) (142 and 143), logical processing! | (122) Actuate continuous water miscellaneous (3〇ι) = / ❹ quantity control paste assembly (valve A) (123) to stop the water flow (2 magic) (continuous flow mode stop) (202). In the preferred embodiment of the present invention, when the faucet (1 〇〇) is in the standby state, the first group of sensors (sensor c) (111) detects that no object is inspected (255), and The flow control assembly (Valve A) (123) is set to the deactivated state (301) and no water is flowing from the faucet (256)»The sensor A of the second set of sensor assemblies detects (142) to a vessel (eg ' The hand or finger is in its detection zone (112) and reaches a predetermined time (the time the sensor c is paused) triggers the logical processor (122) to pause (257) the function of the first set of sensors (sensor c) ((1)) 'this is This is called the “intermediate sensor pause mode, (2〇5). In this intermediate sensor pause mode, the user can work in the intermediate sensor detection area without moving the faucet water to save water (the beginning of the intermediate sensor pause mode). In the intermediate sensor pause mode (2〇5), the first group of intermediate sensors (sensor c)(ln) is in the pause state (257). The second group of sensors is detected by sensor △ 〇(1) ((8) to have an object (eg , - a finger) Within the detection zone and reaching a preset time (intermediate M419004 sensor reset time). The logic processor will release the pause state of the first group of intermediate sensors. Restore its sensing function (257). Automatic faucet system (1 〇〇) Reset back to standby (intermediate sensor pause reset)) (205). The faucet is in the middle automatic water flow mode (2〇丨) or continuous water flow mode (2〇2), water flow control valve assembly (valve Α ) is to make the faucet in the flowing state in an actuating position (3〇1 when the two sensors of the third group of sensors (sensor D and sensor Ε) (114 and 115) simultaneously detect that there is an object in its detection area (For example, the presence of a 'one hand' and a predetermined time (usually set by the default value), the logical processor (122) sets the current conditions of the water flow temperature and the water flow rate to the new common water flow temperature and water flow rate. The default value (common default preset mode) (208). This unique common water flow and temperature setting and reset function (263) can prevent use. When the faucet is turned on, it is accidentally injured due to the sudden outflow of hot water set by the user, and the amount of water flow can be kept to save water. In the presently preferred embodiment, the water flow control valve assembly (123) and water The temperature control valve assembly (124) has a hot water fluid inlet (1〇5) a cold water fluid inlet (1〇4) and a fluid outlet (10)) (mixed cold/hot water flow) conduit, combined with one or more electric Solenoid valves and electric gear control valves to control the flow of water (1〇6) to the faucet faucet. In the creation of some of the touch-free automatic faucet devices, an intermediate sensor (sensor c) (lu) '-to the second group Sensor (sensor eight and sensor beta)) (ιΐ2, (8) and two pairs of third sensor (sensing HD and sensor Ε) (114, 115) with full control of water flow (301) and water 'dish (3〇2) The creation of touch-free automatic faucet devices can be used for a variety of commercial and residential applications. ~ Figure 5 and ® 6 illustrate the installation of a first set of sensors (Sensor C) (111) with a pair of second sensor (sensor Α and '. Benefit B) according to a creation of a touch-free automatic faucet (112 and 113) and - the sensing beams of the third set of sensors (sensor D and sensor port 115) point in different directions, with the first set of intermediate sensing benefits (sensor C) (111) in front of the faucet (10) Into a 9-degree angle to prevent mutual assistance. Figures 7 and 8 illustrate that the device-integrated sensor (c) can be installed at the outlet of the water outlet (101) of the water heater = M419004'. Better detection. It should be noted that in other devices of this creation • The first group of intermediate sensors (sensor c) (111) may be installed at other locations in the faucet outlet Q〇1). - Figure 9 shows an arrangement of different electronic sensors that can be used in one of the devices of the present invention. The separate faucet sensor control box (127) is designed to provide easy-to-use kitchen, bathroom faucet applications, especially for children, disabled and elderly users. In a device of the present creation, a separate faucet sensor control box (127) displays an optional temperature display (455) mounted on top of the top. In one example, the display (455) is an LED display, an LCD display, and the like. In one of the authored devices, the optional temperature display (455) shows the temperature sensor (I" that is passed from the logic processor (122) to sense the temperature signal of the water and convert the signal to display The current water temperature. Figure 10 is a schematic diagram of a preferred embodiment of a flow-through flow control valve assembly of the touch-free automatic faucet according to the present invention, illustrating the water flow control valve assembly (123) and the water flow temperature control valve assembly in the present creation ( 124) The flow control valve assembly (123) includes a solenoid valve (181) and an electric gear valve device (182). The solenoid valve (181) receives a signal from the logic processor (3〇1) to switch on/off the electromagnetic The valve (181) starts/stops the water flow (1〇6) to the faucet nozzle (1〇1). The electric gear valve assembly (182) adjusts the water flow (1〇6) β water temperature control valve according to the signal input (301). The assembly (124) includes an electric gear three-way valve device (183) that regulates the cold/hot of the cold water inlet (104) and the hot water inlet (1〇5) based on the signal (302) output from the logic device (122). The flow ratio of the water flow is used to adjust the water temperature. Figure 11 is a diagram of a preferred embodiment of a water flow control valve assembly of the touchless automatic faucet according to the present invention, illustrating the water flow control valve assembly (123) and the water flow temperature control valve assembly (124) of the present application. The flow control valve assembly (123) includes an electric gear valve assembly (182). The electric gear valve assembly (182) regulates the flow of water (1〇6) based on the signal input (3〇1). The flow temperature control valve assembly (124) includes An electric gear three-way valve device (183) receives a signal (302) output from the logic processor (122) to adjust the ratio of cold/hot water flow flow from the cold water inlet (1〇4) and the hot water inlet (1〇5), respectively. To adjust the water temperature. Figure 12 illustrates another device in this creation that incorporates a water flow control valve assembly (123) and a water flow temperature control 19 M419004 valve assembly (124). The flow and temperature control valve assemblies 〇23 and 124 Contains a solenoid valve (181) and two motorized gear valve assemblies (丨84 and 185). Two motorized gear valve assemblies (184 and 185) receive signals output from the logic processor (122) (3〇1 and 3) 〇 2) separately adjusted The ratio of cold/hot water flow from the cold water inlet (104) and the hot water inlet (1 () 5) is adjusted to adjust the water temperature. In one device of the present creation, the two electric gear valve assemblies (184 and 185) control the water flow. Flow without a separate flow control valve. Figure 13 illustrates a water flow control valve assembly (123) and temperature control assembly (124) in another prior art device. Flow/temperature control components (123 and 124) Containing two electric gear valve devices (186) (187) that are turned on/off and adjusted from the cold water inlet (1〇4) and according to signals (3〇1 and 302) received from the logic processor (122). The ratio of cold/hot water flow in the hot water inlet (1〇5) to adjust the water temperature. Figure Μ illustrates the creation of a touch-free automatic faucet system (100) installed in the & cylinder (452). In this authoring device, the 'faucet faucet (10) 〇 and the separate faucet sensor control box (4 〇 2) are conveniently connected to the bathtub (the device at the far end contains the flow control chamber assembly (123) and the water temperature control valve Component 〇24) ❼ an electronic control box (4〇1) and communicate with a separate faucet sensor control box (10) for wired or wireless connection (4 (6). This faucet (10) may be used in this authoring device) The continuous flow of water opened to the second set of sensors fills the bathtub (452) to the desired water level and the desired temperature. As an example, a box (10) can be installed in a wall or beside or below the bathtub (Μ2) for easy maintenance. The sensor control box (which contains the sensors (112, (1), ιΐ4 and ιΐ5), and the LED indicator 〇 18). In the device of the present creation, the sensor control box (402) does not contain the first, and the intermediate sensor C (in), because a bath 仏 (452) is usually not necessary for the instantaneous flow of water, the machine is out of the field. To create other devices, the application in the bathtub may contain the first-group intermediate sensor C (111) β in the creation of some devices, the default value and the personal preset preset temperature allow the person according to their own (four) temperature slave water temperature (4) The temperature must be adjusted each time the cylinder (452) is used. A device that contains a personalized timer (not shown here) to protect /1 degree. In this creation of this device, based on the experience of using the bathtub (452) M419004 in the past, the individual can use the timer to automatically _ water flow at the scheduled time. This creation of the device allows the user to reach the desired water level without paying attention to the bath red (452). This feature allows the user to do other things when the bathtub (452) is automatically filled with water to the desired temperature. In yet another device, the timer and sensor can be controlled via a handheld remote control or via a network such as the Internet. In this creation of the creation, the user secretly checks (452) in the same __ position or position to fill the bathtub (receipt) to the desired water level and the required temperature. Also in another device, this timer also includes a date and time setting function to set the bath rainbow in advance (the date and time required to fill the picture. Figure 15 ^ Mingben created in the bathtub Μ 2) touch-free automatic Faucet system ((10)) • Faucet faucet (1〇1) with sensor control box (402) without sensors (112, 113, 114 and Μ), and - LED indicator (118). An electronic control box (4〇1) containing a water flow control paste assembly ((2)) and a temperature control valve assembly (124), and is connected to the faucet nozzle (1〇1) by a wired or wireless connection (403) signal The sensors communicate with each other. In this creation the faucet (10) of the device may be operated by a continuous flow pattern of simultaneous actuation of the two sensors of the second set of sensors to fill the bathtub (452) to the desired water level and the desired temperature. In the case of - a control (4 〇〇 can be installed in the wall or beside or below the bathtub (452) for easy maintenance. In a device of this creation, the personalization timer as described above can also be included In this creation device, the sensor control box (4〇2) does not contain the first group of intermediate sensors C (m), because a bathtub (452) usually does not have the need for instantaneous flow of water. It should be noted that In other installations of this creation, the application in the bathtub may contain a first set of intermediate sensors C (111). In some of the devices of this creation, the default settings and the personal preset preset temperature allow the user to set the temperature according to his or her preference. The water temperature is required, and it is not necessary to adjust the temperature every time the bathtub (452) is used. Figure 16 illustrates the shower device (6〇〇) installed in the creation of the touch-free automatic faucet system. In this device, the faucet sensor (112, 113, 114, 115) and optional LED temperature display (455) is very convenient to connect to the shower (6〇1). In one of the devices of this creation, a water flow control valve assembly is included ( 123) and the electronic control box (401) of the temperature control valve assembly (124) 'connected to each other via wired or wireless connection (4〇3) signal connection sensors (112, 113, 21 M419004 114 and 115). One of the creations The electronic control box (401) fixed to the wooden column on the wall (6〇8) is connected to the cold water valve (603) (connection pipe 611) and the hot water valve (604) (connected to the pipe 612). For this device, the water flow (1〇6) passes through the elbow joint (6〇6) and flows into the water pipe (605) through the outlet (607). The switch cover (6〇2) on the wall is similar to the conventional switch cover. This device of the creation can easily replace the traditional shower faucet valve. In one of the device faucets (607) of this creation, the shower device (6〇) may be operated by a continuous flow mode in which two sensors of the second group of sensors are simultaneously actuated. 〇) to the desired water flow temperature. In one example, the electronic control box (401) may be mounted in a wall that is embedded in the same shower for ease of maintenance. The sensor control box (601) is not included in one device of the present creation. First group of intermediate sensors C (111), because a shower device (600) is usually not necessary for the instantaneous flow of water. It should be noted that in other devices of this creation, the application of the shower device may contain the first set of intermediate sensors C (111). A device that may include an optional timer to open the shower device in advance to achieve the desired temperature. In some of the devices of this creation, the preset temperature allows the user to set the personalized water temperature according to personal preference. Instead of having to adjust the temperature each time you use the shower (6 〇〇), in other installations of this creation, a personalized preset timer can be used to limit shower time to save or limit water usage. Figure 17 illustrates the creation of a touch-free automatic faucet system (1〇〇) that can be mounted in a bathtub (452) or other application, including sensors (112, 113, 114, and 115), and a led indicator (118). There is no separate sensor control box (4〇2) for the faucet faucet. In one device of this creation, the faucet panel (454) may contain a temperature display (455). In a device of the present invention, a remote electronic control box (4〇1) containing a flow control valve assembly (123) and a temperature control valve assembly (124) is connected via wired or wireless (4〇3) and The sensor signals placed in the faucet faucet (101) communicate with each other. In this creation, the faucet (101) of this device may be operated by a continuous flow pattern of simultaneous actuation of two sensors of the second set of sensors to fill the bathtub (452) to the desired water level and the desired temperature. In a device of the present creation, a personalization timer as described above may also be included. In some of the devices of this creation, the set value and the preset temperature set by the individual allow the user to set the desired water temperature according to the temperature of the individual's preference, without having to adjust the water temperature of the faucet (1 〇〇) each time it is used. 22 Various embodiments of this creation, containing three or more temperatures for providing a simple benefit for commercial and residential applications to control water flow and sanitation functions, facilitate water conservation and protect individuals
在本創作的-實施例中,傳感器的A 從0.1英寸到36英寸。舉-個例子,傳感D和E有一個感應範圍 至1〇英寸,而傳感器c範圍内將有〇1至益A」B,D和E將在範圍(U 中於製造過程中奴檢測範圍(例如 =。在本創作的-個裝置 :,根據特定使用者的年齡等)。在本創作的=用由由於殘疾的情況 由一個安裝者調整。 個裝置中,檢測範圍可以 在本創作的一實施例中,這一對第二 的傳感範圍從0J英寸到6英寸,這取決於感器A和傳感器B) 例子中,首選距離為1至2.5英寸。在本創作一:和大小。在一個 組傳感器(傳感器D和傳感器E)之間的距個裝置中,一對第三 在-個例子中,首選距離為!至2 5英寸。圍可以從〇.1到6英寸。 傳感器(傳感器A和傳感器B)與 固例子中,一對第二組 和E)之間沒恤觸⑻在__^=(/== D 的調整取決於水龍頭的設計。 傳感器感應範圍 會打開閉連續水流模式(則。舉—侧; 和傳感益Ε的動作將啟動常用内定值預設模式(2⑻並^^ 的條件為喊值職狀'態。 ' α置一水龍頭 一個=本Ϊ1 乍Γ實施例中,傳感器的預設時間段可能會有所不同。舉 在ΓΙΐΓ的邏輯功能作用預設的_圍從ο.1物秒,。 如,商抑,作㈣首選預設時間設定基於特定的應用(例 ,業用*用’豕庭用,特定目標使用者扑在本創作的一個 :量母=作:有内定值預設時間(例如’提高/降低溫度,增加/減少 l 連續水流等)。在本創作的一個裝置中,依照特定的使用方 23 M419004 業用, 一個裝 ^在製造過程中設定每個功能作用的預設時間(例如,商業用,工 $用,提供給殘疾者’雜年齡的特定者等)。在本創作的另 ,預先設定的時間段可由安裝者調整。 止電音T7施例中,免觸摸式自動水龍頭在低電壓下操作,以防 ^擊的意^在本創作的-個裝置中,整個水龍·統制直流低電虔 I伙特或24鱗),所以沒有遭受電擊傷害_慮"在本創作的 可使用電池操作佩器和其他電氣和電子元件4本創作的—個 5置中,有-個低電池電壓的錢如__個聲轉報,_侧光(如LED作 就),同時聲音和光等以提6!使用者在電池失效前替換新電池, 。在0本創作的—實施例中,水龍頭出廠預設的設定溫度範圍約55。至120 。F,是根據市場區域地理位置能舒適使用,使用的類型(例如,商業用, 工業用’家居用,特定使用者等)。在-個例子中,使用者可以依獻的直 好(即最喜歡的)在水龍水流在他們最喜_條件下以蓋住第三組傳 感器的傳感H D和傳感||卜個_段而改變内定值預設的水溫度和水流 流量此被稱為内定值預設模式。在本創作的—健置巾,依照使用者的需 要在製造過程中預設内定值水流溫度範圍(例如,商業用,家庭用,提供 給殘疾者,根據年齡的特定使用者等)。在本創作的另一個 二In the presently-created embodiment, the sensor A is from 0.1 inches to 36 inches. For example, sensors D and E have a sensing range of 1 inch, while sensor c will have a range of 〇1 to A"B, D and E will be in range (U in the manufacturing process slave detection range (eg =. In this creation - a device: according to the age of a particular user, etc.). In this creation = use by a installer due to the situation of the disability. In the device, the detection range can be in this creation In one embodiment, the second pair of sensing ranges from 0 J inches to 6 inches, depending on the sensor A and sensor B). In the example, the preferred distance is 1 to 2.5 inches. In this creation one: and size. In a device between a group of sensors (sensor D and sensor E), a pair of third in the example, the preferred distance is! Up to 25 inches. The circumference can range from 〇.1 to 6 inches. In the case of the sensor (sensor A and sensor B), there is no tactile contact between the pair of second group and E) (8). The adjustment of __^= (/== D depends on the design of the faucet. Open and close the continuous water flow mode (then. lift-side; and the sensory action will start the common default preset mode (2 (8) and ^^ conditions are called the value of the job' state. 'α set a tap a = Ϊ 1 In the embodiment, the preset time period of the sensor may be different. The logic function of the ΓΙΐΓ 预设 预设 预设 ο ο ο ο ο 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 Based on a specific application (for example, the industry uses * used by the court, the specific target user flutters in one of the creations: the measuring mother = made: there is a default value preset time (eg 'increasing/lowering the temperature, increasing/decreasing l Continuous water flow, etc.) In a device of this creation, according to the specific user 23 M419004, a preset time for setting each function in the manufacturing process (for example, for commercial use, for work, for use) For the disabled, the specific person of the age, etc. In addition, the preset time period can be adjusted by the installer. In the case of the electric sound T7, the touch-free automatic faucet operates at a low voltage to prevent the intention of the ^ in the creation of the device, the entire water dragon Control DC low power 虔I gang or 24 scales), so there is no electric shock damage _ consider " in this creation can use the battery operated device and other electrical and electronic components 4 of the creation of a 5-set, there - A low battery voltage money such as __ voice, _ side light (such as LED for), while sound and light to mention 6! Users replace the new battery before the battery fails, in the creation of 0 - implementation In the example, the preset temperature range of the faucet is about 55. to 120 F. It is a type that can be used comfortably according to the geographical location of the market area (for example, commercial, industrial 'home use, specific users, etc.). In an example, the user can rely on the direct (ie favorite) water and water flow in their favorite conditions to cover the third group of sensors for sensing HD and sensing | And change the preset water temperature and water flow preset It is called the default setting mode. In this creation, the health towel is preset in the manufacturing process according to the user's needs. The temperature range (for example, for commercial use, for household use, for disabled people, according to age) Specific users, etc.) Another two in this creation
定值水流溫度範圍可由安裝者調整。 乂 〇X 在本創作的-實施射,水龍_㈣時間段與溫度增加/降低的速度 是與冷鮮供應壓力和溫度有關。舉_侧子,-個方便調節水流溫度和 流量速度的設定,不會使水流以不方便的速度改變水流溫度的增加或減少 (例如’太快,太慢’等等)。在本創作的-個裝置中,調節水流溫度和流 量的速度設定依照使用者的需要在製造過程中預設内定值水流溫度範圍 (例如,商業用,家庭用,提供給殘疾者,根據年齡的特定使用者等)。在 本創作的另一個裝置中,預設内定值水流溫度範圍可由安裝者調整。 在本創作的一實施例中’傳感器A,B ’ C,〇和£是單紅外線傳感器。 在本創作的一個裝置中’紅外線傳感器有不同的波長,發光角度以供各種 不同的應用。在本創作的一個裝置中,傳感角度範圍根據不同使用的應用 24 M419004 類型可調整(例如,—個感應角度範圍約35度至2減或以上)。在本創 .作的另個裝置中’傳感器的A,B,D和E使用電子容量傳感器,如在“觸 摸燈中使用的功能。然而,這種類型的傳感器不是“免觸摸式,,的傳感器。 -舉一個例子,電子容量傳感器只有用在-個不需要“免觸摸式,,的使用上。其 他移動式傳感器也可用在本創作的其他裝置中。 ,士創作的一些實施例中,根據各使用者不同的年齡而設定各方便的 熱水最高溫度Μ物’當水龍頭在使时的高年齡的住家…個學前教育 托兒所等,設定最高水流溫度使那些可能對高水溫敏感的使用者免於傷害 到。j他用途上,如在工業用途或商業用途,必需要使用較高溫度者, φ 即可β又定一個較尚的最高溫度。此最高溫度的設定,因此避免受傷或可使 用於特定地方和目的(即商業用,工業用等)。應當指出,在本創作的一些 裝置中’水溫重置騎用蚊值預設的溫度,避免水龍頭在使用最高溫度 後傷到下一個使用者。 在本創作的一實施例中,一旦進入連續水流模式後可能無限期地流 動。在一個例子_,連續水流模式的功能就像有人打開一個手動水龍頭, 讓它手動的流不停《舉一個例子,這種型式的水龍頭主要目的是針對一般 住宅應用,使用者已具備這自動水龍頭領域眾所周知的基本知識和工作原 理’而不只是商業用途如在機場或餐館的廁所的使用上。 • 在本創作的一實施例中,如果自動水龍頭的電源中斷,在斷電或備用 電池耗盡’流量控制閥Α(電磁閥)將關閉(正常關閉)切斷水流。 在本創作的一些實施例中,因為只有一個水管和一個電子控制線連接 從水龍頭機構到電動閥組’本創作的安裝比傳統的手動水龍頭更容易。 在本創作的一實施例中’左右兩邊傳感器根據需要(例如,一個殘疾 使用者,左手使用者或右手使用者等)是完全可以對調的,或裝置在水龍 頭本體同一側。此外,該傳感器等由於應用或需要可以安裝在水龍頭本體 的不同部位。 關於規格申的“一實施例,,,“一個實施例”,“一些實施例,,,或“其他的 實施例’’是指這個裝置至少包括一個裝置,一些裝置但不一定是所有的裝置 25 M419004 ^關的個特定功此,結構或描述的特徵。所有各種“一個實施例,,,“― =例^〜些實施例,,,或“其他的實施例,,的描述不是表示指相同的 如規格中描述的一個組件,功能,結構或特性“可能,,或“有可能” 匕括在内,_定組件,功能,結構或特性並無必要 規格或聲明中是“_,m,疋匕枯②内如果 並不意味♦只有—個單位**如果規格或聲 月中V‘另-,,個單位,這並不表示只有多—個單位。 雖然本創作的-些典型„已被贿,並_在關但必須了解的, =裝^是跡綱本_有_廣泛性,而不是對有關本創作的說明 般麟的技藝可能會產生對本創作的其他各種修改,這些修 使已漆於藝術化之以上所顯示和描述的特定結構和安排受到限 伍0 【圖式簡單說明】 2是根據本創作職式自動水龍職置魏的―紐實施例的 万塊流程圖; 圖2是根據本創作的免觸摸式自動水龍頭—紐實施例圖式. 齡^ f根據本創作的免觸摸式自動水龍頭的控制邏輯的系統和方法的 一較佳實施例的流程圖; Γ根據本創作的免觸摸式自動水龍頭的控制邏輯的系統和方法的 一較佳實施例的邏輯流程圖; =是«本創作的免觸摸式自動水龍頭之位於水龍頭本體一邊的電 子傳感益較佳實施例圖式; 圖6是根據本創侧免觸摸式自動水龍頭之位於水龍頭本體另一邊的 電子傳感器較佳實施例圖式; 配置^是根據本創作的免觸摸式自動水龍頭的—電子傳感曝實施例 配置^是根據本創作的免_式自動水_的_電子傳絲較佳實施例 圖9是根據本創作的免觸携式自動水龍頭的又-電子傳感器較佳實施 26 M419004 例配置圖式; 圖ίο是根據本創作的免觸摸式自動水龍頭的—水流流量控制間組件較 佳實施例圖式; _是根據本創作的免觸摸式自動水龍頭的另—種水流流量控制間組 件較佳實施例圖式; 細議崎峨嫩输制間組 件較鑛以触式"錢~誠-制間組 實施Γϋ根縣辦I如鄕㈣細料自料《魏之較佳 圖15是根據本創_-翻於浴缸的免麵 實施例圖式; 勒水龍頭系統之較佳 較僅㈣繼纖、侧系統之 實施編丨_—恤糾樣料自知細統之較隹 【主要元件符號說明】 t 100自動水龍頭裝置系統 101水龍頭水嘴 104冷水來源 105熱水來源 106混合水流到水龍頭 107水流 108水槽中區 109水流流量 111第一組中間電子傳感器c 112第二組傳感器組件Α 27 M419004The set water flow temperature range can be adjusted by the installer.乂 〇X In this creation - the implementation of the shot, the water dragon _ (four) time period and the temperature increase / decrease speed is related to the chilled supply pressure and temperature. The setting of the water flow temperature and the flow rate is not convenient for the water flow to change the increase or decrease of the water flow temperature at an inconvenient speed (for example, 'too fast, too slow', etc.). In the device of the present invention, the speed of the water flow temperature and the flow rate are set according to the needs of the user, and the predetermined temperature range of the water flow is preset in the manufacturing process (for example, for commercial use, for household use, for the disabled, according to age) Specific users, etc.). In another device of the present creation, the preset default water flow temperature range can be adjusted by the installer. In an embodiment of the present invention, 'sensors A, B' C, 〇 and £ are single infrared sensors. In one device of the present invention, 'infrared sensors have different wavelengths, and the angle of illumination is available for a variety of different applications. In one of the devices of this creation, the range of sensing angles can be adjusted according to the type of application 24 M419004 (for example, a sensing angle range of about 35 degrees to 2 minus or more). In another device of this creation, 'sensors A, B, D and E use electronic capacity sensors, such as those used in touch lights. However, this type of sensor is not "touch-free," sensor. - As an example, electronic capacity sensors are only used in a "no touch-free," use. Other mobile sensors can also be used in other devices of this creation. In some embodiments of the creation, according to each Users of different ages set the convenience of the highest temperature of hot water. 'When the faucet is in the high age of the home... a preschool education nursery, etc., set the maximum water temperature to make those who may be sensitive to high water temperature free. For damages. For his purposes, such as industrial or commercial use, you must use a higher temperature, φ can be a higher temperature of β. This maximum temperature setting, so avoid injury or can be used For specific places and purposes (ie commercial, industrial, etc.) It should be noted that in some of the devices of this creation, the water temperature resets the preset temperature of the riding mosquito value, preventing the faucet from injuring the next one after using the highest temperature. User. In an embodiment of the present creation, once in continuous flow mode, it may flow indefinitely. In an example _, the function of continuous flow mode Just like someone opens a manual faucet and lets it flow manually. To give an example, the main purpose of this type of faucet is for general residential applications, where users already have the basic knowledge and working principles well known in the field of automatic faucets. Not only for commercial use such as the use of toilets at airports or restaurants. • In one embodiment of the present creation, if the power to the automatic faucet is interrupted, the power control valve (solenoid valve) will be depleted in the power outage or the backup battery. Shutdown (normal shutdown) shuts off the flow of water. In some embodiments of the present creation, the installation of this creation is easier than the traditional manual faucet because only one water pipe and one electronic control line are connected from the faucet mechanism to the electric valve block. In one embodiment of the creation, the left and right sensors are completely tunable as needed (for example, a disabled user, a left hand user or a right hand user, etc.), or the device is on the same side of the faucet body. In addition, the sensor or the like is applied. Or need to be installed in different parts of the faucet body. "An embodiment," "an embodiment," "some embodiments," or "another embodiment" means that the device includes at least one device, some devices, but not necessarily all devices 25 M419004^ A specific feature, structure, or description of a feature. The description of all the various "one embodiment,", "-", "an embodiment", or "another embodiment" is not meant to mean the same component, function, structure or characteristic as described in the specification. Possible, or "possible" inclusion, _determined components, functions, structures or characteristics are not required in the specification or statement is "_, m, 疋匕2, if not meant ♦ only - units * *If the specification or the sound month is V' another-, unit, this does not mean that there are only more than one unit. Although the typical--some of this creation has been bribed, and _ is in the off but must understand, = install ^ It is a syllabus that has a wide range of features, rather than a description of the creation of the syllabus, which may result in other modifications to the creation that have been painted and artistically displayed and described in the specific structure and The arrangement is limited to 0 [Simplified description of the drawing] 2 is a 10,000-piece flow chart of the embodiment of the automatic water dragon's "New Zealand" according to the creative position; Figure 2 is an example of the touch-free automatic faucet-news according to the present creation. Schema. Age ^ f according to this creation A flow chart of a preferred embodiment of a system and method for control logic of a touch-type automatic faucet; Logic flow diagram of a preferred embodiment of a system and method for control logic of a touch-free automatic faucet according to the present invention; It is a preferred embodiment of the electronic sensor of the created touch-free automatic faucet on the side of the faucet body; FIG. 6 is an electronic sensor based on the creative touch-free automatic faucet on the other side of the faucet body. Embodiment FIG. 1 is a configuration of a touch-free automatic faucet according to the present invention - an electronic sensing exposure embodiment is a preferred embodiment of the _-electron-transmission according to the present invention. FIG. 9 is a According to the creation of the touch-free automatic faucet of the present invention, the electronic sensor is preferably implemented in a configuration mode of 26 M419004; FIG. 1 is a schematic diagram of a preferred embodiment of the water-flow control device of the touch-free automatic faucet according to the present invention. _ is a diagram of a preferred embodiment of another water flow control room assembly according to the creation of the touch-free automatic faucet according to the present invention; The piece is more than the mine touch type "Qian ~ Cheng - system group implementation of the Yangen County Office I Rugao (four) fine material self-material "Wei's better Figure 15 is based on the creation of the _- turn over the bathtub free face example Le faucet system is better than only (4) implementation of the fiber and side system _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Source 105 hot water source 106 mixed water flow to faucet 107 water flow 108 sink medium area 109 water flow flow 111 first group of intermediate electronic sensors c 112 second group of sensor components Α 27 M419004
113第二組傳感器組件B113 second group of sensor components B
114第三組傳感器組件D114 third group of sensor components D
115第三組傳感器組件E 118LED指示燈 119水溫度傳感器 121電源供應組件 122邏輯處理器電路板115 third group sensor component E 118 LED indicator 119 water temperature sensor 121 power supply component 122 logical processor circuit board
123水流流量控制閥組件A123 water flow control valve assembly A
124溫度控制閥組件B 127水龍頭傳感器控制盒 141、142、143、144、145 傳感信號 146溫度信號 148電力 181電磁閥 182電動齒輪閥門裝置 183電動齒輪三向閥門裝置 184電動齒輪閥組件 185電動齒輪閥組件 186電動齒輪閥裝置 187電動齒輪閥裝置 301邏輯信號 302邏輯信號 401電子控制盒 402水龍頭傳感器控制盒 403有線或無線 452浴缸 455溫度顯示器 600淋浴設備 28124 temperature control valve assembly B 127 faucet sensor control box 141, 142, 143, 144, 145 sensing signal 146 temperature signal 148 power 181 solenoid valve 182 electric gear valve device 183 electric gear three-way valve device 184 electric gear valve assembly 185 electric Gear valve assembly 186 electric gear valve device 187 electric gear valve device 301 logic signal 302 logic signal 401 electronic control box 402 faucet sensor control box 403 wired or wireless 452 bathtub 455 temperature display 600 shower device 28
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TW100208947U TWM419004U (en) | 2011-05-19 | 2011-05-19 | Touch free automatic faucet |
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TW100208947U TWM419004U (en) | 2011-05-19 | 2011-05-19 | Touch free automatic faucet |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI553253B (en) * | 2015-03-20 | 2016-10-11 | Tian-He Zhong | Capacitive induction type water supply device and method |
TWI555939B (en) * | 2014-09-12 | 2016-11-01 | Chung Tien Ho | Inductive water supply device and method |
TWI667426B (en) * | 2017-08-29 | 2019-08-01 | 王俊彬 | Faucet |
US10947710B2 (en) | 2017-08-29 | 2021-03-16 | Chun-Ping WANG | Faucet |
-
2011
- 2011-05-19 TW TW100208947U patent/TWM419004U/en not_active IP Right Cessation
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI555939B (en) * | 2014-09-12 | 2016-11-01 | Chung Tien Ho | Inductive water supply device and method |
TWI553253B (en) * | 2015-03-20 | 2016-10-11 | Tian-He Zhong | Capacitive induction type water supply device and method |
TWI667426B (en) * | 2017-08-29 | 2019-08-01 | 王俊彬 | Faucet |
US10947710B2 (en) | 2017-08-29 | 2021-03-16 | Chun-Ping WANG | Faucet |
US11499301B2 (en) | 2017-08-29 | 2022-11-15 | Chun-Ping WANG | Faucet |
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Legal Events
Date | Code | Title | Description |
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MM4K | Annulment or lapse of a utility model due to non-payment of fees |