M275328 八、新型說明: 【新型所屬之技術領域】 本創作係關於一種飲水用空氣壓力出水裝置之新 型,尤指一種直接套設於供水桶上方,再利用空氣壓力壓 迫飲用水自動出水進入盛水水壺内,方便使用者取用之空 氣壓力出水裝置,俾具有高度使用便利性之優點及功效 者。 【先前技術】 • 按,習知飲水機依其進水方式之不同而概可分為以下 數種: 1 ·壁掛式飲水機:主要係由自來水管直接進水過濾及 高溫殺菌後供水,該種飲水機雖具有自動進水之優點而無 使用者需隨時注意加水補充之缺點,然,一旦遇到不可抗 拒之停水狀況時,飲水機便無法供水且形同虛設。 2. 桌上型飲水機:該種飲水機係在機台頂部設一透明 鲁儲水槽,其補充進水方式主要係靠人工提裝,即當儲水槽 内之水位下降而即將用磐時,使用者便需提水補充,由於 非自水管直接進水,故在停水時仍可添加事先儲存之備用 水,然,由騎次加水均需靠人力進行且須抬高傾倒,因 此使用上仍有其不甚便利之處。 3. 桶裝水飲水機:如第一圖所示,該種飲水機丨〇上設 有凹陷狀承接座1〇1供供水桶2〇倒裝插設。其補充進水 方式概如第一圖所示,使用者需將沉重的供水桶2〇抬高並 倒立插掣於該承接座101内,才能使桶内的水注入飲水機 5 M275328 10中,待桶内的水用完以後,使用者便需更換另一桶飲用 水’由於桶裝水係、向製水公司訂講,因此即使自來水停水 亦無無水飲用之窘況,但卻另有供水桶2〇過於沉重,難以 搬抬、翻轉之問題。 、、呈查,上述二種飲水機雖可提供不同供水方式,但實 際上卻分別存在有飲水機採固定式設置,無法隨使用者移 動,以及供水桶過重,難以搬抬及翻轉…等種種使用上的 =便,顯見實有需加以改良之必要;有鑑於此,本創作人 _,潛心研究設計’期以—較佳設計解決上述飲水機之問 題,並在經過不斷研發及修正而終有本創作之問世。 【新型内容】 緣疋本創作之目的係為了提供一種飲水用空氣壓力 出水裝置之新型創作’主要係利用氣壓壓迫供水桶自動出 水進入盛水水壺内,進而具有無須搬抬、翻轉沉重供水桶 且方便取水使用等優點及功效者。 • 為達致以上目的,本創作人特別設計一種飲水用空氣 壓力出水裝置,主要包含一組用以套設於供水桶上方之出 水裝置及一裝設於出水裝置上之水壺,其中,該出水 具一内空狀罩殼本體,罩殼本體内部成型一開口朝下而可 f設於供水桶之瓶π外側之套管,軍殼本體頂端向下凹二 一承接座,承接座底板周圍係凸設有放射狀排列之= =承接座底…係設有一透孔,使該透孔連通承接: 八下方之套官,該透孔中插設—出水本體,出水本 上凸伸一對進氣接頭與供水接頭,該進氣接頭向下延伸i 6 M275328 連HJc桶内之進氣嘴,而供水接頭底端則連結一伸入 ί、水桶桶底之出水管,又,罩殼本體之内空部分係預設有 -電路板、一打氣幫泵及一茂氣電磁閥,打氣幫泵與茂氣 電磁閥之間係以氣管及一 τ型接頭相連結,τ型接頭另端 則以氣管與出水本體之進氣接頭相連結,該罩殼本體另一 體凹^形成-内凹區間俾設置電源開關用以連控電路 板"亥水亞頂端設有丁頁蓋,水壺底端則可插擎於罩殼本體 之承接座内並架設於支撐肋上,水壺底板中央向下凸伸— I供出水本體之供水接頭插設之插接管,插接管頂端一體成 型-道朝水壺内部頂端延伸且頂端呈開放狀之供水管,且 該水壺外側接近底板適當高度處係設有一出水口;藉以上 設置,當電路板之電源接通後,即可啟動打氣幫果^始打 氣’此時茂氣電磁閥係呈密閉狀,令氣體循氣管、τ型接 頭及出水本體之進氣接頭進入供水桶中形成高壓氣體, 而令向壓氣體壓迫桶内的水經出水管、供水接頭及供水其 货自動注人水壺内,則使用者可直接由出水口取水飲用,= 具有無需抬高供水桶即可控制自動出水至水壺内, 取用等優點及功效者。 便 【實施方式】 關於本創作人藉以達致上述目的而採用之技術 ’兹舉-種較佳實施例配合圖式於下文進行詳細說明,又 供鈞上深入了解並認同本創作。 1平 首先請參閱第二至四圖所示,本創作主要包含—*M275328 8. Description of the new type: [Technical field to which the new type belongs] This creation is a new type of air pressure water outlet device for drinking water, especially a type directly installed above the water supply bucket, and then using air pressure to press the drinking water to automatically discharge water into the water Inside the kettle, the air pressure water outlet device which is convenient for users to use, has the advantages of high convenience and effectiveness. [Previous technology] • According to the different types of water dispensers, the conventional water dispensers can be divided into the following types: 1 · Wall-mounted water dispensers: Mainly the water is directly filtered from the water pipe and the water is supplied after high temperature sterilization. Although this type of water dispenser has the advantages of automatic water feeding without the user needing to pay attention to the disadvantages of replenishment at any time, however, once it encounters an irresistible water stop condition, the water dispenser cannot supply water and is useless. 2. Table type water dispenser: This type of water dispenser is equipped with a transparent Lu water storage tank on the top of the machine. The supplementary water intake method is mainly based on manual lifting, that is, when the water level in the water storage tank drops and is about to be used, The user needs to add water for replenishment. Because the water is not directly fed from the water pipe, the reserve water can be added in advance when the water is stopped. However, the water replenishment by riding must be performed manually and must be raised and dumped. There are still some inconveniences. 3. Bottled water dispenser: As shown in the first figure, this type of water dispenser is provided with a recessed receiving seat 101 for water supply buckets 20 and inverted installation. The method of replenishing water is shown in the first picture. The user needs to lift the heavy water supply bucket 20 and insert it upside down in the socket 101 to fill the water in the bucket into the water dispenser 5 M275328 10. After the water in the bucket is used up, the user needs to replace another bucket of drinking water. Because the barrel water system is ordered by the water company, there is no embarrassment of drinking water even if the tap water is stopped, but there is another supply. The bucket 20 is too heavy to be lifted and turned over. According to the investigation, although the above two types of water dispensers can provide different water supply methods, in fact, there are fixed installations of water dispensers that cannot be moved with users, and the water supply bucket is too heavy to be lifted and flipped ... In terms of use, it is obvious that it is necessary to improve it. In view of this, the creator_, devoted to research and design 'period' in order to-better design to solve the above water dispenser problems, and after continuous research and development and correction, The creation of this creation. [New content] The purpose of this creation is to provide a new creation of an air pressure water outlet device for drinking water. It is mainly used to pressurize the water supply bucket to automatically discharge water into the water kettle, so that it does not need to lift and flip the heavy water supply bucket. Convenient for taking water and other advantages and effects. • In order to achieve the above purpose, the creator specially designed an air pressure water outlet device for drinking water, which mainly includes a set of water outlet device set above the water supply bucket and a kettle installed on the water outlet device. Among them, the water outlet An inner shell body is formed. The inner part of the shell body is formed with a sleeve which is opened downward and can be arranged on the outside of the bottle π of the water supply barrel. Radially arranged = = the base of the socket ... is provided with a through hole to make the through hole communicate with and accept: The lower part of the sleeve is inserted in the through hole—the water outlet body, and a pair of air inlets protrudes from the water outlet. Connector and water supply connector, the air inlet connector extends downward i 6 M275328 to the air inlet nozzle in the HJc bucket, and the bottom end of the water supply connector is connected to a water pipe extending into the bottom of the bucket, and inside the casing body The empty part is preset with a circuit board, an air pump and a molybdenum solenoid valve. The air pump and the moor solenoid valve are connected by a gas pipe and a τ-type joint, and the other end of the τ-type joint is connected by an air pipe and The inlet connector of the water outlet body is connected The other body of the cover body is formed in a recessed-inwardly recessed section. A power switch is provided to connect the control circuit board. The top end of the water bottle is provided with a Dingle cover, and the bottom of the kettle can be inserted into the receiving seat of the cover body. It is erected on the supporting rib, the center of the bottom plate of the kettle projects downwards-I is a plug pipe inserted in the water supply connector of the water supply body, and the top of the plug pipe is integrally formed-the pipe extends toward the inner top of the kettle and the top is open, and A water outlet is provided at an appropriate height near the bottom of the kettle on the outside of the kettle. With the above settings, when the circuit board is powered on, you can start pumping to help you start pumping. 'At this time, the Maoqi solenoid valve system is closed to make the gas The air pipe, τ-type connector and the air inlet connector of the water outlet body enter the water supply bucket to form high pressure gas, and the water in the pressure barrel is forced into the kettle through the water outlet pipe, water supply connector and the water supply. Can be taken directly from the water outlet for drinking, = those who have the advantages and effects of controlling automatic water discharge into the kettle without raising the water supply bucket. [Embodiment] About the technology used by the creator to achieve the above purpose, ′ -a preferred embodiment is described in detail below in conjunction with the drawings, for further understanding and approval of this creation. 1ping Please refer to the second to fourth pictures first. This creation mainly includes— *
以套設於供水桶20上方之出水裝置丄、—裝設二:= 7 M275328 1上之水壺2及一卡掣於供水桶20桶底且可自由活動之 底座3 ;其中: 出水裝置1,如第二、四圖所示,具—内空狀罩殼本 體11,罩殼本體11内部成型一開口朝下而可套設於供水桶 20之瓶口外側之套管lu,罩殼本體u頂端則向下凹設一 承接座1 2承接座1 2底板周圍係凸設有呈放射狀排列之支 撐肋121,底板接近外側適當位置處係設有一組微動開關 122,微動開關122頂面凸設三組微動接頭1221,另於承接 籲座12底板巾央係設有—透孔123,使該透孔123連通承接座 12及其下方之套管lu,該透孔123中插設一出水本體Μ, 出水本體13向上凸伸一對進氣接頭131與供水接頭132,該 進氣接頭131向下延伸一連通供水桶2〇内部之進氣嘴133 ,該供水接頭132外部係套設有防水墊圈134,且底端係連 結一伸入供水桶20桶底之出水管135 (如第二、三圖所示 )又,罩豉11本體之内空部分係預設有一電路板14、一 φ打氣幫泵15及一洩氣電磁閥16,該洩氣電磁閥16之閥門啟 閉係呈如第五圖所示「當洩氣電磁閥丨6通電時,其閥門係 呈封閉無法排氣狀態」以及如第九圖所示「當洩氣電磁閥 16斷電時,其閥門係呈開啟可以排氣狀態」,又,該打氣 幫泵15與洩氣電磁閥16之間係以氣管17及一 τ型接頭“相 連、口 Τ型接頭18另端則以氣管17與出水本體13之進氣接 頭131相連結,該罩殼本體u另一體凹設形成一内凹區間 19俾設置用以連控電路板14之電源開關191及狀態指示燈 192 (分別為電源指示燈、滿水位指示燈及低水位指示燈 8 M275328A water outlet device 套, which is set above the water supply bucket 20, is installed: = 7 M275328 1, the kettle 2 and a base 3 which is locked at the bottom of the water supply bucket 20 and can move freely; of which: the water outlet device 1, As shown in the second and fourth figures, there is an inner hollow cover body 11 with a sleeve lu inside the cover body 11 which is formed with an opening facing downward and can be set on the outside of the bottle mouth of the water supply barrel 20, and the cover body u A receiving seat 12 is recessed downward at the top. The supporting ribs 121 are radially arranged around the bottom plate. A set of micro-switches 122 is arranged near the outside of the bottom plate. The top surface of the micro-switch 122 is convex. Three sets of micro-motion joints 1221 are provided, and a through hole 123 is provided at the center of the bottom plate of the receiving seat 12 to allow the through hole 123 to communicate with the receiving seat 12 and the sleeve lu below it. A water outlet is inserted in the through hole 123 In the body M, the water outlet body 13 protrudes upward from a pair of air inlet joints 131 and water supply joints 132. The air inlet joints 131 extend downwards to an air inlet 133 communicating with the water supply bucket 20 inside. Washer 134, and the bottom end is connected to a water outlet pipe 135 (such as (Figures 2 and 3) Also, the inner part of the body of the cover 11 is preset with a circuit board 14, a φ air pump 15 and a venting solenoid valve 16. The valve opening and closing system of the venting solenoid valve 16 is As shown in the fifth figure, "When the venting solenoid valve 6 is energized, its valve is closed and unable to exhaust." As shown in the ninth figure, "When the venting solenoid valve 16 is powered off, its valve is opened to discharge. The air pump 17 and the venting solenoid valve 16 are connected by an air pipe 17 and a τ-type joint. The other end of the port T-type joint 18 is the air pipe 17 and the air inlet 13 of the water outlet body 13 Connected, the other body of the housing is recessed to form a recessed section 19, and a power switch 191 and a status indicator 192 (the power indicator, the full-water indicator and the low-water indicator, respectively) for controlling the circuit board 14 are arranged. LED 8 M275328
水壺2,如第二、四圖所示,其頂端蓋設有可旋緊之 頂蓋21,水壺21底端則可插掣於罩殼本體ljL之承接座12 内並架設於支撐肋121上,水壺2底板中央向下凸伸一供 出水本體13之供水接頭132插設之插接管22,插接管22頂 端一體成型一道朝水壺2内部頂端延伸且頂端呈開放狀 之供水管2 3 ’且該水壺2外側接近底板適當高度處係設有 一出水口24,另外,水壺2底板對應承接座13之微動開關 # 122處係設有三組朝水壺内部延伸之短感測棒25、中感測 棒26及長感測棒27,三組感應棒25、26、27之底端適可分 別接觸微動開關122頂面之微動接頭1221,俾形成接觸導 電狀態,且短、中感測棒25、26之高度適略與水壺2之出 水口 24相當’而長感測棒27之高度則僅略低於水壺2内部 供水管23之高度(如第四圖所示); 底座3,如第二、三圖所示,底座3座體適可供供水 鲁桶20桶底放置,座體周圍向上一體成型若干略具外張彈性 而可卡掣夾緊供水桶20外圍桶緣之固定爪31,底座3下方 並設有若干可自由滾動之滾輪32。 關於本創作之使用狀態則請參閱第三至九圖所示,首 先將裝有飲用水之供水桶2〇放置於底座3上,使底座3之 固疋爪31夾固且束緊供水桶2〇 (如第三圖所示),令供水 桶20可利用底座3之滾輪32自由位移;接下來將出水裝置 1之罩殼本體11套設卡固於供水桶2〇之瓶口,使出水裝置 1連同上方之水壺2 —併裝設於供水桶2〇上方,令出水裝 9 M275328 置1之出水本體13插設於供水桶20瓶口並使其下方之出 水管135伸入供水桶20桶底(同如第三圖所示),然後即可 接通出水裝置1之電源並按下電源開關191俾點亮電源指 示燈192,嗣當水壺2内部呈無水狀態時(如第四圖所示 )’出水裝置1内部電路板14之控制電路將啟動打氣幫泵 15及、為氣電磁閥16 ’令打氣幫泵15開始打氣,此時茂氣電 磁閥16會因為通電而呈密閉狀(如第五圖所示),因此打 氣幫泵15所打氣壓縮之氣體將循罩殼本體丨丨内部之氣管 • 17、T型接頭18、及出水本體13之進氣接頭131與進氣嘴ί33 持續被送入供水桶20中,並在供水桶2〇中形成高壓氣體, 當桶内氣體被壓縮至一適當壓力值後,該股高壓氣體將壓 迫供水桶20内的飲用水經由出水本體13之出水管135、供 水接頭132及水壺2内部之供水管23頂端自動注入水壺2 中(如第六圖所示);當水壺2持續進水至水壺2内部液 面同時淹沒短、中感測棒25、26時(同如第六圖所示), φ罩殼本體11上之低水位指示燈192將會發光,俾通知使用 ^水壺2内部之飲用水液面已上升至可以取用之高度,此 π使用者即可操作自水亞2之出水口 2 4取水使用,惟,此 時=氣幫泵15仍將持續打氣進水(如第七圖所示);直到 水亞2内部之飲用水液面上升至淹沒長感測棒27以後(如 第八圖所示)’則罩殼本體丨丨之低水位指示燈192將熄滅並 切換點亮滿水位指示燈192,此時電路板14之控制電路將 切斷打軋幫泵15及洩氣電磁閥16之電源,使打氣幫泵Η 知止打氣,此時茂氣電磁閥16之間門將呈開啟狀(請參閱 M275328 第九圖所示),進而可使先前預存於供水桶2〇内之高壓氣 體循出水本體13之進氣嘴133、進氣接頭131、氣管17進入 洩氣電磁閥16内,並由開啟的閥門洩氣排出,避免供水桶 2 0内殘留之南壓氣體持續壓迫供水桶2 〇内部飲用水不斷 庄入水亞2内,形成過量狀態然後再自水壺2之供水管 回流進入供水桶20,·再者,當水壺2内部的飲用水被取用 至液面下降恢復如第六圖所示之低水位時,則罩殼本體Η 之控制電路則將再度切換點亮低水位指示燈192並啟動打 ►氣幫㈣及錢電磁閥16之電源,恢復打氣進水狀態。 1、上說月可知,本創作主要在解決習知須搬抬及翻 轉沉重供水桶20之不便及缺失,進而具有無需抬高供水桶 20即可控制自動出水至水壺2之優點及功效,而且當供水 桶20内之飲用水被取用完畢以後,使用者只需將本創作之 出水裝置1連同水壺2一起拔離空水桶並換裝至另一滿 ^ i、水桶20上’即可馬上再對水壺2供水,由此可見本創 , 計同時兼具有便於更換供水桶20之特色;此外,本 可以隨時位移之功效’誠如前文所述,由於本 二、’、水桶20係放置在一可隨時位移之底座3上(如第 :圖所不)’因此當使用者更換座位時㈠列如··更換 點)’只需推動底座3即可帶動供水_、出水裝 使用便=之:者壺2:步位移’可見本創作極具機咖 合於出水穿 ,由於本創作之水壺2係採插擎方式結 壺此可_本創作之水 月多閱苐十圖所示),藉之,俾可 11 M275328 旱取分離後之水壺2進行、.主 離式設計」亦為本創作之特二:—'帶藉外之出使用,可見「分 綜上所述’本創作之「飲水用空 揭路之技術手段確能有效解決力^裝置」所 桶以及飲水機無法機動位移等問題,經二1供= 亦未曾公開使用,㈣具有增進功效之申事月;,未見諸於㈣ 穎性」與「實用性」而為專 :兼具新 裎屮由姓h 寻⑽所稱之新型無誤,爰依法 [二:·上惠予詳審並賜准專利,至感德馨。 【圖式間單說明】 第-圖係習知搬抬供水桶至飲水機上方之使用狀態示意 圖0 第二圖係本創作之立體分解示意圖。 第三圖係本創作之組合狀態剖視示意圖。 第四圖係本創作出水裝置與水壺之組合剖視示意圖。 第五圖係本創作洩氣電磁閥通電時之進氣示意圖。 第六圖係本創作之低水位狀態示意圖。 第七圖係本創作持續供水之水位上升示意圖。 第八圖係本創作之高水位狀態示意圖。 第九圖係本創作洩氣電磁閥斷電時之排氣示意圖。 第十圖係本創作之水壺脫離出水裝置之使用狀態示意圖。 【主要元件符號說明】 12 M275328 【習知部分】 ίο—飲水機 【本創作部分】 1 ---出水裝置 12---承接座 1221---微動接頭 13卜--進氣接頭 134——防水墊圈 • 15---打氣幫泵 18---T型接頭 192---指示燈 2 2---插接管 25---短感測棒 3 —底座 101---承接座 11——罩殼本體 121- —支撐肋 123---透孔 132---供水接頭 135---出水管 16——洩氣電磁閥 19---内凹區間 2 —水壺 23---供水管 26---中感測棒 31---固定爪 20---供水桶 111 — --套管 122 — --微動開關 13--- -出水本體 133 — 一進氣嘴 14--- -電路板 17--- •氣管 191- --電源開關 2卜-- 頂蓋 24--- 出水口 27 —— •長感測棒 32--- 滾輪 13As shown in Figures 2 and 4, the top of the water bottle 2 is provided with a screwable top cover 21, and the bottom of the water bottle 21 can be inserted into the receiving seat 12 of the housing body ljL and set on the support rib 121. The bottom of the water bottle 2 protrudes downward from the center of the bottom plate of a water supply connector 13 for the water supply connector 132 of the plug-in pipe 22, the top of the plug-in pipe 22 is integrally formed into a water pipe 2 3 'extending toward the inner top of the water bottle 2 and the top is open. A water outlet 24 is provided at an appropriate height on the outer side of the kettle 2 near the bottom plate. In addition, the micro switch of the bottom plate of the kettle 2 corresponding to the socket 13 is provided with three sets of short sensor rods 25 and middle sensor rods 26 extending toward the inside of the kettle. And the long sensing rod 27, the bottom ends of the three sets of sensing rods 25, 26, 27 can be respectively contacted with the micro-movement connector 1221 on the top surface of the micro-switch 122, and the contact conductive state is formed, and the short and medium sensing rods 25, 26 are The height is slightly equivalent to the water outlet 24 of the kettle 2 and the height of the long sensor rod 27 is only slightly lower than the height of the water supply pipe 23 inside the kettle 2 (as shown in the fourth figure); the base 3, such as the second and the third As shown in the figure, the 3 bases of the base are suitable for the bottom of the 20 barrels of water supply buckets. A plurality of integrally formed upwardly around the fixed jaw having a slightly resilient outer sheets and the supply tank can grip 20 engaging the peripheral edge of the tub 31, below the base 3 and has a plurality of rollable rollers 32 freely. Regarding the use status of this creation, please refer to the third to ninth pictures. First, place the water supply bucket 20 containing drinking water on the base 3, so that the fixing claws 31 of the base 3 are clamped and the water supply bucket 2 is tightened. 〇 (as shown in the third figure), so that the water supply bucket 20 can be freely displaced by the roller 32 of the base 3; next, the cover body 11 of the water outlet device 1 is sleeved and fixed to the bottle mouth of the water supply bucket 20, so that the water is discharged. Device 1 together with the kettle 2 above—and installed above the water supply bucket 20 to make the water outlet 9 M275328 The water outlet body 13 set to 1 is inserted into the 20 bottle mouth of the water supply bucket and the outlet pipe 135 below it extends into the water supply bucket 20 At the bottom of the bucket (as shown in the third picture), then you can turn on the power of the water outlet device 1 and press the power switch 191 to light the power indicator 192. When the water inside the kettle 2 is dry (as shown in the fourth picture) (Shown) 'The control circuit of the internal circuit board 14 of the water outlet device 1 will start the pumping pump 15 and the gas solenoid valve 16', so that the pumping pump 15 will start pumping. At this time, the gas pump solenoid valve 16 will be closed due to the power. (As shown in the fifth figure), so the gas compressed by the pump 15 will follow Shell body 丨 丨 Inner air pipe • 17, T-shaped joint 18, and air inlet joint 131 and air inlet of the water outlet body 13 are continuously sent into the water supply tank 20, and high-pressure gas is formed in the water supply tank 20, when After the gas in the barrel is compressed to a proper pressure value, the high-pressure gas will pressurize the drinking water in the water supply barrel 20 through the outlet pipe 135 of the outlet body 13, the water supply connector 132, and the top of the water supply pipe 23 inside the kettle 2 to be automatically injected into the kettle 2. Medium (as shown in the sixth figure); when the kettle 2 continues to inject water to the inner liquid level of the kettle 2 and simultaneously flood the short and middle sensing rods 25 and 26 (as shown in the sixth figure), the φ housing body 11 The low water level indicator light 192 will glow, and I will inform you that the drinking water level inside the kettle 2 has risen to a height that can be accessed. This π user can operate the water outlet 2 4 of the water sub 2 to use water. However, at this time = the air-assisted pump 15 will continue to pump air (as shown in the seventh figure); until the level of drinking water in the water 2 rises to the point where the long sensor rod 27 is flooded (as shown in the eighth figure) ) 'The low water level indicator 192 of the casing body 丨 丨 will go out and switch points Full water level indicator 192. At this time, the control circuit of the circuit board 14 will cut off the power of the rolling pump 15 and the venting solenoid valve 16, so that the venting pump will stop gassing. At this time, the door between the venting solenoid valve 16 will show The opening state (see M275328 shown in the ninth figure), so that the high-pressure gas previously stored in the water supply tank 20 can be circulated into the air inlet 13 of the water body 13, the air inlet joint 131, and the air pipe 17 into the air vent solenoid valve 16. It is vented by the opened valve to prevent the remaining south-pressure gas in the water supply bucket 20 from continuously pressing the water supply bucket 2. The internal drinking water continuously enters the water sub 2 to form an excess state and then flows back into the water supply pipe from the water supply pipe of the water bottle 2. Bucket 20, · Furthermore, when the drinking water inside the kettle 2 is taken down to the liquid level and restored to a low water level as shown in the sixth figure, the control circuit of the housing body 切换 will switch to light the low water level indicator again. The light 192 activates the power source of the gas pump and the money solenoid valve 16 to restore the gas pumping state. 1. According to the previous month, this creation mainly addresses the inconveniences and shortcomings of the need to lift and flip the heavy water supply bucket 20, and has the advantages and effects of controlling automatic water discharge to the kettle 2 without raising the water supply bucket 20. After the drinking water in the water supply bucket 20 is taken out, the user only needs to remove the empty water bucket 1 and the kettle 2 from the empty bucket and replace it with another full bucket i. Water is supplied to the kettle 2 again. This shows that the invention has the characteristics of facilitating the replacement of the water supply bucket 20. In addition, the effect of being able to be displaced at any time is' as mentioned above. On a base 3 that can be displaced at any time (as shown in the picture: not shown), so when the user changes the seat, the queue is like the replacement point). You only need to push the base 3 to drive the water supply. Zhi: Zhe Ke 2: Step Displacement 'You can see that this creation is very organic and can be worn in the water, because the kettle 2 of this creation adopts the plug-in method to knot the pot. This can be seen in the ten pictures shown in this article] , By which, you can 11 M275328 dry water after separation 2Proceeding. The main design is also the special feature of this creation:-'With the use of borrowing and going out, it can be seen that the technical method of "opening the road with drinking water to empty the water" can be effectively solved The problem that the barrel and water dispenser cannot be moved by the force ^ device, etc. After 2 1 = = has not been used publicly, it has an application month to enhance the effectiveness; it has not been seen in the "permanent" and "practical" Special: It also has a new type of innocence that is called by the surname h Xunyi, and is based on the law [2: · Shanghui grants a detailed review and grants a patent, which is of great virtue. [Illustration of the drawing sheet] The first picture is the conventional use state of lifting the water supply bucket to the top of the water dispenser. Figure 0 The second picture is a three-dimensional exploded view of the original creation. The third picture is a sectional view of the combined state of this creation. The fourth figure is a schematic sectional view of the combination of the water device and the kettle. The fifth picture is a schematic diagram of the air intake when the venting solenoid valve is energized. The sixth figure is a schematic diagram of the low water level of this creation. The seventh picture is a schematic diagram of the rising water level of the continuous water supply in this creation. The eighth picture is a schematic diagram of the high water level of this creation. The ninth picture is a schematic diagram of the exhaust when the venting solenoid valve is powered off. The tenth picture is a schematic diagram of the use state of the kettle separated from the water outlet device. [Description of symbols of main components] 12 M275328 [Learning part] ίο—Water dispenser [This creative part] 1 --- Water outlet device 12 --- Receiving seat 1221 --- Micro joint 13 --- Air inlet 134—— Waterproof washer15 --- Air pump 18 --- T connector 192 --- Indicator 2 2 --- Plug tube 25 --- Short sensor rod 3--Base 101 ---- Receiving base 11-- Housing body 121 --- Supporting rib 123 --- Through-hole 132 --- Water supply connector 135 --- Outlet pipe 16-Discharge solenoid valve 19-Recessed section 2-Kettle 23 --- Water supply pipe 26- --Middle sensor rod 31 ---- Fixed claw 20 ---- Water supply barrel 111---Sleeve 122---Micro switch 13----Water outlet body 133-An air inlet 14---Circuit board 17 --- • Air pipe 191--Power switch 2-Top cover 24 --- Water outlet 27 ---- • Long sensor rod 32 --- Roller 13