201219628 六、發明說明: 【發明所屬之技術領域】 本發明係關於進水器(bal1 tap)及馬桶沖淨水箱裝置。 【先前技術】 專利文獻1係揭示習知馬桶沖淨水箱裝置。該馬桶沖淨水 箱裝置具備有進水器,其藉由浮筒的昇降而將供水閥予以開 閉,自動實施對沖淨水箱的供水與供水停止。 該馬桶沖淨水箱裝置如圖26所示,沖淨水箱200係構成 外水箱202與内水箱204的雙層水箱構造。外水箱202於上 部設有兼用為其蓋用的洗手盆206。該洗手盆206係以自洗 手盆206立起的形態而設置洗手出水管(洗手出水部)2〇8。 洗手盆206在底部設有排水口 210。自洗手出水管208出水 的洗手水自排水口 210落下至沖淨水箱2〇〇内部。 馬桶沖淨水箱裝置具有於沖淨水箱200的側壁部設置可 旋轉的沖淨把手212。自沖淨把手212呈L字狀之桿臂214 朝向沖淨水箱200的内邊伸出。桿臂214的前端部、與在沖 淨水箱底部設置的排水閥216藉由鏈條218進行連結。排水 閥216利用沖淨把手212的旋轉操作,介由鏈條218被往上 * 拉而開閥。該馬桶沖淨水箱裝置利用排水閥216開閥,而開 放沖淨水箱200底部的排出口,其使沖淨水箱2〇〇内的沖淨 水自排出口朝向馬桶強勢地進行放出。 於沖淨水箱2 00内所配設的進水器2 2 〇具有内建供水閥的 100135244 3 201219628 進水器主組222。進水ii 22Q具有:連動至沖淨水箱獅内 的水位而進行昇降之浮M 224、與連接浮筒2 2 4及供水闕之 連接臂226。進水器22〇藉由浮筒以的下降而開啟供水 閥而自出水口 228向沖淨水箱2〇〇内供水。又,進水器 22〇藉由浮筒224的上升而使供水_閉,並停止供水。 進水益220在供水閥下游處,朝±設置使洗手水朝向洗手 出水官208、流出之洗手水出口部23〇。進水器22〇於出口部 2 3 0連接由為使洗手水導引至洗手丨水管施之伸縮管所成 的導水s 232之-端側。若進水器22〇開啟供水閥,則自下 游拍水|目内出水口 228朝向沖淨水箱雇内進行供水,同 寺對洗手出水$ 2〇8供應洗手水,再自該處朝向洗手盆2〇6 流出洗手水。 浮筒224藉由使其進行旋轉操作,而上下調整相對於螺桿 軸4 236的螺合位置。即,浮筒224可進行上下高度的位置 為1而且’利用浮筒224的上下位置,其可調整沖淨水箱 200内滿水時的沖淨水水量。 換&之’若使浮筒224的位置向下側移動時,則對沖淨水 相2〇〇内進行供水時進水$ 22〇的供水闊早點關閉,則對沖 淨水相200内的供水量即變少。即,可將沖淨水箱2⑻内的 沖淨水的滿水時之水位調整為較低。 相反地’右使洋筒224的位置向上側移動,則當對沖淨水 相200内進仃供水時如進水器22〇的供水閥慢點關閉,則使201219628 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a water inlet (bal1 tap) and a toilet flushing water tank device. [Prior Art] Patent Document 1 discloses a conventional toilet flushing water tank device. The toilet flushing water tank device is provided with a water inlet device that opens and closes the water supply valve by raising and lowering the floating cylinder, and automatically performs water supply and water supply stop of the flushing water tank. As shown in Fig. 26, the flushing water tank device is a double water tank structure constituting the outer water tank 202 and the inner water tank 204. The outer water tank 202 is provided at the upper portion with a wash basin 206 for use as a cover. In the wash basin 206, a hand washing water pipe (hand washing and discharging unit) 2〇8 is provided in a state in which the hand basin 206 is raised. The wash basin 206 is provided with a drain 210 at the bottom. The hand washing water from the hand washing water outlet 208 is drained from the drain port 210 to the inside of the flushing water tank 2 . The toilet flushing water tank device has a rotatable flushing handle 212 provided on a side wall portion of the flushing water tank 200. The self-flushing handle 212 has an L-shaped lever arm 214 that projects toward the inner side of the flushing water tank 200. The front end portion of the lever arm 214 and the drain valve 216 provided at the bottom of the flush water tank are coupled by a chain 218. The drain valve 216 is opened by the chain 218 by the rotation operation of the flushing handle 212. The toilet flushing water tank device is opened by the drain valve 216, and the discharge port at the bottom of the flushing water tank 200 is opened, so that the flushing water in the flushing water tank 2 is discharged from the discharge port toward the toilet. The water inlet 2 2 in the flushing water tank is equipped with a built-in water supply valve. 100135244 3 201219628 Inlet main group 222. The influent water ii 22Q has a floating M 224 that is moved to and from the water level in the flushing tank lion, and a connecting arm 226 that connects the buoy 2 2 4 and the water supply weir. The water inlet 22 opens the water supply valve by the lowering of the float and supplies water from the water outlet 228 to the flush water tank 2 . Further, the water inlet 22 使 is closed by the rise of the pontoon 224, and the water supply is stopped. In the downstream of the water supply valve, the inlet water 220 is placed toward the ± hand washing water toward the hand washing water outlet 208 and the hand washing water outlet portion 23 that flows out. The water inlet 22 is connected to the end portion of the water guiding port 232 formed by the bellows for guiding the hand washing water to the hand washing pipe at the outlet portion 203. If the water inlet 22 opens the water supply valve, the water supply from the downstream water outlet 228 is directed to the flushing water tank for water supply, and the kitchen supplies the hand washing water for the hand washing water $2〇8, and then washes the hand from there. The basin 2〇6 flows out of the hand washing water. The pontoon 224 adjusts the screwing position with respect to the screw shaft 4 236 up and down by rotating it. That is, the position of the pontoon 224 at the upper and lower heights is 1 and the upper and lower positions of the pontoon 224 are used, which can adjust the amount of flushing water when the flush water tank 200 is filled with water. If the position of the pontoon 224 is moved to the lower side, the water supply of the water supply of 22 〇 when the water supply in the clean water phase 2 is closed is closed earlier, and the water supply amount in the purified water phase 200 is hedged. That is less. That is, the water level at the time of full water of the flush water in the flush water tank 2 (8) can be adjusted to be low. Conversely, the position of the ocean tube 224 is moved to the upper side, and when the water supply valve 200 is flushed into the water supply phase 200, if the water supply valve of the water inlet 22 is closed slowly, the water supply valve is closed slowly.
100135244 4 S 201219628 對沖淨水箱200内的供水量即變多。亦即,可使沖淨水箱 200内的沖淨水之滿水時的水位調整為較高。 專利文獻5所示係習知的另一種馬桶沖淨水箱裝置。該馬 桶沖淨水箱裝置設有供水延遲機構。内部設有進水器的馬桶 沖淨水箱裝置具有,若開啟排水閥,且將沖淨水箱内滯留的 沖淨水朝向馬桶放出’則因水位降低而使進水器的浮筒下降 而開啟供水閥。因此,該馬桶沖淨水箱裝置在排水閥開閥之 後馬上開始向水箱内供水。在該情形下,藉由供水閥的開閥 而對水箱内供水的水亦與在水箱内滯留的沖淨水一起自沖 淨水箱的排出口朝向馬桶放出,而被使用為馬桶沖淨水。 然而’作為馬桶沖淨的沖淨水量原本僅為於沖淨水箱内所 滯留的沖淨水水量已足夠’即使於此追加新的供水而作為馬 桶沖淨用’但該供水仍為多餘的水量,而會造成過多的水被 無謂地放出。 因此,習知並已被提案’並非如專利文獻5所揭示之馬桶 沖淨水箱裝置般’於排水閥開閥後馬上開啟進水器的供水閱 而實施供水,而係設有在排水閥開閥後延遲供水閥開閥用的 供水延遲機構。 專利文獻5所揭示的馬桶沖淨水箱裝置3〇〇如巴所厂、 具有:沖淨水箱302、及配置於沖淨水箱3〇2内部的進水器 304。進水器304具有··供水閥、藉由供水間的開閥而^ 水箱内供水之供水口 306、連接浮筒308以及浮筒3〇8與供 100135244 5 201219628 水閥的連接臂310。供水延遲機構312具有作為其主要要件 之小谷置的延遲槽314。 延遲槽314於底部設有小孔316。延遲槽314内部的沖淨 水W2通過小孔316向延遲槽314的外部(即沖淨水箱3〇2 内)流出。沖淨水箱302具有:設於底部的排出口 318、以 及開閉排出口 318的排水閥320。 該馬桶沖淨水箱裝置300如開啟排水閥320時,則沖淨水 箱302内所儲存的沖淨水W1自排出口 318朝向馬桶一氣地 放出。然而,延遲槽314内的沖淨水W2係通過小孔316而 少量地流出。因此,相對於沖淨水箱302内沖淨水W1的水 位快速下降,延遲槽312内的沖淨水W2的水位降低則較 慢。從而,即使開啟排水閥320而開始進行沖淨水W1之放 出,進水器304的供水閥亦不馬上被開啟,且向水箱内不進 行供水。 該馬桶沖淨水箱裝置300於沖淨水W1被全體放出而關閉 排水閥320的時期,則依據沖淨水W2的水位降低進水器 304的供水閥才開啟,而開始向沖淨水箱302内供水(依據 此而小孔316的大小被決定,且自小孔316的流出流量亦被 決定)。因此,馬桶沖淨水箱裝置在排水閥320開閥後’ 可防止自供水口 306所供應的水被無謂地消耗為馬桶沖淨 水0 [先行技術文獻] 100135244 6 201219628 [專利文獻] 專利文獻1 :日本專利特開2002-167838號公報 專利文獻2 :日本專利特開2000-160625號公報 專利文獻3:曰本專利實開平6-30277號公報 專利文獻4:日本專利專利第2801978號公報 專利文獻5:曰本專利實開昭63-126471號公報 【發明内容】 (發明所欲解決之問題) 然而,專利文獻1的沖淨水箱200有具有洗手出水管208 者,但根據沖淨水箱200亦有未具有洗手出水管208者。對 未具有洗手出水管208的沖淨水箱200,則無法對應於將洗 手水出口部230朝上設置的進水器220。因此,針對未具有 洗手出水管208的沖淨水箱,有利用未設有洗手水出口部 230的進水器。即’根據有無洗手出水管208,則使用各別 的進水器來對應。然而,在該情形下,則需要2種進水器。 當沖淨水相200未具有洗手出水管208的情形,例如將洗 手水的出口部朝斜下方,且未連接導水管232而將出口部成 開放狀態。藉此’當向沖淨水箱200内進行供水時,出口部 ‘ 被作為向沖淨水箱200的第2出水口,而使水流出至沖淨水 箱200内。另一方面,當沖淨水箱200具有洗手出水管2〇8 的情形,使導水管連接至出口部,且自出口部導引洗手水至 洗手出水管208。藉此,可利用同一個進水器來對應沖淨水 100135244 7 201219628 相200具有洗手出水管的情形與未具有洗手出水管的情形。 另外,習知已有在洗手水出口部更下游侧,於進水器上預 先準備補充水官,且通過該概水管而向馬滅應補充水。 該補充水為於馬桶沖淨時在馬桶内的蓄水被排出後,再度將 馬桶内的蓄水滞留至—定水㈣供應至馬桶者。如上所述為 了利用同-個進水器對應沖淨水|g 2〇〇具有洗手出水管鹰 的情形與未具有洗手出水f的情形,如在洗手水出口部連接 導水管232、或不連接時,則會產生補充水水量不同的問題。 畲沖净水箱200具有洗手出水管2〇8的情形,因洗手出水 管位於此洗手水出口部較為上方,因此為自洗手水的出口部 將水向上推至洗手出水管的出水口則會產生較大的阻力。因 此,在向沖淨水箱2〇〇内進行供水時,如將導水管連接至洗 手水之出口部並將洗手水送入洗手出水管2〇8中,而自該出 水口流出洗手水時,則在補充水管側流動之水的比率變大, 而對馬桶的補充水水量則變多。 相反地,當沖淨水箱200未具有洗手出水管2〇8時,因洗 手水的出口部未賴導水管,自其出口部直接㈣沖淨水箱 200内進行供水,因此其對自出口部的水流出阻力則變小。 因此’在補充水管舰狀水的科變小,㈣馬桶的補充 水的水量亦變少。若賊水的水量較少時,财馬桶中有無 法滯留必要水量蓄水之虞。 * 為防止該現象’必需設定成經常以比必要水量較多的補充 100135244 8 201219628 水朝向馬减人。在歸形下,如使必要水量以上的補充水 供應至馬桶,則水被無謂地消耗。 另外,作為第1發明相關的先行技術,有如專利文獻2、 專利文獻3所揭示者,,該科敎獻所揭示者並無法使 補充水管中流動的水量安定化,故其與第i發明不同。 第1發明係有鑑於上述習知之實情而完成者,其要解決之 課題即提供,不管有無洗手出水部,均使向馬㈣ 的補充水管側所流動之水量成為—定水量,而可謀求節水的 進水器。 另外,專利文獻i的沖淨水箱雇係藉由旋轉操作浮筒 224,而調整其高度者。因此,於浮筒以周圍需要供其旋 轉的廣濶空間。 近年來’沖淨水箱有逐漸小型化的趨勢。因此,在使 ⑽旋轉時其與周邊零件間產生干涉問題1使周邊零件的 配置佈局大巾吻m崎職脉料淨水箱進一步 小型化之要因。 另外,於利用螺桿調整浮筒224高度者,其經長期間使 :广軸部236之浮筒224的螺合位置會有出現偏移 n亥情形下’因浮筒224高度已自原本位置位移,故 其滿水時的沖淨水水位亦有自設定位置偏離之虞。 二=為第2發明相關的先行技術’專利二4揭示有 關於導引式蓄水槽用進水器。該進水器係將環狀定位構件螺 100135244 201219628 合於螺桿軸部,且可使定位構件沿著螺桿軸部進行上下移 動。但,該定位構件係作為規範浮子(浮筒)上升端的擋止 者,而非與浮子一體進行上下移動,其與第2發明不同。 第2發明係有鑑於上述習知之實情而完成者,其要解決之 課題即提供··於浮筒周圍不需要為使其旋轉的空間,不會因 浮筒旋轉與周邊零件間產生干涉問題的進水器。 另外’於專利文獻5的馬桶沖淨水箱裝置300,為對應寒 冷地區’若適用於具有以少量使水連續流動並供應至馬桶的 流動水出水口者,則有無法於適當時機開啟供水閥320並向 沖淨水箱302内供應沖淨水之虞。 換言之’若使延遲槽314位於自沖淨水出水口的流動水落 下之位置處,則當於流動水出水中進行馬桶沖淨時,因流動 水進入延遲槽314内部,即使排水閥320開啟而沖淨水箱 302内所滯留的沖淨水W1被放出,亦不會如預期般延遲槽 314内之水位會下降。 具體而言,相較於自延遲槽314之小孔316的流出流量, 當進入延遲槽314内的流動水流量較多時,不管經過多久延 遲槽314内的水位均不會下降。另一方面’即使進入延遲槽 314内的流動水流量比自小孔316流出的流量為少時,延遲 槽314内的水位下降亦比預期為慢。不管何種情形’均無法 在排水閥320開閥後的適當時機使進水器304的供水閥開 啟,而向沖淨水箱302内進行供水。 100135244 201219628 例如向沖淨水箱302内的供水,雜 艰雖然希望排水閥320開啟 且使内部所儲存之沖淨水W1放ψ处Λ 风出結束’然後在排水閥32〇 關閉的時期實施為佳,但其卻盔法力a L,士 …、凌在如此適當時機使供水閥 開啟而開始供水。 . 第3發明與第4發明係有鐘於 • 上迷自知之實情而所完成 者,其要解決之課題即提供:於且右也u ,、有供水延遲機構及流動水 出水口之馬_淨水箱裝置中’可防止自流動水出水口落下 的水進入供水延遲機構的延遲槽内,且可於適當時期開始以 供水閥開閥進行水箱内供水,如此& 如此的馬桶沖淨水箱裝置。 (解決問題之手段) 第1發明的進水器係具備有: 及 浮筒,其連動於沖淨水箱内的沖淨水水位而進行昇降;以 供水閥,其利用該浮筒的昇降而進行開閉; 且其自動地進行向上述沖淨水箱作供水及供水停止;其特 徵在於,具備有: 出口部’纽置於上述供水_下游部,且朝向設於上述 冲淨水箱之洗手出水部流出洗手水;以及 阻力構件’其設置該出口部,而使流路阻力發生變化。 / 1發日㈣進水器當沖淨水箱未具有洗手出水部,而導水 ^連接至洗手水出口部時,其藉由阻力構件而可使流路阻 力一。藉此,可使與導水管連接於洗手水出口部,而使洗 100135244 201219628 手水導引至洗手出水部時具有相同的流路阻力。因此,流入 至補充水官的水量不管有無洗手出水部均可成為—定。藉 此’則不需要將通過補充水管供應至馬桶的補充水水量設定 為多量,而可謀求節水。 第2發明的進水器係具備有: 孚向其連動於沖淨水箱内的沖淨水水位而進行昇降; 供水閥,其利用該浮筒的昇降而進行開閉;以及 連接臂’其具有軸部,且連接上述浮筒與上述供水閱; 且其自動地進行向上述沖淨水箱作供水與供水停止丨宜 徵在於,具備有: /、 气疑轉操作構件’其安裝於上述連接臂的軸部,藉由上述浮 =保持並且對於上述浮筒獨立進行旋轉,而與上述浮筒一起 沿上述軸部進行移動。 操==:::r ㈣r, 度。· #㊉ 進朴動,而可調整浮筒的高 如要為了調整料的高度破浮筒旋轉,浮 =1預先確保供其旋轉的空間。從而,浮筒周邊零 件的配置佈局自岐可被提高,又可謀求沖淨水箱進—步之 二=二外:!1其:需要為調整浮筒的高度而使浮筒旋 八亦可提南浮筒本身形狀的自由度。 再者,該進水器藉由旋轉操作構件的旋轉,使旋轉 100135244 件沿連接臂的轴部進行連續地移動,亦即,可沿㈣使浮筒 201219628 之高度以無階段連續地調整。 第3發明的馬㈣淨水财置,其係具備有: 沖淨水箱,其具有:排出口、及__ ; 料H’其具有:浮筒、供水岐餐f;祕筒係連動 於H淨h目内的七爭水之水位*進行昇降;該供水閥係利 用該浮筒的昇降錢行開閉;該連接臂連接上述浮筒與上述 供水閥; 供水延遲機構,其具有延遲槽,該延遲槽配置於上述沖淨 水箱内’且上述浮筒位於其内部,而容量較小於上述冲淨水 箱,其形成有可流㈣部水的小孔;||由使在上述排水閥開 閥後上述延遲槽内的水通過小孔流出而產生之上述延遲槽 内的水位降低比上述延遲槽外側之上述沖淨水箱内的水位 降低為慢,而使上述供水閥之開閥延遲,·以及 流動水出水口,其將為了防止壤結之流動水供應給上述沖 淨水箱; 如此的馬斯淨水«置;其特徵在於, 上述流動水出水口配置於上述流動水朝向上述延遲槽落 下之位置的上述延遲槽之上方;同時,具備有:_ 其設置於細槽的上側,爾自上述流動水出水= 的流動水,並^丨至上述延遲槽外_上述 該馬桶沖淨水箱裝置因自流動水出水口朝向^内。 構中的延遲槽落下的流動水,被以水承接構件承接= 100135244 201219628 延遲槽外’其可防止流動水進入延遲槽内。因此,該馬桶沖 淨水箱裝置可使供水延遲機構正常動作,且在適當時序使供 水閥開啟,而開始向水箱内供水。 再者,邊馬桶沖淨水箱裝置亦可使流動水出水口與延遲槽 不須在水平方向使位置大幅錯開而配置。又,該馬桶沖淨水 箱裝置因水承接構件接收自流動水出水口落下的流動水,故 其可防止流動水強勢地落下至水箱内儲蓄水,而可防止產生 大的著水聲。 第4發明的馬桶沖淨水箱裝置,其係具備有: 沖淨水箱,其具有:排出口、與使該排出口進行開閉的排 水閥; 進水益’其具備有:浮筒、供水閥及連接臂;該浮筒係連 動於該沖淨水箱_沖淨水水㈣進行昇降;該供水閥係利 用該浮筒的昇降而進行開閉;該連接臂連接上述浮筒與上述 供水閥; i、XL遲機構,其具有延遲槽,該延遲槽係配置於上述沖 淨W目内且上述浮筒位於其内部,而容量較小於上述沖淨 水箱,其形成有流㈣部水的小孔;藉由使在上述排水閥開 闊後上述延遲槽_水_小孔流出難生的上述延遲槽 内的t位降㈣上述延遲槽外側之上述沖淨水箱㈣水位 降低為慢,而使上述供水閥之開W延遲· ,以及 流動水出水口,其將兔7 L 土 將為了防止料之軸水供應至上述沖 100135244 201219628 淨水箱;如此的馬桶沖淨水箱裝置,其特徵在於, 上述流動水出水口與上述延遲槽為,將上述沖淨水箱内的 水平方向位置設定為自上述流動水出水口流出的流動水不 落下於上述延遲槽内的位置。 該馬桶沖淨水箱裝置亦可防止自流動水出水口的流動水 進入延遲槽内。因此,該馬桶沖淨水箱裝置可使供水延遲機 構正常動作,再於適當時機開啟供水閥,而開始向水箱内進 行供水。 【實施方式】 以下說明第1發明的較佳形態。 第1發明的上述阻力構件可為節流閥。在該情形下,其可 輕易地切換節流閥的開度。因此,其可使出口部的流路阻力 輕易地變化。 上述節流閥具有固定閥體與可動閥體;該固定閥體具有通 水用第1開口;而該可動閥體具有通水用第2開口,且藉由 向上述固定閥體進行旋轉,可使上述第1開口與上述第2 開口的重疊面積產生變化,而使流路阻力變化。在該情形 下,僅使可動閥體旋轉,則可簡單地使流路阻力變化。 上述出口部具有旋轉部,該旋轉部係以上下方向旋轉,且 前端側具有洗手水的流出口,而其中一部分為上述可動閥 體。在該情形下,當沖淨水箱未設有洗手出水部,且導水管 未連接至洗手水的出口部時,即洗手水的出口部維持在開放 100135244 15 zuizi9628 時’則使旋轉部旋轉而洗 維持於開放的洗手水出口部所向下方。藉此,自 ,内,上述旋轉部可為;:;的水’則可以順暢地供應 田上述沖淨水箱設有洗手出 與上述第2開口_面藉“ 大上述第1開口 出水^ 且積,而§上述沖淨水箱未設有洗手 ==則減小上述第1開口與上述第2開口的重疊面 内。在外上述4 °部直接將洗手水流人至上述沖淨水箱 出二箱具有洗手 〃未H先手出水部日寺,均可變化流路阻力。因 ^3有進水器的馬桶沖淨水箱裝置其施工性可變良好。 /、人針對第1發明進水器的具體化實施例i,參照圖 進行說明。 <實施例1> 實知例1的沖淨水箱1〇係如圖i所示般,其構成外水箱 "内水箱14的雙層水箱構造。沖淨水肖1〇於外水箱以 的上部’設有兼料水箱12之蓋的洗手盆16。洗手盆16 係自洗手盆16立起的形態設有洗手出水管(洗手出水部)18 洗手出水官18係如圖2所示具有:自洗手盆16的盆面向 上側露出的上部18A、與盆面下側的下部18B。洗手出水管 18於下部ι8Β的外周面設有公螺紋部21<>於該公螺紋部u 旋入螺帽23,洗手出水管18被安裝於洗手盆16上。洗手 盆16於底部設有排水口 2〇。自洗手出水管丨8的出水口 19 100135244 16 201219628 流出之洗手水,自該排水口 20落下至沖淨水箱10的内部。 沖淨水箱10係如圖1所示,於水箱壁上以可旋轉地設有 沖淨把手22。自沖淨把手22起,呈l字狀的桿臂24朝向 沖淨水箱1 〇的内方伸出。桿臂24的前端部、與省略圖示之 沖淨水箱10的底部設有排水閥,其利用圓珠鏈條26相連 接。排水閥藉由沖淨把手22的旋轉操作,被圓珠鍵條26 向上拉而開閥。藉由排水閥的開閥,沖淨水箱10底部的排 出口則開放,且於沖淨水箱1〇内滯留的沖淨水則被自排出 口朝向馬桶強勢地放出。 冲淨水箱10於内部配設有進水器28。對進水器主體30 連接有供水管32 28若供皮關Ρ 。進水器主體30具有供水閥34。進水器 28右供水閥34開啟,則通過供水管輸送的水被自供水 閥34下游部的水箱内出水口 36朝向沖淨水箱㈣流出。 進水器2 8具有浮筒4 〇與連接臂* 2 ;該浮筒4 〇係利用浮 力連動至沖淨水箱1G _沖淨水之水㈣進行昇降;該連100135244 4 S 201219628 The amount of water supplied to the flushing water tank 200 is increased. That is, the water level at the time when the flushing water in the flushing water tank 200 is full can be adjusted to be high. Patent Document 5 discloses another conventional toilet flushing water tank device. The horse bucket flushing water tank device is provided with a water supply delay mechanism. The toilet flushing water tank device with the water inlet inside has the function of opening the drain valve and discharging the flushing water retained in the flushing water tank toward the toilet, so that the float of the water inlet is lowered due to the lowering of the water level. Water supply valve. Therefore, the toilet flushing water tank device starts to supply water into the water tank immediately after the drain valve is opened. In this case, the water supplied to the water tank by the valve opening of the water supply valve is also discharged from the discharge port of the flush water tank toward the toilet together with the flush water retained in the water tank, and is used as toilet flush water. . However, the amount of flushing water that was flushed as a toilet was originally sufficient only for the amount of flushing water that was retained in the flushing tank. Even if a new water supply was added to flush the toilet, the water supply was still redundant. The amount of water that causes too much water to be unnecessarily released. Therefore, it has been conventionally proposed that 'not the toilet flushing water tank device disclosed in Patent Document 5, the water supply is turned on immediately after the drain valve is opened, and the water supply is performed, and the drain valve is provided. The water supply delay mechanism for delaying the opening of the water supply valve after opening the valve. The toilet flushing water tank device 3 disclosed in Patent Document 5, for example, has a flush water tank 302 and a water inlet 304 disposed inside the flush water tank 3〇2. The water inlet 304 has a water supply valve, a water supply port 306 for water supply in the water tank by opening the water supply chamber, a connection pontoon 308, and a pontoon 3 〇 8 and a connection arm 310 for the water supply valve of 100135244 5 201219628. The water supply delay mechanism 312 has a delay groove 314 as a small portion of its main requirement. The delay slot 314 is provided with an aperture 316 at the bottom. The flushing water W2 inside the retardation groove 314 flows out through the small hole 316 to the outside of the retardation groove 314 (i.e., in the flush water tank 3〇2). The flush water tank 302 has a discharge port 318 provided at the bottom portion, and a drain valve 320 that opens and closes the discharge port 318. When the toilet flushing water tank device 300 is opened, the flushing water W1 stored in the flushing water tank 302 is discharged from the discharge port 318 toward the toilet. However, the flushing water W2 in the retardation groove 314 flows out through the small holes 316 in a small amount. Therefore, the water level of the flushing water W1 in the flush water tank 302 is rapidly lowered, and the water level of the flushing water W2 in the delay tank 312 is lowered. Therefore, even if the drain valve 320 is opened and the discharge of the flush water W1 is started, the water supply valve of the water inlet 304 is not immediately opened, and no water supply is supplied to the water tank. When the flushing water W1 is discharged and the drain valve 320 is closed, the toilet flushing water tank device 300 lowers the water supply valve of the water inlet 304 according to the water level of the flushing water W2, and starts to flush the water tank. The water supply in 302 (according to this, the size of the small hole 316 is determined, and the outflow flow from the small hole 316 is also determined). Therefore, the toilet flushing water tank device can prevent the water supplied from the water supply port 306 from being unnecessarily consumed as toilet flush water after the valve is opened. [Procedures] 100135244 6 201219628 [Patent Literature] Patent Literature Japanese Patent Laid-Open Publication No. JP-A-2002-167838 (Patent Document 2) Japanese Patent Laid-Open Publication No. Hei. No. 2000-160625. Patent Document 3: Japanese Patent Laid-Open No. Hei 6-30277. Patent Document 4: Japanese Patent No. 2801978 [Patent 5] The present invention is directed to the invention. The case 200 also has no hand washout 208. The flushing water tank 200, which does not have the hand washing water outlet 208, cannot correspond to the water inlet 220 in which the hand washing water outlet portion 230 is disposed upward. Therefore, for the flush water tank which does not have the hand washing water outlet 208, there is a water tank which is not provided with the hand washing water outlet portion 230. That is, depending on the presence or absence of the hand drain pipe 208, a separate water inlet is used. However, in this case, two types of water inlets are required. When the flushing water phase 200 does not have the hand washing water outlet 208, for example, the outlet portion of the hand washing water is inclined downward, and the water conduit 232 is not connected to open the outlet portion. Therefore, when the water supply is performed into the flush water tank 200, the outlet portion is used as the second water outlet of the flushing water tank 200, and the water flows out into the flush water tank 200. On the other hand, when the flushing water tank 200 has the hand washing water outlet 2〇8, the water guiding pipe is connected to the outlet portion, and the hand washing water is guided from the outlet portion to the hand washing water pipe 208. Thereby, the same water inlet can be used to correspond to the flushing water 100135244 7 201219628 Phase 200 has a hand washing water pipe and a case where there is no hand washing water pipe. In addition, it has been conventionally prepared to replenish the water officer on the inlet side of the hand washing water outlet portion, and to replenish water to the horse through the water main pipe. The makeup water is used to store the water in the toilet when the toilet is flushed, and then the water in the toilet is again stored until the water is supplied to the toilet. As described above, in order to utilize the flush water corresponding to the same water inlet |g 2〇〇, there is a case of washing the water outlet eagle and a case where the hand washing water f is not provided, such as connecting the water conduit 232 at the hand outlet of the hand washing water, or not connecting At the same time, there is a problem that the amount of supplementary water is different. The flushing water tank 200 has a hand washing water outlet 2〇8. Since the hand washing water outlet is located above the hand washing water outlet, the water is pushed up from the outlet of the hand washing water to the water outlet of the hand washing water outlet. Produce greater resistance. Therefore, when supplying water into the flushing water tank 2, if the water conduit is connected to the outlet of the hand washing water and the hand washing water is sent into the hand washing water outlet 2〇8, when the hand washing water flows out from the water outlet The ratio of the water flowing on the side of the supplementary water pipe becomes larger, and the amount of the supplementary water to the toilet becomes larger. On the contrary, when the flushing water tank 200 does not have the hand washing water outlet 2〇8, since the outlet portion of the hand washing water does not depend on the water guiding pipe, the water supply is directly supplied from the outlet portion (4) in the flushing water tank 200, so the outlet is self-exported. The water outflow resistance of the part is smaller. Therefore, the section in the water-filled ship-shaped water becomes smaller, and (4) the amount of water in the toilet's supplementary water is also reduced. If the amount of water in the thief is small, is there any way to keep the necessary amount of water in the toilet? * In order to prevent this phenomenon, it is necessary to set the amount of water to the horse to be reduced by the amount of water that is more than necessary. In the case of the makeup, if the supplementary water above the necessary amount of water is supplied to the toilet, the water is consumed unnecessarily. Further, as a prior art related to the first invention, as disclosed in Patent Document 2 and Patent Document 3, the disclosure of the section of the present invention does not stabilize the amount of water flowing in the makeup water pipe, so it is different from the i-th invention. . The first invention is provided in view of the above-mentioned conventional circumstances, and it is to be solved that the amount of water flowing to the side of the supplementary water pipe of the horse (four) becomes a constant water amount regardless of the presence or absence of the hand washing water outlet portion, and water saving can be achieved. The water inlet. Further, the flush tank of Patent Document i employs the height of the float 224 by rotating it. Therefore, a wide space for the pontoon to be rotated around it is required. In recent years, the flushing water tank has been gradually miniaturized. Therefore, when (10) is rotated, there is an interference problem with the peripheral parts. 1 The layout of the peripheral parts is further reduced in size. In addition, when the height of the pontoon 224 is adjusted by the screw, the screwing position of the pontoon 224 of the wide-axis portion 236 may be offset by a long period of time. Since the height of the pontoon 224 has been displaced from the original position, The flushing water level at full water also deviates from the set position. Second, it is a prior art related to the second invention. Patent No. 2 discloses a water inlet for a guided water storage tank. The water inlet unit is configured such that the annular positioning member screw 100135244 201219628 is coupled to the screw shaft portion, and the positioning member can be moved up and down along the screw shaft portion. However, the positioning member is a stopper that regulates the rising end of the float (buoy), and does not move up and down integrally with the float, which is different from the second invention. The second invention has been completed in view of the above-described conventional circumstances, and it is a problem to be solved by providing a space in which there is no need to rotate around the pontoon, and there is no problem of interference between the pontoon rotation and the peripheral components. Device. In addition, the toilet flushing water tank device 300 of the patent document 5 is adapted to open the water supply valve at an appropriate timing if it is suitable for a cold water area that is suitable for a flowing water outlet having a small amount of continuous flow of water and supplied to the toilet. 320 and supply the flushing water to the flushing water tank 302. In other words, if the delay tank 314 is located at a position where the flowing water of the flush water outlet is dropped, when the toilet flush is performed in the flowing water effluent, the flowing water enters the inside of the delay tank 314 even if the drain valve 320 is opened. The flushing water W1 remaining in the flushing water tank 302 is discharged, and the water level in the tank 314 is not delayed as expected. Specifically, when the flow rate of the flowing water entering the retardation groove 314 is larger than that of the small hole 316 from the retardation groove 314, the water level in the delay groove 314 does not decrease. On the other hand, even if the flow rate of the flowing water entering the delay groove 314 is smaller than the flow rate from the small hole 316, the water level drop in the delay groove 314 is slower than expected. In any case, the water supply valve of the water inlet 304 cannot be opened at an appropriate timing after the drain valve 320 is opened, and water is supplied into the flush water tank 302. 100135244 201219628 For example, the water supply in the flushing water tank 302 is difficult. Although it is desired that the drain valve 320 is opened and the flushing water W1 stored therein is placed at the end of the air outlet, the air outlet is closed, and then the drain valve 32 is closed. Good, but it is a helmet mana a L, Shi..., Ling is at such an appropriate time to open the water supply valve and start water supply. The third invention and the fourth invention are those that have been completed on the truth of the above-mentioned self-knowledge, and the problem to be solved is to provide: the right and the right, the water supply delay mechanism and the flowing water outlet horse. _The water tank device can prevent the water falling from the flowing water outlet from entering the delay tank of the water supply delay mechanism, and can start the water supply valve to open the water supply in the water tank at an appropriate time, so & Water tank device. (Means for Solving the Problem) The water inlet device according to the first aspect of the present invention includes: a pontoon that moves up and down in conjunction with a flush water level in the flush water tank; and a water supply valve that opens and closes by the lifting and lowering of the pontoon And automatically performing water supply and water supply stop to the flushing water tank; and characterized in that: the outlet portion is placed in the water supply_downstream portion, and faces the hand washing and discharging portion provided in the flushing water tank; The hand washing water flows out; and the resistance member's the outlet portion is provided to change the flow path resistance. / 1 day (4) Inlet water tank The flushing water tank does not have a hand washing water outlet, and when the water guiding water is connected to the hand washing water outlet portion, the flow path resistance can be made by the resistance member. Thereby, the water conduit can be connected to the hand washing water outlet portion, and the same flow path resistance can be obtained when the hand washing water is directed to the hand washing and discharging portion. Therefore, the amount of water flowing into the supplemental water officer can be determined regardless of whether or not the hand washing water outlet is present. By this, it is not necessary to set the amount of replenishment water supplied to the toilet through the supplementary water pipe to a large amount, and it is possible to save water. The water inlet device according to the second aspect of the present invention includes: a water supply valve that moves in conjunction with a flush water level in the flush water tank; a water supply valve that opens and closes by lifting and lowering the float; and a connecting arm that has an axis And connecting the pontoon and the water supply; and automatically performing the water supply and the water supply stop to the flushing water tank, wherein: /, the gas igniting operation member is mounted on the connecting arm The shaft portion is moved along the shaft portion together with the pontoon by the above-described float=holding and independently rotating the pontoon. Exercise ==:::r (four) r, degrees. · #十进朴动, and can adjust the height of the pontoon If you want to adjust the height of the material to break the pontoon rotation, float =1 to ensure the space for rotation. Therefore, the configuration of the peripheral parts of the pontoon can be improved, and the flushing water tank can be upgraded. Step 2 = 2 outside: !1: It is necessary to adjust the height of the pontoon so that the pontoon can be circulated to the south pontoon. The degree of freedom of its own shape. Further, the water inlet device continuously moves the rotating 100135244 piece along the shaft portion of the connecting arm by the rotation of the rotating operation member, that is, the height of the pontoon 201219628 can be continuously adjusted in a stepless manner along (4). The horse (4) water purification device according to the third aspect of the invention includes: a flush water tank having: a discharge port, and a __; a material H' having: a float, a water supply meal f; and a secret cylinder linked to the H The water level of the seven waters in the net h is raised and lowered; the water supply valve is opened and closed by the lifting and lowering of the float; the connecting arm connects the buoy and the water supply valve; the water supply delay mechanism has a delay groove, the delay groove Disposed in the flushing water tank' and the buoy is located inside thereof, and the capacity is smaller than the flushing water tank, and the small water hole capable of flowing (four) water is formed; || The water level in the retardation groove generated by the water in the retardation groove flowing out through the small hole is lower than the water level in the flushing water tank outside the delay groove, and the valve opening of the water supply valve is delayed, and a flowing water outlet, which is intended to prevent the flowing water of the soil from being supplied to the flushing water tank; the masculine water is disposed; wherein the flowing water outlet is disposed in the flowing water and falls toward the retarding groove The above delay of the position At the same time, there is: _ which is disposed on the upper side of the narrow groove, and the flowing water from the flowing water = the above-mentioned delay tank _ the above-mentioned toilet flushing water tank device is discharged from the self-flowing water The nozzle is facing the inside. The flowing water falling from the retarding groove in the structure is received by the water receiving member = 100135244 201219628 Delayed outside the tank 'It prevents the flowing water from entering the retarding groove. Therefore, the toilet flushing water tank device can cause the water supply delay mechanism to operate normally, and the water supply valve is opened at an appropriate timing to start supplying water into the water tank. Further, the toilet flushing water tank device can also be arranged such that the flowing water outlet and the retarding groove do not have to be largely displaced in the horizontal direction. Further, the toilet flushing water tank device receives the flowing water dropped from the flowing water outlet by the water receiving member, so that the flowing water can be prevented from falling strongly into the water in the water tank, and the large watering sound can be prevented from being generated. A toilet flushing water tank device according to a fourth aspect of the present invention includes: a flushing water tank having a discharge port and a drain valve that opens and closes the discharge port; and the water supply device includes: a float, a water supply valve And the connecting arm; the pontoon is connected to the flushing water tank _ flushing water (4) for lifting; the water supply valve is opened and closed by the lifting and lowering of the pontoon; the connecting arm connects the pontoon and the water supply valve; i, XL a delay mechanism having a delay groove disposed in the flushing target and having the pontoon located therein, and having a smaller capacity than the flushing water tank, forming a small hole in the water (four) portion; The water level of the flush water tank (4) outside the delay tank is lowered by the t-bit drop (four) in the delay tank in which the delay tank_water_small hole flows out after the drain valve is widened, and the water supply valve is lowered. Open W delay ·, and the flowing water outlet, which will supply the rabbit 7 L soil to prevent the shaft water supply to the above-mentioned rushing 100135244 201219628 water purification tank; such a toilet flushing water tank device, characterized in that the above flow Water outlet Said delay slot to the horizontal position within the rinse tank is set to flow from said outlet of water flowing out of the flow of water does not fall in the delay slot positions. The toilet flushing water tank device also prevents the flowing water from the flowing water outlet from entering the delay tank. Therefore, the toilet flushing water tank device can cause the water supply delay mechanism to operate normally, and then open the water supply valve at an appropriate timing to start supplying water into the water tank. [Embodiment] A preferred embodiment of the first invention will be described below. The above-described resistance member of the first invention may be a throttle valve. In this case, it is possible to easily switch the opening of the throttle valve. Therefore, it can easily change the flow path resistance of the outlet portion. The throttle valve has a fixed valve body and a movable valve body; the fixed valve body has a first opening for water passage; and the movable valve body has a second opening for water passage, and is rotated by the fixed valve body. The area of overlap between the first opening and the second opening is changed to change the flow path resistance. In this case, by merely rotating the movable valve body, the flow path resistance can be easily changed. The outlet portion has a rotating portion that rotates in the up-down direction, and the front end side has an outlet for the hand washing water, and a part of the rotating valve body is the movable valve body. In this case, when the flushing water tank is not provided with the hand washing water outlet and the water conduit is not connected to the outlet portion of the hand washing water, that is, the outlet portion of the hand washing water is maintained at the opening 100135244 15 zuizi9628, the rotating portion is rotated. The wash is maintained below the open hand washing water outlet. Thereby, the water portion of the rotating portion can be smoothly supplied to the flushing water tank, and the washing machine can be provided with the second opening and the second opening. If the washing water tank is not provided with hand washing ==, the overlap between the first opening and the second opening is reduced. In the outer 4 ° portion, the hand washing water is directly flowed to the flushing water tank. The box has the hand wash and the H first hand water outlet part of the temple, can change the flow path resistance. Because the ^3 has a water inlet toilet flushing water tank device, its construction property can be changed well. /, people for the first invention water inlet The specific embodiment i will be described with reference to the drawings. <Example 1> The flush water tank 1 of the first embodiment is a double water tank which constitutes the outer water tank " the inner water tank 14 as shown in Fig. The flushing water is provided in the upper part of the outer water tank. The wash basin 16 is provided with a cover of the water tank 12. The wash basin 16 is provided with a hand washing water pipe (washing water outlet) in the form of standing up from the wash basin 16 18 The hand washing and watering officer 18 series has the upper part 18A exposed from the basin facing the upper side of the basin 16 and the surface of the basin as shown in Fig. 2 Lower portion 18B on the lower side. The hand outlet pipe 18 is provided with a male screw portion 21 on the outer peripheral surface of the lower portion Β8Β; > the nut portion u is screwed into the nut 23, and the hand washing water outlet pipe 18 is attached to the wash basin 16. The basin 16 is provided with a drain port 2 at the bottom. The water outlet of the hand washing water outlet 198 19 100135244 16 201219628 The hand washing water flowing out from the drain port 20 falls into the interior of the flushing water tank 10. As shown in Fig. 1, a flushing handle 22 is rotatably provided on the wall of the water tank. From the flushing handle 22, a lever arm 24 having a l-shape extends toward the inside of the flushing water tank 1 。. A drain valve is provided at a front end portion of the arm 24 and a bottom portion of the flush water tank 10 (not shown), and is connected by a ball chain 26. The drain valve is rotated by the handle 22 and is pressed by the ball key 26 Pulling up and opening the valve. With the opening of the drain valve, the discharge port at the bottom of the flushing water tank 10 is opened, and the flushing water retained in the flushing water tank 1 is released from the discharge port toward the toilet. The flush water tank 10 is internally provided with a water inlet 28. A water supply pipe 32 is connected to the water inlet main body 30.进 The water inlet main body 30 has a water supply valve 34. When the water inlet 28 of the water inlet 28 is opened, the water delivered through the water supply pipe is discharged from the water outlet 36 of the water tank downstream of the water supply valve 34 toward the flush water tank (4). The water inlet device 28 has a pontoon 4 〇 and a connecting arm * 2; the pontoon 4 is detached by buoyancy to the flushing water tank 1G _ flushing water (4) for lifting;
而該螺桿軸部46自臂部44The screw shaft portion 46 is from the arm portion 44
100135244 17 201219628 58。主閥體52包含隔膜閥,藉由對主閥座50進行配座與離 開而阻斷及開放水路51。背壓室54形成於主閥體52的下 側,而對主閥體52作朝上閉閥方向的按壓力。導入小孔係 貫通主閥體52而設置,且連通水路51的初次侧與背壓室 54。導入小孔將初次側的水導入至背壓室54,而可增加背 壓室54的壓力。導引孔56連通至背壓室54。導引孔56脫 除背壓室54的水,而可減少背壓室54的壓力。 該供水閥34係依如下所述進行動作。藉由浮筒40下降, 在臂部44的基端部所設置之導引閥體60則自導引閥座58 離開,而導引孔56開放。如此,背壓室54的壓力則減少, 主閥體52因初次側的供水壓自主閥座50朝圖中下方離開而 開閥,而水路51成開放狀態。因水路51的開放,通過供水 管32所輸送的水通過供水閥34被輸送至下游側的水箱内出 水口 3 6,而自此處流出至沖淨水箱10内。 另一方面,若藉由向沖淨水箱10内供水而使沖淨水成滿 水狀態時,則藉由浮筒40的上升,可使導引閥體60於導引 閥座58配座而使導引孔56關閉。如此,背壓室54的壓力 則上升,背壓室54的壓力成為高於水路51的初次側之供水 壓,而主閥體52關閉,阻斷水路51而停止自水箱内出水口 36出水。 進水器28係如圖3所示般,設有連接於進水器主體30 的連接管62。水箱内出水口 36設於連接管62。該連接管 100135244 18 201219628 ’設有使洗手水向洗手 洗手水出口部64被設 62係如圖4、圖5及圖7(B)所示趣 出水管18流出的洗手水出口部64。 置於供水閥34的下游部。 朝向馬桶供應補充水的補充水營 __ s 係如圖1與圖3所 示’其由連接管62的出口部64夕γ <下游部68、與其所連接 的支管_柳所構成。下游部的其前端部係朝下呈直角 彎折,介隔該處所安裝的連接構件而使支管%被連接至 下游部68。該補充水管66利祕Μ 34的關,將補充 水流入於溢流管48中’並通過溢流管48將補充水供應至馬 桶0 先手Κ出口 σρ64如圖5所示具有:與連接管62的管轴方 向呈直角方向突出之蚊部72、以及成為旋轉部的彎曲管 74:固疋部72整體係公管部。另一方面,彎曲管%係具有: 母管部76、藉此在直角f曲的彎曲部78。成為公管部的固 疋。卩72被插入於母管部%内。母管部%對固定部W,利 用防脫夾具8G成㈣脫狀態,且藉由〇形環82可在水密 狀態旋轉。 防脫夾具80係如圖4所示具有:基部84、及自該處延伸 的一對圓弧形狀彈性臂86。該防脫夾具80係通過彎曲管74 的母管部76之開口 88(參照圖5),自彈性臂%側插入於其 内部。而且’一對彈性臂86則彈性地嵌合於固定部72側的 環狀溝90 °藉此,可防止成為公管部的固定部72、與彎曲 100)35244 201219628 管74的母管部76的滑脫。 料官74係藉由母管部76對固定部72進行旋轉,管曲 I5則向上下方向進行旋轉運動。該彎曲部78係如圖* 所示、,其前端側設有洗手水流出口 92。彎曲部78的前端部 。又有連接。卩79。連接部79連接於具有伸騎⑽的伸縮管 之導水管108Α的一端側。 該洗手水出口部64設有節流閥96。該節流閥96係當作 藉由部分性阻塞洗手水的流路94(參照圖5),而增加流路阻 力(流路94的阻力)的阻力構件。節流閥%由固定閥體98 與可動閥體⑽所構成。該固定閥體98係形成於固定部” 的刖端。Ρ。It可動闕體1〇〇係相對於該固定間冑%於固定 部72的軸向上呈相對向,且形成於彎曲管%上。 固定闕體98係如圖4所示般,其具有通水用固定側之第 1開口 102。另-方面’可動閥體1〇〇係具有通水用可動側 之第2開口 1〇4。固定側之第^搬以俯視形狀呈大略 長方形狀。另一方面,可動側之第2開口 104係俯視形狀呈 D字狀。 其次,針對固定側之第1開口 102與可動側之第2開口 104間之關係進行說明。 固定側之第1開口 102係如圖4與圖6所示,自相對於固 定部72前端面的右側(圖4中的右側)觀看之正面視,形成 為自中心部朝左斜上方延伸的形狀。如圖6(A)所示,當彎 100135244 20 201219628 料74々的彎曲部78向朝其相反方向(即朝右斜下旬時,固 定侧之第1開口 102大致—半被可動閥體刚所阻塞。 自該狀態,彎曲管74的彎曲部78如圖6⑼所示,當自 圖6⑷的位置向順時針方向旋轉角度θι(此處 曲部78形成為左方向橫向(水平方向)時,固定側之第^ 口 ^整體對可動側之第2開口刚形成相重疊狀態。齡 之’節流閥96形成全開狀態。 進而,自該狀態’彎曲部78自圖6(A)所示位置向順時針 方向旋轉至角度θ2(此處θ2=2 5〇。),f曲部Μ呈朝右斜上方 時,固定開口 102亦維持對可動側之第2開口1〇4 成整體重®狀態。換言之,在保持節 士斗、m 卞行即机閥96成全開狀態的 方式’固定側之第i開口 1〇2與可動侧 狀被設定。 動側之幻開口刚的形 再者,該節流闊96於彎曲管74的彎曲心自圖Μ)所 讀錢轉至圖6⑼所示狀態之途中,固定侧之第】開口 1〇2整體對可動側之第2開口綱成重叠狀態。詳言之,在 可動側之第2開口 1〇4的直線部1〇4A, 1„ 1 合致於固定側之第 ::2的一對側片中其中-側片之直線部腿時,固 疋側之第1開口 1〇2全體對可動側之第2 繂。 乐2開口 104成重疊狀 隨彎曲部78的旋轉’直到可動側之第2開口1〇4 邹1〇4A’合致於固定側之第1開口 U)2的另-側片 100135244 201219628 之直線部102B為止,固定側之第丨開口 1〇2全體均維持對 可動側之第2開口 1〇4成重疊狀態。即,節流閥%維持全 開狀態。 從而,於圖6(B)所示狀態下,當導水管1〇8A的一端側連 接於彎曲管74的連接部79(參照圖4與圖8),而另一端側 則插入於出水管18的下部内且連接於洗手出水管Μ 時(參照® 2) ’於節流閥96全開狀態下,即洗手水流路94 呈最大開啟狀態下,洗手水自出口部64流出,且到達洗手 出水管18,再自出水口 19向洗手盆16流出。 另外,於圖6(C)所示狀態下,當由伸縮管而成的導水管 108B —端側連接於彎曲管74的連接部79(參照圖9),而另 編側則連接於洗手出水管18,並自出口部將洗手水導 引至洗手出水管18時,亦於節流閥96全開狀態下,洗手水 到達洗手出水管18再自出水口 19流出。 再者如圖8所不般使用導水管1〇8A、或如圖9所示般 使用導水s 1〇8Β之理由,係依沖淨水箱的種類而洗手出水 管18的位置有所不同之情形,為對應洗手出水f 的位置 差異’而為使洗手水順暢地導5丨至洗手出水管Μ中的原因 所致。 另方面虽冲淨水箱10未具有洗手出水管丨8的情形, 則將導水官不連接至洗手水的出口部64(具體為-曲管7句 而將出口部64維持開放呈朝斜下方(參照圖6(a))。於該 100135244 22 201219628 狀悲下,藉由供水閥34的開閥而流向下游側的水,則自水 箱内出水口 36及出口部64的彎曲管74前端之流出口 92 掉洛於下方,而供應至沖淨水箱1 〇。 此時’於固定侧之第1開口 102的大致一半被阻塞狀態(參 只?、圖6(A))下,來自供水管32的水經由節流閥96供應給沖 淨水箱10。因為節流閥96的流路阻力(流路94的阻力)較 大,因此其與洗手水導引至洗手出水管18的情形相同,相 同流量自出口部64供應至沖淨水箱1〇内。固定閥體98與 可動閥體100的形狀則依此方式預先設定。藉此,不管有無 洗手出水管18,繞入補充水管66中的水比率呈一定,相等 流量通過補充水管66使補充水被供應至馬桶。 具有以上構造的實施例1之進水器28,在具有洗手出水 管18的情形下,則使導水管1〇8A、1〇8B連接至洗手水的 出。卩64,將節流閥96成最大開度(將洗手水流路94成最 大開度)而將洗手水導引至洗手出水管18。另一方面,在未 具有洗手出水管18的情形’則使導水管1〇8a、i〇8b不連 接至=手水的出口部64,㈣出口部64成開放,以部分性 ί5塞節机閥96(縮小流路94的開度)’使流路阻力(流路94 的阻力)增加。藉此,具有洗手出水管18的情形、與未具有 ' 對於自出口部64的洗手水的流出均可設為相同的 =力:而可將於補充水管66中流動的水量形成為一定水 〇 聋在 It 曰,則不需要將通過補充水管66供應至馬桶的補充 100135244 23 201219628 水水量設定為較多,而可謀求節水。 另外’該進水器28係作為使流路阻力(流路94的阻力)增 加之阻力構件’因其設有管制流路94開度的節流閥96,故 以簡單操作即可使流路阻力(流路94的阻力)變化。 第1發明雖已利用上述敘述與圖式進行說明,惟本發明不 受限於實施例1’例如下述實施例亦包含於第1發明的技術 範疇内。 (1) 實施例1中’節流閥的可動閥體雖與彎曲管為一體而 進行旋轉,但亦可將可動閥體與彎曲管各自構成,而使可動 閥體單獨進行旋轉。 (2) 節流閥亦可依不同於上述形態的形態所構成。 (3) 節流閥亦可被取代而設為其他阻力構件。 (4) 阻力構件亦可以追加方式設置。 (5) 不依照旋轉動作,以部分性阻塞洗手水的流路開度亦 "5J" 〇 其次’說明第2發明的較佳形態。 第2發明的上述旋轉操作構件係螺合於上述軸部,利用旋 轉而以螺子饋進沿上述軸部移動。在該情形下,其可輕易地 且巧妙而無階段連續地調整水箱内的沖淨水水位。 作為沿轴部無階段連續地調整浮筒高度位置的手段,可先 將旋轉操作構件與軸部介由凸輪機構而安装,亦可將旋轉操 作構件的旋轉運動藉由凸輪機構遷動而轉換為沿旋轉操作 100135244 24 201219628 構件的軸部直線運動。 與:述二有防轉機構。該防轉機構係設置於上述浮筒 浮筒的上述之浮筒旋轉,並且導引沿著上述 轉操作構件的 =形下’僅以單手操作進行旋 上述防轉度位置。 的溝或突條、以及設置於上料該轴部設置 或嵌入於上述突條的凹部。涛嵌入於上述溝中的凸部 另外,具財設置於上述旋轉操作構件* 該卡蝴係具有卡止部及被;件: =構件係卡止於該卡止部,且彈性保持於二= 件的旋轉方向位置處。 ^疋轉㈣構 杜f匕禁止旋轉操作構件的自由旋轉,且對旋轉操作構 產則其可使旋轉操作構件勝過由卡止機構 產生物性卡止仙而進行_運動。 另外,其可防止於長期使用期間,旋轉操作構件被不絲音 地㈣’導致浮筒高度偏離原本位置,即沖淨水箱内的= 水滿水時之水位自所設定之水位變化。 上述卡止機構具有:作為設置於上述旋轉操作構件或上述 浮筒其卜者之上述被卡止部的凹部、以及作為設置於另二 者而嵌入於上述凹部中之上述卡止部的爪。 於上述旋獅作構件所設置的上述卡止部或上述被卡止 100135244 25 201219628 部,其可環狀配置於上述旋轉操作構件的圓周狀處。 其次,針對第2發明的進水器具體化實施例2,參照圖式 進行說明。 <實施例2 > 實施例2的沖淨水箱10係如圖1〇所示,其構成外水箱 12與内水箱14的雙層水箱構造。沖淨水箱1()於外水箱12 的上部,設有兼用外水箱12之蓋用的洗手盆16。在洗手盆 16自洗手盆16立起的形態設有洗手出水管18。洗手盆16 於底部設有排水口 20。自洗手出水管18流出的洗手水,從 該排水口 20落下至沖淨水箱1〇的内部。 沖淨水箱10於水箱壁上可旋轉地設有沖淨把手22。呈L 子狀之桿臂24自沖淨把手22起,朝向沖淨水箱 10的内方 伸出。桿臂24的前端部、與省略圖示設在沖淨水箱1〇的底 部的排水閥’利用圓珠鏈條26相連接。排水閥藉由沖淨把 手22的旋轉操作,被圓珠鏈條26向上拉而開閥。藉由排水 閥的開閥,則沖淨水箱10底部的排出口開放,且於沖淨水 箱10内滞留的沖淨水則被自排出口朝向馬桶強勢地放出。 沖淨水箱10於内部配設有進水器28。進水器主體3〇被 連接有供水管32。進水器主體3G具有供水閥34、以及於供 水閥34下游部設置的水箱内出水口 36。 進水器主體30係在水箱内出水口 36之外,另行設置的對 洗手出水管18供應洗手水的洗手側供水口(省略圖示)。洗 100]35244 26 201219628 手側供水口與洗手出水管18為利用由伸縮管構成的導水管 38所連結。 進水器28若供水閥34開啟時,則通過供水管32所輸送 的水與自水箱内出水口 36所供應給沖淨水箱1 〇内的水一併 自洗手側供水口通過導水管38被導引至洗手出水管ι8,再 自該處朝向洗手盆16流出洗手水。 進水益28係具有··利用浮力連動於沖淨水箱1 〇内之沖淨 水水位而進行昇降的浮筒40、以及連接該浮筒4〇與供水閥 34的連接臂42。連接臂42係如圖η與圖12所示具有:自 供水閥34朝下延伸且再朝大略水平方向延伸的臂部44、以 及自臂部44前端部朝下延伸出的螺桿軸部(軸部)46。浮筒 40係可調整高度地安裝於螺桿軸部46上。沖淨水箱忉係 如圖1所示,設有自底部立起的溢流管48。進水器28係設 置於進水器主體30,其具有诵矾、另冷其 一,逋過溢流官48向馬桶供應補充 水的補充水供水口 37。 /、闯所示,其俯視形狀形成矩形 狀。浮筒40係具有周壁部佩與上壁部彻之倒杯狀,下 面則開放。浮筒4〇係呈開放的下面於開始止水時(浮筒4〇 開始上升時)’形成為相對於水平方向呈斜向傾斜的形狀。 換言之’浮筒40的下面為朝& 士' 巧朝向成為連接臂42的根部之連 臂42轉動尹心的軸部43側,开± 士 逆得 一 形成逐漸朝上方傾斜的形狀。 浮筒40於内部一體地具有胃胃 圓同狀同部53。於筒部53令自 100135244 27 201219628 上方朝下插入螺桿軸部46。 進水器28係如圖13所示具有實施浮筒4〇高度調整的高 度调整轉盤(旋轉操作構件)154。高度調整轉盤154係藉由 於浮筒40上面所設置的保持部156可旋轉地被保持。該高 度調整轉盤154藉由該保持部156的保持,而沿螺桿軸部 46向上下方向與浮筒4〇 一體進行移動。 尚度調整轉盤154係如圖14所示具備有:圓形的中央部 154A、外周側的環部154B、以及將該等利用周圍方向的4 處相連結之連結肋154C。環部154B的外周面,為了可輕易 利用手抓住環部154B進行旋轉操作,設有多數個凸部158 與凹部16〇的凹凸形狀。中央部154A設有貫通軸向的母螺 紋孔162。 另一方面,螺桿軸部46的外周面設有公螺紋部164。高 度調整轉盤154於母螺紋孔162中螺合至公螺紋部164’且 組裝於螺桿軸部46上。螺桿軸部46的下端部為板狀部 166。公螺紋部164係自螺桿軸部46的上端設置到達該板狀 部166的上端。 保持部156係如圖13與圖15所示,具有自浮筒40上面 立起的一對板狀腳部168、17〇、以及連接該等的上端之板 狀連接部172的橋形狀,且一體形成於浮筒4〇上。該呈橋 形狀的保持部156於内側形成有保持凹所174。高度調整轉 盤154向圖13中的箭頭p方向插入於保持凹所174中並保 100135244 28 201219628 持。 其中一腳部168係設有沿高度調整轉盤154的外周面伸出 的彎曲狀抵觸部176。藉由抵觸部176對高度調整轉盤154 的抵接作用,高度調整轉盤154僅可自圖4中箭頭p方向插 入於保持凹所174中,且可防止自保持部156向圖中p方向 脫落。藉此,將高度調整轉盤154插入於保持部156内側的 保持凹所174而組裝時則可使組裝性變成良好。 連接部172係在中央部設有圓形的嵌合# 178。該嵌合部 178係形成有圓形插通孔18〇,而於此中插通螺桿轴部%。 換言之’嵌合部178制桿軸部46以外嵌狀態嵌合。 圍方向180°不同的2個 。對應於溝182,插通孔 螺桿軸部46係如圖14所示於周 地方處,設置朝縱向延伸的溝182 ⑽係如圖13與圖15所示,設有—對凸部184。該等凸部 184係朝徑向卡入於螺桿軸部46的溝182中。 該等溝182與凸部184係構成浮筒40對螺桿軸部46的防 轉機構。浮筒40係利用凸部184與溝182的旋轉方向卡合, 而防止對螺桿軸部46進行旋轉。但,—對凸部184係可在 溝⑻内朝向螺桿軸部46的軸向滑動。浮筒4〇係當沿螺桿 轴部46朝向上下方向移動時,藉由該等凸部m與溝182 被移動‘引,予筒40係如圖15所示於筒部μ的上端開 邛186亦„又有同樣的凸部184。該凸部⑻係如圖^⑻ 所示,卡入於螺桿軸部46的溝182中。 100135244 29 201219628 高度調整轉盤154係在插入於保持部156的保持凹所174 的狀態下螺合於螺桿軸部46。於該狀態下,高度調整轉盤 154係如圖12(A)所示,其中央部154A藉由保持部156的 板狀連接部172、與浮筒40主體的上壁部40B呈上下夾置。 若對高度調整轉盤154進行旋轉操作,使其以螺桿饋進而沿 螺桿軸部46向上下進行位置移動,則與其一體浮筒40沿螺 桿軸部46向上下進行位置變化。 為防止高度調整轉盤154的自由旋轉,在跨越高度調整轉 盤154與浮筒40(詳言之係浮筒40的保持部156)設置有卡 止機構。 如圖13與圖14所示,高度調整轉盤154係在環部154B 的上面,設有作為該卡止機構之被卡止部用的凹部188。另 一方面,如圖13與圖15所示,保持部156係於連接部172 設有彈性片190。彈性片190係在前端設有作為卡止部用之 爪192。爪192進入凹部188中,構成凹部188與爪192相 彈性卡止狀態。凹部188係在高度調整轉盤154的圓周上橫 跨整圈呈環狀配置。 爪192係僅在將彈性跨越凹部188與凹部188間之脊部時 所必要的旋轉操作力,施加給高度調整轉盤154時,高度調 整轉盤154才可圍繞螺桿軸部46周圍進行旋轉。在未將該 種操作力施加給高度調整轉盤154下,則高度調整轉盤154 係依據爪192與凹部188間的彈性卡止,而無法圍繞螺桿軸 100135244 30 201219628 部46的周圍進行旋轉。 換言之,進水器28經長期間使用後,不會有因施加於浮 筒40的浮力等,導致高度調整轉盤154因螺桿的作用而自 然旋轉,而造成高度調整轉盤154(即浮筒4〇)的位置產生偏 離於原本位置的情況。 進水器28的浮筒40之高度調整機構,係若對高度調整轉 盤154施加旋轉操作力,而反抗爪192與凹部188的彈性卡 止作用,使高度調整轉盤154進行旋轉日夺,高度調整轉盤 154對螺桿轴部46的螺合位置則朝向上下方向變化,並1 浮筒40位置亦與高度調整轉盤154成一 聪移動,而可調整 浮筒4〇的高度位置。藉此’其可調整向沖淨水箱ι〇進行供 水時的滿水位水量,即可調整水位。 因汗40的下面呈開放狀,且形成傾 au ^ 斜於水平方向的形 狀’故其可獲得如下述優點。圖17所 丁係為說明此項優點 的比較例’該比較例中,雖浮筒40X下面炎’ 4開放之點相同, 但其下面開始止水時則為向水平方向。 該比較例的浮筒40X係如圖17(1)所示,+ 在開始止水時, 僅產生剛好為浮筒40X大小份量的浮力。 然而,隨水面的 上升’如圖17(Π)所示’連接臂42成傾斜,並且浮筒概 則成傾斜㈣。藉此’浮筒概㈣,中虛線所示部分的 空氣會洩漏,水則侵入於該部分中,而導絲祉一 & … 等致對洋筒40Χ的 浮力減少。其結果,會產生止水動作不穩定的問題。 100135244 201219628 相對於此,浮筒40係如圖16(1)所示,於開始止水時,作 用於浮筒40的浮力為較少於浮筒40大小份量的浮力。然 而,開始止水後,浮筒40會與連接臂42 —起傾斜,而且當 呈最終止水狀態時,開放的下面則呈朝向水平方向的狀態 (下面的傾斜形狀係依此而決定)。因此,浮筒40内部的空 氣不會茂漏,而可獲得止水動作穩定的優點(從開始止水時 起至到達止水時,對浮筒40所施加的浮力均不會有變化)。 具有以上構造的實施例2之進水器28,若對高度調整轉 盤154進行旋轉操作,高度調整轉盤154則隨浮筒40而沿 螺桿軸部46進行移動,如此則可調整浮筒40的高度。因此, 其不需要為調整浮筒40的高度而使浮筒40旋轉,而於浮筒 40的周圍不需要確保為該旋轉用的空間。從而,其可提高 浮筒40的周邊零件之配置佈局自由度,且可謀求沖淨水箱 10進一步的小型化。又,其因不需要為浮筒40的高度調整 而使浮筒40旋轉,故亦可獲得提高浮筒40本身的形狀自由 度之優點。 另外,該進水器28係利用高度調整轉盤154的旋轉,可 使其沿連接臂42的螺桿軸部46連續地進行位置移動。換言 之,可沿螺桿軸部46無階段連續地調整浮筒40的高度位 置。因此,其可輕易地巧妙且無階段連續地調整沖淨水箱 10内的沖淨水水位。 另外,該進水器28因設有阻止浮筒40旋轉,並且導引浮 100135244 32 201219628 筒40沿螺桿轴部46進行移動的防轉機構,故作業者僅以單 手操作即可進行高度調整轉盤154的旋轉操作,而可輕易地 調整浮筒40的高度位置。 再者,該進水器28係可防止於長期使用期間,高度調整 轉盤154被不經意地旋轉,而導致使浮筒4〇的高度位置偏 離開原本位置的情況發生。即,其可防止沖淨水箱1〇内的 沖淨水在滿水時的水位,自所設定水位偏離的情況。 第2發明係利用上述敘述與圖式進行說明,惟本發明並不 僅受限於實施例2,例如下述實施例亦包含於第2發明的技 術範轉内。 (1) 於螺桿軸部46設置的溝182被取代為突條,且於浮筒 40側設置的凸部184被取代為使卡入於該突條的凹部,如 此構成之防轉機構亦可。 (2) 於高度調整轉盤154側設置的凹部188被取代為爪, 另方面,於浮筒40侧設置使該爪能進入的凹部,藉此構 成彈性卡止高度調整轉盤154的旋轉方向的卡止機構,如此 亦可。 (3) 以除了高度調整轉盤154之外的其他各種形態來構成 旋轉操作構件亦可。 其次’ t兒明第3發明的較佳形態。 第3發明的上述流動水出水口係配置於使上述流動水沿 上述連接臂流下的位置處。在該情形下,因自流動水出水口 100135244 33 201219628 ==街流下’故其可防止流動水強勢地落下 相内储畜水,而可防止產生較大的著水聲。 可設置沿上述連接臂流下的流動水在上述水承接構件的 方進仃渥水,並朝向上述水承接構件落下的 瀝水部。在該 情形下,沿連接臂流下的流動水_水_良好地落下於水 承接構件側’藉由水承接構件則可導Μ延遲槽外部。 ”人針對第3發明馬桶沖淨水箱裝置的具體化實施例 3 ’參照圖式進行說明。 <實施例3 > 實施例3的馬桶沖淨水箱|£11係如目18所示,具備有 冲淨水|目10。沖淨水箱1〇構成(陶器製或樹脂製)外水箱 12、與成為其内側蓄水水箱的樹脂製内水箱14之雙層水箱 構造。沖淨水箱10係於外水箱12的上部,設有兼用外水箱 12之蓋用的洗手盆16。洗手盆16係自洗手盆16立起的形 態設有洗手出水管18。洗手盆16於底部設有排水口。自洗 手出水管18流出的洗手水,其由該排水口落下至沖淨水箱 10的内部。 沖淨水箱10於内部配設有進水器28。進水器28設有進 水器主體30。進水器主體3〇係安裝於内水箱14中。對進 水益主體3 0連接有供水管3 2。通過供水管3 2所供應的水 藉由進水器28的後述供水閥34之開閥,可對沖淨水箱1〇 内部進行供水’且利用供水閥34的閉闕而停止供水。 100135244 34 201219628 進水益28具有連動於後述延遲槽400内部的沖淨水W2 水位而進行昇降的浮筒40、以及連接該浮筒4〇與供水閥34 的連接臂42(浮筒40與連接臂42均為樹脂製”又,連接臂 42係如圖20所示具有:臂部44、以及自該前端朝下延伸的 螺桿軸部46。浮筒40被組裝於螺桿軸部46。於中心部設有 母螺紋孔的高度調整轉盤154,係由在浮筒4〇上面所設置 之保持部156可旋轉地保持。高度調整轉盤154的母螺紋孔 係螺合於螺桿轴部46的公螺紋部。浮筒4〇係藉由高度調整 轉盤154進行旋轉操作,而可沿螺桿軸部46上下調整其位 置。 沖淨水箱10係於壁部可旋轉地設有沖淨把手22。呈L字 狀的桿臂24係於沖淨水箱1 〇内部,連動於沖淨把手進 打轉動。桿臂24前端介由圓珠鏈條26連結於對沖淨水箱 ίο底部的排出口 13進行開閉之排水閥15。排水閥15係藉 由沖淨把手22的旋轉操作而自閉閥狀態進行開閥。藉此, 在沖淨水箱10内部所滞留的沖淨水W1則被自沖淨水箱1〇 底部的排出口 13朝向馬桶強勢地放出。沖淨水箱1〇係如圖 18所示’設有自底部立起的溢流管48。 進水器主體3G的主體31係如圖19所示,整體為筒狀。 主體31係在左端部連接至供水管32 ^又,主體η係在右 端部以外嵌狀態連接至連接管62之左端部。該連接管Μ 係與主體31為另外之個體,且構成為進水器主體邛其中一 100135244 35 201219628 部分。 連接管62設有:將來自主體31的水流入至沖淨水箱1〇(具 體係内水箱14)内的出水口(水箱内出水口)36、為朝向洗手 出水管18進行供應的洗手用供水口(圖示省略)、以及通過 溢流管48向馬桶供應補充水的供水口 37。 洗手用供水口係利用省略圖示之伸縮管連接於洗手出水 官18。又,供水口 37係如圖18所示,連接於支管(tube)7〇 自主體31輸送的水通過伸縮管供應至洗手出水管i8,且益 過支管70自供水口 37供應至溢流管48的内部。 進水器主體30係如圖19所示,設有將水路51連通或讀 通阻斷的供水閥34。供水閥34係如圖21所示,藉由隨浮 筒40的昇降而連接f 42於軸部43周圍進行轉動如此而积 閥與閉閥。具體而言,藉由浮筒4〇的上升,連接臂42則 軸。M3周圍朝順時針方向轉動,則供水闊關閉。又,着 由遺浮筒4〇的下降’連接臂42圍繞軸部43周圍進行逆的 針方向轉動,則供水閥34開啟。 _ 、火闊34開啟’水路51則成連通狀態(即開放狀態) ^自七、水S 32輸送的水則自主體31流人至連接管62 而且,自連接營 2的水箱内出水口 36朝向沖淨水箱1〇户 流入水。又,通過、本 、 ’手用七、水口向洗手出水管18進行供水 水口 37且通過溢流管48向馬桶進行供水。 供請34為问模式且導引式之閥。供水閥34的主閥體 100135244 36 201219628 52係如圖21所示,由隔膜閥體所構成。主閥體52係由: 諸如橡膠等彈性材料構成的隔膜55、與較其更硬質(此處為 樹脂製)隔膜架57(diaphram holder)所形成。 隔膜55的外周部59較厚。隔膜55的外周部59藉由主體 31、與呈杯狀的隔膜押件73由上下夾持。藉此,隔膜55 的外周部59則被固定於主體31上。隔膜55的外周部59 同時具有密封部作用。換言之,隔膜55的外周部59具有水 密地阻斷水路51與外部而密封之功用。 呈杯狀的隔膜押件73對主體31上一體構成的圓筒部 75,自下側朝上以内嵌狀態嵌入。藉由固定螺帽81内周面 的母螺紋83對圓筒部75外周面的公螺紋77進行螺合,隔 膜押件73則被固定於圓筒部75(主體31)上。 藉由將固定螺帽81朝上旋入,以内嵌狀態嵌入於圓筒部 75的隔膜押件73則被朝上上推。藉此,隔膜押件73則與 主體31互動,將隔膜55的外周部59以既定螺距呈彈性壓 縮狀態緊固。 呈杯狀的隔膜押件73亦具有背壓室形成構件的功用。換 言之,在由隔膜閥體所構成之主閥體52的下側形成背壓室 54。背壓室54係使内部壓力對主閥體52作用為朝上的閉閥 方向之按壓力。 另一方面,主閥體52係於自中心偏離之偏心位置處,設 有連通水路51之初次側與背壓室54且貫通的導入小孔 100135244 37 201219628 85。介由導入小孔85,水路51的初次側之水則流入至背壓 室54。藉由初次側的水流入至背壓室54内,則可增加背壓 室54的壓力。 另一方面,隔膜押件73係在其中心部設有貫通隔膜押件 73當作排水水路用的導引孔56。介由導引孔56流出背壓室 54内的水。藉由背壓室54内的水流出,則可減少背壓室54 的壓力。 連接臂42係在臂部44的基端部設有導引閥體60。導引 閥體60的密封部61係藉由朝上配座於導引閥座58,而封 鎖導引孔56。 供水閥34係具有如下述作用。於供水閥34呈閉閥狀態(參 照圖21)下,若利用浮筒40的下降,連接臂42圍繞轴部43 進行轉動,則導引閥體60自導引閥座58朝下遠離而開閥。 藉此,背壓室54内的水通過導引孔56而流出,如此可減少 背壓室54的壓力。而且,藉由水路51的初次側之壓力較大 於背壓室54的壓力,主閥體52則自閉閥狀態朝下遠離而開 閥。 藉由主閥體52的開閥,水路51則呈連通狀態,而從主體 31朝連接管62及供水口 37流入水。 另一方面,連動於浮筒40的上升,連接臂42圍繞軸部 43周圍進行順時針方向之轉動運動。於浮筒40到達上升端 時,換言之沖淨水箱1 〇内的水成為所設定之滿水狀態時, 100135244 38 201219628 導引閥體60的密封部61則朝上配座於導引閥座58而閉 閥。藉此,停止自背壓室54流出水。 藉此,藉由通過導入小孔85並朝背壓室54流入水,背壓 室54的壓力則上升。而且,利用該壓力上升,則由隔膜闕 構成的主閥體52朝上配座於主閥座50而閉閥。藉此,水路 51之水的流動停止,而停止向沖淨水箱10與洗手出水管18 的供水。 供水閥34係如圖21所示,具有插入於導入小孔85内而 >月潔導入小孔85的清潔梢(cleaning pin)97。清潔梢97沿續 於螺旋彈簧95的下端而呈朝上立起形態,且—體形成於螺 旋彈簧95上。 流動閥裝置500係如圖19所示,具有流動水路5〇2與圓 筒狀之筒壁504;該流動水路502係較水路51的供水閥34 更靠上游侧的初次側支流而延伸出;而該筒壁504係供在内 側形成流動水路502用。流動水路502具有支流口 5〇8(夂 照圖22)。筒壁5〇4係以朝上立起形態一體形成於進水器主 體30(詳言之係主體31)上。 使自筒壁504流出流動水的開口 506係如圖22所示,於 較筒壁504的根部更靠既定距離上側的位置處,貫通筒壁 5〇4成橫向(朝徑向外向)設置。被導引至流動水路%】中的 初次側之水,藉由後述流動閥510的開閥,自開口 5〇6以小 量連續地流出至筒壁504外。自開口 5〇6流出的流動水,則 100135244 39 201219628 自後述流動水出水口 150流出至外部,而供應至沖淨水箱 1〇内。所供應的流動水係通過沖淨水箱H)内的溢流管48 而連續地供應至馬桶。 筒壁504係内部設有開 ώ 閉/爪動水路502的流動閥510。流 動閥510具有:圓筒形狀 3, A. c <閥外相512、與軸狀之閥體514。 ㈣4的内部以嵌合狀態被固定。又,閥外 I:外””。咖向(上下方向)可滑動地嵌合於閥體514。 閥外相512利用固定失具 壁5〇4上。 536朝車由向(上下方向)被固定於筒 呈軸狀的閥體514係具右少τ ^ 、有在下為側設置的閥部522、與在 上蜢側设置的連結部524車姓 甘 别的傳動構件542之前:;"524係'連結於後述操作部 部)。下端側的閱部522礙上^^言之係内境線544的前端 53〇其橫截面形狀呈十字狀^側的連結部524間之中間部 下端側的閥部522係彀有 係藉由使密封構件5財衣进封構件526。閥部切 周側之閥座528而閉閥。另—:5於形成在閥外箱512的内 密封構件526自閥座528朝面’藉由闕體514朝下移動, 下,流動水路观被開敌,^離而開闊。於該開閥狀態 動水路观中的水(流動坏:51的自初次側流入至流 外。 、]自開口 506流出至筒壁5〇4 所示, 傳動構件542係如圖19 100135244 設有可撓性且於軸向具有 201219628 非伸縮性的内纜線(内構件)544、以及將其進行移動導引的 外觀線(外支管)546。於外纜線546内部可滑動地插通著内 纜線544。 藉由内纜線544被朝右向推,閥體514則朝下移動而開 闊。又’相反地,藉由内纜線544被朝左向拉,閥體514 則朝上移動而閉閥。但,如有必要謀求防止凍結時,閥體 514則維持在開閥狀態。藉此,水路51的初次側之水以小 里連績地在流動水路5〇2中流動,而自開口 5〇6流出至筒壁 504 外。 傳動構件542係右端側(前端側)插入於曲管576的内部。 傳動構件542係使前端部藉由曲管576以朝下被保持狀態, 利用組裝螺帽578而被組裝於流動閥51〇上。 5羊吕之,如圖22所示,組裝螺帽578的母螺紋部被旋入 於抓動闕510的閥外箱之公螺紋部。藉此,承接外纔線 546下端的承接構件584之凸緣部、與曲管5%的凸緣部, 由組裝螺帽578白勺朝内之凸緣部撕與閥外箱512從上下挟 持。藉此,承接構件584與曲管576的下端部則被固定,並 且外徵、線546的下端被固定於閥外箱5Π。又,在内壤線544 上固定的端構件588,其被卡合於流動閥51G的閥體514之 卡合凹部590。藉此,内規線544的前端部則可以—體移動 地被固定連結在閥體514上。 組褒螺帽578係在垂直朝下並經向遠離橫向之開口鄕 100)35244 201219628 遠離徑向的位置處,相對向於開口 506,一體設有自外側覆 蓋開口 506的圓筒狀蓋體壁592。蓋體壁592係較開口 506 更朝下側延伸,並在與筒壁504之間形成朝下的流動水出水 口 550。 自開口 506流出的流動水在抵觸蓋體壁592後便成為朝下 的流動,再自流動水出水口 550朝下流出。自流動水出水口 550流出的流動水大部分因來自蓋體壁592的反作用力而被 推回至筒壁504的外面側,再沿筒壁504的外面朝下方流 下。當然其中一部分並未沿筒壁504的外面,而是自流動水 出水口 550直接落下的情形。 為將進水器28的連接臂42固定於進水器主體30上的固 定螺帽81,其係比組裝螺帽578的蓋體壁592更大徑。因 此,固定螺帽81突出至較蓋體壁592更靠徑向外方。因而, 固定螺帽81具有承接自蓋體壁592與筒壁504間的朝下流 動水出水口 550未沿筒壁504而直接落下之水的承水部之功 用。又,主體31上一體形成的圓筒部75亦具有當作承水部 其中一部分的功用。因此,自流動水出水口 550流出的流動 水幾乎整體經由固定螺帽81沿連接臂42的方式流下。 具體而言,從進水器主體30相對於筒壁504的對向側之 下側位置延伸出連接臂42,該螺桿軸部46與浮筒40進入 沖淨水中。因此,沿筒壁504外面流下的水、以及未沿筒壁 504外面而直接朝下落下的其中一部分之水,幾乎均沿進水 100135244 42 201219628 器28的連接臂42進一步流下。 馬桶沖淨水箱裝置1丨係如圖18所示,容量較小於内水箱 Μ,並將成為供水延遲機構4〇2主要構件的延遲槽4〇0設置 • 於内水箱14内部。延遲槽400係以其上端稍為低於内水箱 • 14内部滿水狀態的沖淨水W1上面水位之方式而設置。 延遲槽400係如圖23所示,一體設有朝上延伸出的一對 臂406 °臂406於上端形成曲折形狀的固定部408。延遲槽 400在内水箱14前後(圖19中,紙面的直角方向)之壁部上 端面卡止固定部408的狀態,利用固定孔410而被固定於内 水I目14上。延遲槽4〇〇於外面設有縱向延伸的一對凹狀部 412 °凹狀部412於上端自凹狀部412底面突出的狀態設置 卡止部414。卡止部414卡止於後述爪部426。 延遲槽400係如圖18所示,設有貫通底部415的小孔 404 °延遲槽400内部的沖淨水W2係通過小孔404,流出 至延遲槽400外側且内水箱14内。 小孔404係以相較於排水閥15開閥後的内水箱14内之沖 淨水wi之水位降低,使延遲槽4〇〇内的沖淨水W2水位降 低蔓忮之方式設定其大小。具體而言,利用排水閥15的開 閥,使内水箱14内的沖淨水W1被放出,於排水閥15閉閥 的時期使供水閥34開閥(呈全開狀態),而進水器π以最大 供水量開始供水的方式來設定其大小。 浮筒40係配合延遲槽_内部的水位降低,使供水闕料 100135244 43 201219628 遲槽400内。 s亥延遲槽400 開閥,並自延遲槽400上面的開放部插入於延 由於此一關係’流動水出水口 5 5 0則被配置於 的上方。 财出水° 550流出的流動水係沿連接臂42而流 ,》 — "iu ϊ mv l jyy 该流動水則直接進入延遲槽4〇〇内。 因此’沿連接臂42流下的流動水若直接流入至浮筒4〇, 力水則直拉彳隹λ m痛/1 nn h 因此,馬桶沖淨水箱裝置㈣藉由在延遲槽4〇〇的上側 ^裝水承接構件416,而可防止自流動水出水口 55〇流出的 流動水直接進入延遲槽楊内。水承接構件416係如圖B 斤广、/、有彳員斜形狀之底部418、沿底部418外周緣立起的 -對側壁部420、以及後壁部422。水承接構件416形成為 水槽狀,而後壁部422對向側的面開放。 另外,水承接構件416係在其中一側壁部42〇上設有供插 通連接臂42用的缺口部424。再者,水承接構件416係以 前端與後端朝下突出狀態設置具有朝下突出之彈性的爪部 426。水承接構件416藉由該等爪部426自上方朝下卡止於 延遲槽400的卡止部414,而在載置狀態被安裝於延遲槽4〇〇 上面。 έ玄水承接構件416係在設有缺口部424之一側的側壁部 420 ’於其對向側之側壁部420外面設置凹部428。該凹部 428係為迴避與延遲槽400的臂406造成干涉而設。 連接臂42係如圖22所示,於水承接構件416的上側將瀝 100135244 201219628 水部430固定於臂部44 44上。 。邊水部430係一體形成於臂部 瀝水部430係如圖24所厂 成為板狀。〉歷水部43〇佐卩包圍臂部44周圍的形狀形 朝垂直上方立起的立起部44更靠上側部分形成幾乎 接構件416中央侧斜向、《=2梅成朝水承 馬桶沖淨水箱裝置u自、^ 水,不管是否沿進水器2 =水出水口 550流出的流動 f益28的連接臂42流下, 的途中將流動水利用瀝水 在“ 44 構件仙。該流動水Γ 落下於水承接 ^瓜動水係利用水承接構件416被 延遲槽400外。藉此,馬桶 ^水相裝置11可確實防止 ▲動水出水口 550流出的流動水進入至延遲槽彻内。 具體而言,自流動水出水口 55〇流出的流動水係經由 螺帽81沿連接臂42的臂部料流動。然而,因為臂部料 設有遞水部430,故沿臂部44外面流動的流動水被遞水部 擔堰後,再落下於水承接構件416^水承接構件 416中的流動水,藉由底部418的傾斜而被順暢地料至延 遲槽彻外側且内水箱14内。如此,流動水則被阻止 至延遲槽400内。 ^水閥15 _後,藉由來自進水器㈣供水, Μ内部的沖淨水W1之水位 狀態,内水箱14内的沖淨水W1^ 近滿水 乎水W1則超越延遲槽400的上端 100135244 45 201219628 並流入延遲槽400内,而被供應至延遲槽4〇〇内。 具有以上構造的實施例3之馬桶沖淨水箱裝置n,其可 防止來自流動水出水口 55〇的流動水進入延遲槽4〇〇内,故 其可使供水延遲機構術正常地動作,且可將供水闊⑷勺 開閥(即水箱内供水的時期)維持於適當時序。 另外,馬桶沖淨水箱裝置11亦可不必使流動水出水口 550 與延遲槽400勉強地在強制於水平方向上呈錯開位置而配 置。當欲使流動水沿進水器28的連接臂42落下至水箱内 時’可迴避流動水強勢地落下至水箱内之儲蓄水,因而產生 較大著水聲的問題。另—方面,於該情形下,可使流動水出 水口 550位於延遲槽4〇〇的正上方、或較延遲槽棚更靠上 方向的位置處。因此,馬桶沖淨水箱裝置η ^㈣將"動水出水口 550與延遲槽400勉強地在水平方 ==置’亦可同時實現防止因流動水而產生較大 耳以及供水延遲機構術的正常動作。 動==::水箱裝置11係可使沿連接臂42流下的流 再件416導彡丨至延遲槽彻外部。 =發_、_上述敘述與圖式進行說明 僅限疋於實施们,例如下述實_ 2月並不 術範疇内。 匕3於第3發明的技 例如作為水承 ⑴水承接構件亦可由其他各種形狀構成 100135244 46 201219628 接構件可使用管狀物,使來自流動水出水口流出的流動水直 接於管狀的水承接構件内部流通,並導弓丨至延遲槽外部且内 水箱内。 (2)流動水出水口亦可具有其他各種形態。 其次’針對第4發明馬桶沖淨水箱裝置的具體化實施例4 參照圖式進行說明。 <實施例4> 實施例4的馬桶沖淨水箱裝置係如圖25所示,使來自流 動水出水口 550的流動水直接落下於内水箱14内,另一方 面’使供水延遲機構402的延遲槽400相對於流動水出水口 550,在水平方向位置呈錯開配置。其他構造則均與實施例 3同樣,對同一構件被賦予同一元件符號,而省略其詳細說 明。 該馬桶沖淨水箱裝置亦可防止來自流動水出水口 550的 流動水流入至供水延遲機構4〇2的延遲槽4〇〇内。因此,其 可防止因流動水流入至延遲槽400内而導致供水延遲機構 402的動作未正確實施所設定動作之情形發生。 第4發明雖已利用上述敘述與圖式進行說明,惟本發明並 不僅文限於實施例4 ’在不脫離其主旨的範嘴内,其可作追 加各種變更的形態。 【圖式簡單說明】 圖1係實施例1的進水器與沖淨水箱内部構造圖。 100135244 47 201219628 圖2係圖1的進水器與洗手出水管之連接部分圖。 圖3係具有實施例i之進水器的沖淨水箱部分剖視圖。 圖4係實施例1的進水器中,洗手水出口部與周邊部的分 解立體示意圖。 圖5係實施例1的進水器之洗手水出口部剖視圖。 圖6係實施例1的進水器之節流閥動作說明圖。 圖7係實施例ί的進水器,使用於未設有洗手出水管之水 箱時的說明圖。 圖8係實施例1的進水器, 時的說明圖。 使用於設有洗手&水管之 8所示位置不同處 圖9係實施例1的進水器,使用於在圖 設有洗手出水管的水箱時之說明圖。 圖 圖 10係具有實施例2之進水器 11係實施例2的進水器圖。 的沖淨水箱部分剖視圖 要部之部分剖視圖。 之而度調整機構要部圖 調整轉盤與螺桿軸部予 以分離 圖12係實施例2的進水器 圖13係實施例2的進水器 圖14係將實施例2的高度 狀態的立體示意圖。 圖15係實施例2的浮筒圖。 圖16係實施例2的浮筒之優點說明圖。 圖17係比較例的浮筒之動作說明圖。 圖18係實施例3的馬桶沖淨水難置圖 100135244 48 201219628 圖19係實施例3的進水器、流動閥、供水延遲機構及水 承接構件圖。 圖20係圖19依不同於圖19的方向所示圖。 圖21係實施例3的供水閥與周邊部之放夫圖。 圖22係實施例3的瀝水構件,及流動閥、流動水出水口 等之圖。 圖23係實施例3的水承接構件、與供水延遲機構之延遲 槽圖。 圖24係圖23的瀝水構件安裝狀態、與周邊部圖。 圖25係實施例4的馬桶沖淨水箱裝置要部圖。 圖26係習知進水器與沖淨水箱内部構造圖。 圖27係S知6又有供水延遲機構的馬桶沖淨水箱裝置圖。 【主要元件符號說明】 10 沖淨水箱 11 馬桶沖淨水箱裝置 12 外水箱 13 排出口 14 内水箱 15 排水闕 16 洗手盆 18 洗手出水管(洗手出水部) 18 Α 上部 100135244 49 201219628 18B 下部 20 排水口 21 公螺紋部 22 沖淨把手 23 螺帽 24 桿臂 26 圓珠键條 28 進水器 30 進水器主體 31 主體 32 供水管 34 供水閥 36 水箱内出水口 37 補充水供水口 38 導水管 40 浮筒 40A 周壁部 40B 上壁部 40X 浮筒 42 連接臂 44 臂部 46 螺桿軸部(軸部) 100135244 50 201219628 48 溢流管 50 主閥座 51 水路 52 主閥體 53 筒部 54 背壓室 55 隔膜 56 導引孔 57 隔膜架 58 導引閥座 59 外周部 60 導引閥體 61 密封部 62 連接管 64 出口部 66 補充水管 68 下游部 70 支管 71 連接構件 72 固定部 73 隔膜押件 74 彎曲管 100135244 51 201219628 75 圓筒部 76 母管部 77 公螺紋 78 彎曲部 79 連接部 80 防脫夾具 81 固定螺帽 82 0形環 84 基部 85 導入小孔 86 彈性臂 90 環狀溝 92 流出口 94 流路 95 螺旋彈簧 96 節流閥(阻力構件) 97 清潔插鎖 98 固定閥體 100 可動閥體 102 第1開口 102 A 直線部 102B 直線部 100135244 52 201219628 104 第2開口 104A 直線部 106 伸縮部 108A 導水管 110 沖淨水箱 154 高度調整轉盤(旋轉操作構件) 154A 中央部 154B 環部 156 保持部 158 凸部 160 凹部 162 母螺紋孔 164 公螺紋部 166 板狀部 168 、 170 腳部 172 連結部 174 保持凹所 176 抵觸部 178 嵌合部 180 插通孔 182 溝 184 凸部 100135244 53 201219628 186 開口部 188 凹部 190 彈性片 192 爪 200 沖淨水箱 202 外水箱 204 内水箱 206 洗手盆 208 洗手出水管 210 排水口 212 沖淨把手 214 桿臂 216 排水閥 218 鏈條 220 進水器 222 進水器主體 224 浮筒 226 連接臂 228 出水口 230 出口部 232 導水管 300 馬桶沖淨水箱裝置 100135244 54 201219628 302 沖淨水箱 304 進水器 306 供水口 308 浮筒 310 連接臂 312 供水延遲機構 314 延遲槽 316 小孔 318 排出口 320 排水閥 400 延遲槽 402 供水延遲機構 404 小孔 406 臂 408 固定部 410 固定孔 412 凹狀部 414 卡止部 415 底部 416 水承接構件 418 底部 420 侧壁部 100135244 55 201219628 422 後壁部 424 缺口部 426 爪部 428 凹部 430 瀝水部 432 立起部 434 傾斜部 500 流動閥裝置 502 流動水路 504 筒壁 506 開口 508 支流口 510 流動閥 512 閥外箱 514 閥體 522 閥部 524 連結部 526 密封構件 528 閥座 530 中間部 536 固定夾具 538 操作部 100135244 56 201219628 542 傳動構件 544 内纜線 546 外鐵線 550 流動水出水口 576 曲管 578 組裝螺帽 584 承接構件 588 端構件 590 卡合凹部 592 蓋體壁 W1 沖淨水 W2 沖淨水 100135244 57100135244 17 201219628 58. The main valve body 52 includes a diaphragm valve that blocks and opens the water passage 51 by abutting and disengaging the main valve seat 50. The back pressure chamber 54 is formed on the lower side of the main valve body 52, and the main valve body 52 is pressed against the upper valve closing direction. The introduction small hole is provided through the main valve body 52, and communicates with the primary side of the water passage 51 and the back pressure chamber 54. The introduction orifice introduces the water on the primary side into the back pressure chamber 54, and the pressure of the back pressure chamber 54 can be increased. The guide hole 56 is connected to the back pressure chamber 54. The pilot hole 56 removes water from the back pressure chamber 54, and the pressure of the back pressure chamber 54 can be reduced. The water supply valve 34 operates as follows. By the pontoon 40 descending, the pilot valve body 60 provided at the base end portion of the arm portion 44 is guided away from the pilot valve seat 58, and the guide hole 56 is opened. Thus, the pressure of the back pressure chamber 54 is reduced, and the main valve body 52 is opened by the water supply pressure of the primary side of the autonomous valve seat 50 toward the lower side in the drawing, and the water passage 51 is opened. Due to the opening of the water passage 51, the water sent through the water supply pipe 32 is sent to the water outlet port 3 of the downstream side through the water supply valve 34, and flows out therefrom into the flush water tank 10. On the other hand, when the flushing water is in a full water state by supplying water into the flushing water tank 10, the pilot valve body 60 can be seated on the pilot valve seat 58 by the rise of the float 40. The guide hole 56 is closed. Thus, the pressure of the back pressure chamber 54 rises, the pressure of the back pressure chamber 54 becomes higher than the water supply pressure of the primary side of the water passage 51, and the main valve body 52 is closed, blocking the water passage 51 and stopping the water discharge from the water outlet 36 of the water tank. The water inlet 28 is provided with a connecting pipe 62 connected to the water inlet main body 30 as shown in FIG. The water outlet 36 in the water tank is provided in the connecting pipe 62. The connecting pipe 100135244 18 201219628 ' is provided with a hand washing water outlet portion 64 for allowing the hand washing water to flow out to the hand washing hand outlet portion 64 as shown in Figs. 4, 5 and 7(B). It is placed at the downstream of the water supply valve 34. The supplementary water camp __ s which supplies the supplementary water toward the toilet is shown in Fig. 1 and Fig. 3, which is γ by the outlet portion 64 of the connecting pipe 62. <The downstream portion 68 is constituted by a branch pipe connected to it. The front end portion of the downstream portion is bent at a right angle downward, and the branch pipe % is connected to the downstream portion 68 through the connection member installed at the space. The replenishing water pipe 66 is closed to the auxiliary pipe 34, and the supplementary water flows into the overflow pipe 48' and supplies the supplementary water to the toilet through the overflow pipe 48. The first hand Κ exit σρ64 has a connecting pipe 62 as shown in FIG. The mosquito tube portion 72 that protrudes in the direction perpendicular to the tube axis direction and the curved tube 74 that serves as the rotating portion: the solid portion 72 is a male tube portion as a whole. On the other hand, the bending tube % has a mother pipe portion 76 and a curved portion 78 bent at a right angle f. Become a solid part of the public management department. The crucible 72 is inserted into the parent tube portion %. The female pipe portion % is in the (four) off state with the retaining portion W by the retaining portion W, and is rotatable in a watertight state by the ring-shaped ring 82. The detachment prevention jig 80 has a base portion 84 and a pair of arc-shaped elastic arms 86 extending therefrom as shown in Fig. 4 . The retaining clip 80 is inserted into the inside of the elastic arm % side by the opening 88 (see Fig. 5) of the female tube portion 76 of the curved tube 74. Further, the pair of elastic arms 86 are elastically fitted to the annular groove 90 on the side of the fixing portion 72, thereby preventing the fixing portion 72 of the male pipe portion and the main pipe portion 76 of the bending of the pipe 100) 35244 201219628 pipe 74. Slip off. The material guide 74 rotates the fixed portion 72 by the female pipe portion 76, and the pipe bend I5 performs a rotational movement in the vertical direction. The curved portion 78 is as shown in Fig. *, and a hand washing water outlet 92 is provided on the front end side. The front end portion of the curved portion 78. There are connections.卩79. The connecting portion 79 is connected to one end side of the water conduit 108 of the telescopic tube having the extension (10). The hand washing water outlet portion 64 is provided with a throttle valve 96. The throttle valve 96 serves as a resistance member for increasing the flow path resistance (resistance of the flow path 94) by partially blocking the flow path 94 of the hand washing water (see Fig. 5). The throttle valve % is composed of a fixed valve body 98 and a movable valve body (10). The fixed valve body 98 is formed at the end of the fixing portion. The movable movable body 1 is opposed to the fixing portion 72 in the axial direction of the fixing portion 72, and is formed on the bending tube %. As shown in Fig. 4, the fixed body 98 has a first opening 102 on the fixed side for water passage. In another aspect, the movable valve body 1 has a second opening 1〇4 on the movable side for water flow. The second opening 104 on the fixed side has a substantially rectangular shape in plan view. On the other hand, the second opening 104 on the movable side has a D shape in plan view. Next, the first opening 102 on the fixed side and the second side on the movable side The relationship between the openings 104 will be described. The first opening 102 on the fixed side is formed as a front view from the right side (the right side in FIG. 4) of the front end surface of the fixing portion 72 as shown in FIG. 4 and FIG. The shape of the center portion extending obliquely upward to the left. As shown in Fig. 6(A), when the curved portion 78 of the bend 100135244 20 201219628 is turned in the opposite direction (i.e., when it is obliquely to the right, the first opening of the fixed side) 102 roughly - the half is blocked by the movable valve body. From this state, the curved portion 78 of the curved tube 74 is as As shown in Fig. 6 (9), when the angle from the position of Fig. 6 (4) is rotated clockwise by the angle θ (where the curved portion 78 is formed in the horizontal direction in the left direction (horizontal direction), the second opening of the fixed side is the second opening of the movable side. The overlapping state is formed. The throttle valve 96 of the age is in a fully open state. Further, from this state, the curved portion 78 is rotated clockwise from the position shown in Fig. 6(A) to the angle θ2 (where θ2 = 2 5 〇) When the f-curved portion is obliquely upward to the right, the fixed opening 102 also maintains the overall opening of the second opening 1〇4 of the movable side. In other words, while maintaining the priestly bucket, m is the immediate valve 96. In the fully open state, the i-th opening 1〇2 and the movable side of the fixed side are set. The shape of the phantom opening of the moving side is further, and the throttle is 96 in the curved center of the curved tube 74. When the money is transferred to the state shown in Fig. 6 (9), the first opening 1 〇 2 on the fixed side overlaps the second opening on the movable side. In detail, the linear portion of the second opening 1 〇 4 on the movable side 1〇4A, 1„ 1 When the straight side of the pair of side panels of the fixed side::2 is the side of the side panel, The first opening 1〇2 on the 疋 side is the second 对 on the movable side. The opening 2 of the music 2 is overlapped with the rotation of the curved portion 78 until the second opening 1〇4 of the movable side is fixed to the fixed The second opening 1〇2 on the fixed side is maintained in a state in which the second opening 1〇4 on the movable side is superposed until the straight portion 102B of the other side sheet 100135244 201219628 of the first opening U)2 on the side. That is, the throttle valve % is maintained in the fully open state. Therefore, in the state shown in Fig. 6(B), one end side of the water conduit 1A8A is connected to the connecting portion 79 of the bending tube 74 (refer to Figs. 4 and 8), and the other end side is inserted into the water outlet pipe 18 When the lower part is connected to the hand washing water outlet ( (refer to ® 2) 'When the throttle valve 96 is fully open, that is, the hand washing water flow path 94 is in the maximum open state, the hand washing water flows out from the outlet portion 64 and reaches the hand washing outlet pipe. 18, and then flow out from the water outlet 19 to the wash basin 16. Further, in the state shown in Fig. 6(C), the end portion of the water conduit 108B formed of the bellows is connected to the connecting portion 79 of the bending tube 74 (refer to Fig. 9), and the other side is connected to the washing machine. When the water pipe 18 guides the hand washing water from the outlet to the hand washing water pipe 18, also when the throttle valve 96 is fully opened, the hand washing water reaches the hand washing water pipe 18 and then flows out from the water outlet 19. Furthermore, the reason why the water conduit 1 8A is used as shown in FIG. 8 or the water guide s 1 〇 8 般 is used as shown in FIG. 9 is different depending on the type of the flush water tank. In this case, the difference in position corresponding to the hand washing water f is caused by the smoothing of the hand washing water into the hand washing water pipe. On the other hand, if the flushing water tank 10 does not have the hand washing water outlet 8 , the water guiding officer is not connected to the outlet portion 64 of the hand washing water (specifically, the curved pipe 7 is opened and the outlet portion 64 is kept open obliquely downward. (Refer to Fig. 6(a)). Under the sorrow of 100135244 22 201219628, the water flowing to the downstream side by the valve opening of the water supply valve 34 is from the front end of the water outlet 36 of the water tank and the curved pipe 74 of the outlet portion 64. The outflow port 92 is dropped below and supplied to the flushing water tank 1 〇. At this time, approximately half of the first opening 102 on the fixed side is blocked (refer to Fig. 6 (A)), and the water supply is supplied. The water of the tube 32 is supplied to the flushing water tank 10 via the throttle valve 96. Since the flow path resistance of the throttle valve 96 (the resistance of the flow path 94) is large, it is guided to the hand washing water pipe 18 with the hand washing water. Similarly, the same flow rate is supplied from the outlet portion 64 to the flushing water tank 1. The shape of the fixed valve body 98 and the movable valve body 100 is set in advance in this manner. Thereby, the flushing water pipe is bypassed regardless of the presence or absence of the hand washing water pipe 18. The water ratio in 66 is constant, and the equal flow is supplied to the horse through the supplementary water pipe 66. The water inlet 28 of the embodiment 1 having the above configuration, in the case of having the hand washing water outlet pipe 18, connects the water conduits 1A, 8A, 1B, 8B to the hand washing water. 卩 64, the throttle valve 96 The maximum opening degree (the hand washing water flow path 94 is maximized) is used to guide the hand washing water to the hand washing water pipe 18. On the other hand, in the case where the hand washing water pipe 18 is not provided, the water guiding pipe 1〇8a, i is made. 〇8b is not connected to the outlet portion 64 of the hand water, and (4) the outlet portion 64 is opened, and the flow path resistance (resistance of the flow path 94) is made by the partial ί5 shackle valve 96 (the opening degree of the narrowing flow path 94). Therefore, the case where the hand washing water pipe 18 is provided and the outflow of the hand washing water that does not have the 'outlet portion 64' can be set to the same = force: the amount of water flowing in the water supply pipe 66 can be formed to be constant In the It 曰, there is no need to supply the supplement 100135244 23 201219628 water supply through the supplementary water pipe 66 to the toilet, and the water quantity can be set to save water. In addition, the water inlet 28 is used as the flow path resistance (flow The resistance of the road 94 is increased by the resistance member 'because it has a regulating flow path 94 Since the throttle valve 96 is used, the flow path resistance (resistance of the flow path 94) can be changed by a simple operation. The first invention has been described using the above description and the drawings, but the present invention is not limited to the embodiment 1' For example, the following embodiments are also included in the technical scope of the first invention. (1) In the first embodiment, the movable valve body of the throttle valve rotates integrally with the curved pipe, but the movable valve body and the curved body may be bent. Each of the tubes is configured to rotate the movable valve body alone. (2) The throttle valve may be configured differently from the above-described configuration. (3) The throttle valve may be replaced with another resistance member. (4) The resistance member can also be set in an additional way. (5) The flow path opening degree of the partial clogging hand washing water is not in accordance with the rotation operation. "5J" 〇 Next, the preferred embodiment of the second invention will be described. The rotation operation member according to the second aspect of the invention is screwed to the shaft portion, and is fed by the screw to move along the shaft portion by rotation. In this case, it is possible to adjust the flush water level in the water tank easily and ingeniously and without stages. As a means for continuously adjusting the height position of the float along the shaft portion without a step, the rotary operation member and the shaft portion may be firstly mounted via a cam mechanism, or the rotational motion of the rotary operation member may be converted into an edge by the movement of the cam mechanism. Rotary operation 100135244 24 201219628 The linear motion of the shaft of the component. And: There are anti-rotation agencies in the second. The anti-rotation mechanism is disposed in the above-described buoy rotation of the buoy pontoon, and is guided to rotate the above-mentioned anti-rotation position only by one-hand operation along the = shape of the above-mentioned rotary operation member. The groove or ridge, and the recess provided in the shaft portion or embedded in the ridge. The convex portion embedded in the groove is additionally provided on the rotating operation member * The card has a locking portion and a member; the member: the member is locked to the locking portion, and the elasticity is maintained at two = The position of the piece of rotation in the direction of rotation. ^ 疋 (4) 杜 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕In addition, it can prevent the rotating operating member from being misaligned (4) during long-term use, causing the height of the pontoon to deviate from the original position, that is, the water level in the flushing water tank when the water is full is changed from the set water level. The locking mechanism includes a recessed portion that is provided in the above-described locked portion of the rotary operation member or the pontoon, and a claw that is provided in the recessed portion of the recessed portion. The locking portion provided in the lion-like member or the portion to be locked 100135244 25 201219628 may be annularly disposed at a circumferential portion of the rotation operation member. Next, the water inlet embodiment embodiment 2 of the second invention will be described with reference to the drawings. <Example 2> The flush water tank 10 of the second embodiment is a double tank structure which constitutes the outer water tank 12 and the inner water tank 14 as shown in Fig. 1A. The flushing water tank 1 () is provided in the upper portion of the outer water tank 12, and is provided with a wash basin 16 for the cover of the outer water tank 12. In the form of the wash basin 16 which is raised from the wash basin 16, a hand washing water pipe 18 is provided. The wash basin 16 is provided with a drain 20 at the bottom. The hand washing water flowing out of the hand drain pipe 18 falls from the drain port 20 to the inside of the flushing water tank 1〇. The flushing water tank 10 is rotatably provided with a flushing handle 22 on the wall of the water tank. The L-shaped lever arm 24 extends from the flush handle 22 and projects toward the inside of the flush water tank 10. The front end portion of the lever arm 24 and the drain valve 'not shown in the bottom portion of the flush water tank 1 are connected by the ball chain 26. The drain valve is opened by the ball chain 26 by the rotation operation of the flushing handle 22 to open the valve. When the drain valve is opened, the discharge port at the bottom of the flush water tank 10 is opened, and the flush water remaining in the flush water tank 10 is strongly discharged from the discharge port toward the toilet. The flush water tank 10 is internally provided with a water inlet 28. The water inlet main body 3 is connected to the water supply pipe 32. The water inlet main body 3G has a water supply valve 34 and a water tank outlet 36 provided at a downstream portion of the water supply valve 34. The water inlet main body 30 is provided separately from the water outlet 36 in the water tank, and a separate hand washing side water supply port (not shown) for supplying the hand washing water to the hand washing water outlet pipe 18 is provided. Washing 100] 35244 26 201219628 The hand side water supply port and the hand washing water pipe 18 are connected by a water conduit 38 composed of a telescopic tube. When the water supply valve 34 is opened, the water delivered through the water supply pipe 32 and the water supplied from the water outlet 36 of the water tank to the flushing water tank 1 are passed through the water conduit 38 from the hand washing side water supply port. It is guided to the hand washing water outlet ι8, and then the hand washing water flows out from the washing basin 16 from there. The intake water 28 system has a buoy 40 that is moved up and down by buoyancy in the flush water level in the flush tank 1 and a connecting arm 42 that connects the float 4 to the water supply valve 34. As shown in FIG. 12, the connecting arm 42 has an arm portion 44 extending downward from the water supply valve 34 and extending in a substantially horizontal direction, and a screw shaft portion extending downward from the front end portion of the arm portion 44 (axis) Department) 46. The pontoon 40 is attached to the screw shaft portion 46 at an adjustable height. The flushing tank is provided with an overflow pipe 48 rising from the bottom as shown in Fig. 1. The water inlet 28 is disposed in the water inlet body 30, which has a weir, another cold, and a replenishing water supply port 37 that supplies the makeup water to the toilet. /, 闯, its rectangular shape is formed in a plan view. The pontoon 40 has a peripheral cup portion and an upper wall portion which are completely inverted cups, and the lower surface is open. The lower portion of the pontoon 4 is open at the time of starting water stop (when the pontoon 4 〇 starts to rise), and is formed in a shape inclined obliquely with respect to the horizontal direction. In other words, the lower surface of the pontoon 40 is the side of the shaft portion 43 which is turned toward the root of the connecting arm 42 toward the root portion of the connecting arm 42, and the opening is gradually reversed to form a shape which gradually slopes upward. The pontoon 40 integrally has a stomach-shaped, substantially identical portion 53 therein. The barrel portion 53 is inserted into the screw shaft portion 46 from the top of the 100135244 27 201219628. The water inlet 28 has a height adjustment dial (rotation operation member) 154 which performs height adjustment of the pontoon 4 as shown in Fig. 13 . The height adjustment dial 154 is rotatably held by a holding portion 156 provided on the pontoon 40. The height adjusting dial 154 is moved integrally with the pontoon 4 in the up-down direction of the screw shaft portion 46 by the holding of the holding portion 156. As shown in Fig. 14, the degree adjustment dial 154 includes a circular center portion 154A, a ring portion 154B on the outer circumference side, and a connection rib 154C that connects the four points in the peripheral direction. The outer peripheral surface of the ring portion 154B is provided with a concave-convex shape of a plurality of convex portions 158 and concave portions 16b so as to be easily rotatable by the hand grasping ring portion 154B. The central portion 154A is provided with a mother screw hole 162 that penetrates the axial direction. On the other hand, the outer peripheral surface of the screw shaft portion 46 is provided with a male screw portion 164. The height adjusting dial 154 is screwed into the male screw portion 164' in the female screw hole 162 and assembled to the screw shaft portion 46. The lower end portion of the screw shaft portion 46 is a plate portion 166. The male screw portion 164 is provided from the upper end of the screw shaft portion 46 to the upper end of the plate portion 166. As shown in FIG. 13 and FIG. 15, the holding portion 156 has a bridge shape in which a pair of plate-shaped leg portions 168 and 17b rising from the upper surface of the pontoon 40 and a plate-like connecting portion 172 connecting the upper ends thereof are integrated. Formed on the pontoon 4〇. The holding portion 156 having a bridge shape is formed with a holding recess 174 on the inner side. The height adjustment dial 154 is inserted into the holding recess 174 in the direction of the arrow p in Fig. 13 and held at 100135244 28 201219628. One of the leg portions 168 is provided with a curved abutting portion 176 which projects along the outer peripheral surface of the height adjusting dial 154. By the abutting action of the abutting portion 176 on the height adjusting dial 154, the height adjusting dial 154 can be inserted into the holding recess 174 only from the direction of the arrow p in Fig. 4, and the self-retaining portion 156 can be prevented from coming off in the p direction in the drawing. Thereby, when the height adjustment dial 154 is inserted into the holding recess 174 inside the holding portion 156 and assembled, the assemblability can be improved. The connecting portion 172 is provided with a circular fitting #178 at the center portion. The fitting portion 178 is formed with a circular insertion hole 18A, and the screw shaft portion % is inserted therein. In other words, the fitting portion 178 is formed in a state in which the rod shaft portion 46 is fitted. Two different 180° directions. Corresponding to the groove 182, the insertion hole screw shaft portion 46 is provided at a peripheral portion as shown in Fig. 14, and a groove 182 (10) extending in the longitudinal direction is provided as shown in Figs. 13 and 15, and a pair of convex portions 184 are provided. The projections 184 are snapped into the grooves 182 of the screw shaft portion 46 in the radial direction. The grooves 182 and the projections 184 constitute an anti-rotation mechanism of the pontoon 40 to the screw shaft portion 46. The pontoon 40 is engaged with the rotation direction of the groove 182 by the convex portion 184 to prevent the screw shaft portion 46 from rotating. However, the pair of convex portions 184 are slidable in the groove (8) in the axial direction of the screw shaft portion 46. When the pontoon 4 is moved in the vertical direction along the screw shaft portion 46, the projections m and the grooves 182 are moved and guided, and the cylinder 40 is opened at the upper end of the tubular portion μ as shown in FIG. „There are the same convex portions 184. The convex portions (8) are engaged in the grooves 182 of the screw shaft portion 46 as shown in Fig. 8 (8). 100135244 29 201219628 The height adjusting turntable 154 is held in the holding concave portion of the holding portion 156. In the state of 174, the screw shaft portion 46 is screwed. In this state, the height adjusting dial 154 is as shown in Fig. 12(A), and the central portion 154A is supported by the plate-like connecting portion 172 of the holding portion 156 and the buoy. The upper wall portion 40B of the main body 40 is vertically sandwiched. If the height adjusting dial 154 is rotated to be moved by the screw feed and then moved up and down along the screw shaft portion 46, the integral float 40 is advanced along the screw shaft portion 46. In order to prevent the free rotation of the height adjusting dial 154, a locking mechanism is provided across the height adjusting dial 154 and the pontoon 40 (in particular, the holding portion 156 of the pontoon 40). As shown in FIGS. 13 and 14. The height adjustment dial 154 is attached to the upper portion of the ring portion 154B. As the recessed portion 188 for the engaged portion of the locking mechanism, as shown in Fig. 13 and Fig. 15, the holding portion 156 is provided with an elastic piece 190 to the connecting portion 172. The elastic piece 190 is provided at the front end. The claws 192 are used as the locking portions. The claws 192 enter the concave portion 188, and the concave portions 188 are elastically locked with the claws 192. The concave portions 188 are annularly arranged on the circumference of the height adjusting dial 154 across the entire circumference. The height adjustment dial 154 can be rotated around the screw shaft portion 46 only when the rotational operation force necessary to elastically cross the ridge between the concave portion 188 and the concave portion 188 is applied to the height adjustment dial 154. When the operating force is applied to the height adjusting dial 154, the height adjusting dial 154 is locked according to the elasticity between the claw 192 and the recess 188, and cannot be rotated around the screw shaft 100135244 30 201219628 portion 46. In other words, the water inlet 28 After being used for a long period of time, there is no buoyancy or the like applied to the pontoon 40, so that the height adjustment dial 154 naturally rotates due to the action of the screw, and the position of the height adjustment dial 154 (i.e., the pontoon 4) is biased. In the case of the original position, the height adjusting mechanism of the pontoon 40 of the water inlet 28 applies a rotational operating force to the height adjusting dial 154, and the elastic locking action of the resisting claw 192 and the recess 188 causes the height adjusting dial 154 to rotate. The screwing position of the screw shaft portion 46 of the height adjusting dial 154 is changed toward the up and down direction, and the position of the pontoon 40 is also moved to the height adjusting dial 154, and the height position of the pontoon 4 可 can be adjusted. The water level can be adjusted by adjusting the amount of water in the flush water tank to supply water. Since the lower surface of the sweat 40 is open and forms a shape in which the inclination au ^ is oblique to the horizontal direction, the following advantages can be obtained. Fig. 17 is a comparative example for explaining the advantage. In the comparative example, although the point of opening of the vent 4 4 of the pontoon 40X is the same, the lower side of the pontoon 40X is horizontal. The pontoon 40X of this comparative example is as shown in Fig. 17 (1), and + at the start of water stop, only buoyancy is generated which is just the size of the pontoon 40X. However, as the rise of the water surface is as shown in Fig. 17 (Π), the connecting arm 42 is inclined, and the pontoon is generally inclined (four). By means of the 'float (4), the air in the portion indicated by the dotted line leaks, and the water intrudes into the portion, and the buoyancy of the guide tube 40 & As a result, there is a problem that the water stop operation is unstable. 100135244 201219628 In contrast, the pontoon 40 is as shown in Fig. 16 (1), and when the water stop is started, the buoyancy for the pontoon 40 is less than the buoyancy of the size of the pontoon 40. However, after the water stop is started, the pontoon 40 is inclined with the connecting arm 42, and when it is in the most terminated water state, the open lower surface is in a horizontal direction (the lower inclined shape is determined accordingly). Therefore, the air inside the pontoon 40 is not leaked, and the advantage that the water stopping operation is stabilized (the buoyancy applied to the pontoon 40 does not change from the start of the water stop to the time of reaching the water stop). In the water inlet 28 of the second embodiment having the above configuration, when the height adjusting dial 154 is rotated, the height adjusting dial 154 is moved along the screw shaft portion 46 with the pontoon 40, so that the height of the pontoon 40 can be adjusted. Therefore, it is not necessary to rotate the pontoon 40 for adjusting the height of the pontoon 40, and it is not necessary to secure a space for the rotation around the pontoon 40. Therefore, it is possible to increase the degree of freedom in arrangement and arrangement of peripheral components of the pontoon 40, and it is possible to further reduce the size of the flush water tank 10. Further, since the pontoon 40 is not required to be rotated for the height adjustment of the pontoon 40, the advantage of increasing the shape freedom of the pontoon 40 itself can be obtained. Further, the water inlet 28 is continuously moved in position along the screw shaft portion 46 of the connecting arm 42 by the rotation of the height adjusting dial 154. In other words, the height position of the pontoon 40 can be continuously adjusted steplessly along the screw shaft portion 46. Therefore, it is possible to easily and ingeniously and continuously adjust the flush water level in the flush water tank 10. In addition, the water inlet 28 is provided with an anti-rotation mechanism for preventing the pontoon 40 from rotating and guiding the floating cylinder 10040244 32 201219628 to move along the screw shaft portion 46, so that the operator can perform the height adjustment dialing with only one hand operation. The rotational operation of the 154 allows the height position of the pontoon 40 to be easily adjusted. Further, the water inlet 28 prevents the height adjustment dial 154 from being inadvertently rotated during long-term use, resulting in a situation in which the height position of the pontoon 4 is biased away from the original position. That is, it can prevent the water level in the flushing water tank 1 from being displaced from the set water level when the water level in the flush water tank is full. The second invention will be described with reference to the above description and drawings, but the present invention is not limited only to the second embodiment. For example, the following embodiments are also included in the technical scope of the second invention. (1) The groove 182 provided in the screw shaft portion 46 is replaced with a ridge, and the convex portion 184 provided on the side of the pontoon 40 is replaced with a concave portion that is engaged with the ridge, and the anti-rotation mechanism thus constituted. (2) The concave portion 188 provided on the side of the height adjustment dial 154 is replaced with a claw, and on the other hand, a concave portion for allowing the claw to enter is provided on the side of the pontoon 40, thereby constituting the locking of the rotational direction of the elastic locking height adjustment dial 154. Institutions, so too. (3) The rotary operation member may be configured in various other forms than the height adjustment dial 154. Next, a preferred embodiment of the third invention will be described. The flowing water outlet of the third aspect of the invention is disposed at a position where the flowing water flows down the connecting arm. In this case, since the self-flowing water outlet 100135244 33 201219628 == street flow, it can prevent the flowing water from falling strongly into the storage water in the phase, and can prevent a large sound of water from being generated. It is possible to provide a drain portion in which the flowing water flowing down the connecting arm flows in the water receiving member and faces the water receiving member. In this case, the flowing water_water_flowing down the connecting arm falls well on the side of the water receiving member', and the outside of the groove can be guided by the water receiving member. The specific embodiment 3 of the toilet flushing water tank device of the third invention will be described with reference to the drawings. <Example 3> The toilet flushing water tank of Example 3|£11 is provided with a flushing water|head 10 as shown in Item 18. The flush water tank has a double tank structure of a water tank 12 made of a pottery or resin, and a resin inner tank 14 which is an inner water storage tank. The flushing water tank 10 is attached to the upper portion of the outer water tank 12, and is provided with a wash basin 16 for covering the outer water tank 12. The wash basin 16 is provided with a hand washing water pipe 18 from the stand of the wash basin 16 standing up. The wash basin 16 has a drain at the bottom. The hand washing water flowing out of the hand outlet pipe 18 is dropped from the drain port to the inside of the flushing water tank 10. The flush water tank 10 is internally provided with a water inlet 28. The water inlet 28 is provided with a water inlet body 30. The water inlet body 3 is attached to the inner water tank 14. A water supply pipe 3 2 is connected to the inlet water main body 30. The water supplied through the water supply pipe 32 is opened by the water supply valve 34, which will be described later, of the water inlet 28, so that the water supply inside the clean water tank 1 can be flushed and the water supply is stopped by the closing of the water supply valve 34. 100135244 34 201219628 The inlet water 28 has a pontoon 40 that moves up and down in conjunction with the flush water W2 level inside the delay tank 400, and a connecting arm 42 that connects the pontoon 4 and the water supply valve 34 (both the pontoon 40 and the connecting arm 42) As shown in Fig. 20, the connecting arm 42 has an arm portion 44 and a screw shaft portion 46 extending downward from the front end. The pontoon 40 is assembled to the screw shaft portion 46. The height adjustment dial 154 of the screw hole is rotatably held by the holding portion 156 provided on the pontoon 4B. The female screw hole of the height adjustment dial 154 is screwed to the male thread portion of the screw shaft portion 46. The pontoon 4〇 By rotating the height adjusting dial 154, the position can be adjusted up and down along the screw shaft portion 46. The flushing water tank 10 is rotatably provided with a flushing handle 22 on the wall portion. The L-shaped lever arm 24 It is attached to the inside of the flushing water tank 1 and is rotated in conjunction with the flushing handle. The front end of the lever arm 24 is connected to the drain valve 15 which is opened and closed via the discharge port 13 at the bottom of the flushing water tank by the ball chain 26. The 15 series is operated by flushing the handle 22 The valve is opened in the state of the self-closing valve, whereby the flushing water W1 remaining inside the flushing water tank 10 is strongly discharged toward the toilet from the discharge port 13 at the bottom of the flushing water tank 1 . As shown in Fig. 18, the rafter is provided with an overflow pipe 48 rising from the bottom. The main body 31 of the water inlet main body 3G is generally cylindrical as shown in Fig. 19. The main body 31 is connected to the water supply pipe at the left end. 32 ^ Further, the main body η is connected to the left end portion of the connecting pipe 62 in the outer end portion of the right end portion. The connecting pipe is attached to the main body 31 as another individual, and is configured as a water inlet main body, one of which is a portion of 100135244 35 201219628. The connection pipe 62 is provided with a water outlet (water outlet in the water tank) 36 that flows water from the main body 31 into the flush water tank 1 (specifically, the inner water tank 14), and is used for washing the hand to the hand washing water pipe 18. The water supply port (not shown) and the water supply port 37 for supplying the supplementary water to the toilet through the overflow pipe 48. The water supply port for hand washing is connected to the hand washing water discharge member 18 by a telescopic tube (not shown). Figure 18, connected to the tube (tube) 7 〇 from the main body 31 The water is supplied to the hand washing water outlet i8 through the telescopic pipe, and the auxiliary pipe 70 is supplied from the water supply port 37 to the inside of the overflow pipe 48. The water inlet main body 30 is provided with the water passage 51 connected or read as shown in FIG. The water supply valve 34 is blocked. The water supply valve 34 is connected to the shaft portion 43 by the raising and lowering of the pontoon 40 as shown in Fig. 21, and the valve is closed and closed. Specifically, When the pontoon 4 is raised, the connecting arm 42 is rotated, and the circumference of the M3 is rotated clockwise, the water supply is widened. Further, the lowering of the slinger 4'''''''''' Then, the water supply valve 34 is opened. _ , fire wide 34 open 'waterway 51 is connected to the state (ie open state) ^ water from seven, water S 32 from the main body 31 to the connecting pipe 62 and from the water tank 36 in the tank 2 The water flows into the clean water tank. Further, the water supply port 37 is supplied to the hand washing water outlet 18 through the front, the front, the hand seven, and the water outlet, and the water is supplied to the toilet through the overflow pipe 48. Please use 34 for the mode and guide the valve. Main valve body of water supply valve 34 100135244 36 201219628 52 is composed of a diaphragm valve body as shown in Fig. 21 . The main valve body 52 is formed of a diaphragm 55 made of an elastic material such as rubber, and a harder (here, resin-made) diaphragm holder 57 (diaphram holder). The outer peripheral portion 59 of the diaphragm 55 is thick. The outer peripheral portion 59 of the diaphragm 55 is sandwiched by the main body 31 and the cup-shaped diaphragm holder 73. Thereby, the outer peripheral portion 59 of the diaphragm 55 is fixed to the main body 31. The outer peripheral portion 59 of the diaphragm 55 has a sealing portion at the same time. In other words, the outer peripheral portion 59 of the diaphragm 55 has a function of sealingly blocking the water passage 51 from the outside with watertightness. The cup-shaped diaphragm member 73 is fitted to the cylindrical portion 75 integrally formed on the main body 31 in an embedded state from the lower side. The male screw 77 on the outer circumferential surface of the cylindrical portion 75 is screwed by the female screw 83 on the inner circumferential surface of the fixing nut 81, and the diaphragm member 73 is fixed to the cylindrical portion 75 (main body 31). By screwing the fixing nut 81 upward, the diaphragm holder 73, which is embedded in the cylindrical portion 75 in an inlaid state, is pushed upward. Thereby, the diaphragm retaining member 73 interacts with the main body 31 to fasten the outer peripheral portion 59 of the diaphragm 55 in an elastically compressed state with a predetermined pitch. The cup-shaped diaphragm holder 73 also has the function of a back pressure chamber forming member. In other words, the back pressure chamber 54 is formed on the lower side of the main valve body 52 constituted by the diaphragm valve body. The back pressure chamber 54 is such that the internal pressure acts on the main valve body 52 as a pressing force in the upward valve closing direction. On the other hand, the main valve body 52 is provided at an eccentric position deviated from the center, and is provided with an introduction hole 100135244 37 201219628 85 which communicates with the primary side of the water passage 51 and the back pressure chamber 54. The water on the primary side of the water passage 51 flows into the back pressure chamber 54 through the introduction small hole 85. The pressure of the back pressure chamber 54 can be increased by the flow of water on the primary side into the back pressure chamber 54. On the other hand, the diaphragm retaining member 73 is provided at its center portion with a guide hole 56 for passing through the diaphragm retaining member 73 as a drain water passage. The water in the back pressure chamber 54 flows out through the guide holes 56. The pressure in the back pressure chamber 54 can be reduced by the outflow of water in the back pressure chamber 54. The connecting arm 42 is provided with a pilot valve body 60 at the base end portion of the arm portion 44. The sealing portion 61 of the pilot valve body 60 is sealed to the guide valve seat 58 by being placed upward, thereby blocking the guide hole 56. The water supply valve 34 has the following effects. When the water supply valve 34 is in the closed state (refer to FIG. 21), if the connecting arm 42 is rotated about the shaft portion 43 by the lowering of the float 40, the pilot valve body 60 is opened downward from the pilot valve seat 58 to open the valve. . Thereby, the water in the back pressure chamber 54 flows out through the guide hole 56, so that the pressure of the back pressure chamber 54 can be reduced. Further, the pressure of the primary side of the water passage 51 is larger than the pressure of the back pressure chamber 54, and the main valve body 52 is opened downward from the closed valve state to open the valve. When the main valve body 52 is opened, the water passage 51 is in a communicating state, and water flows from the main body 31 toward the connecting pipe 62 and the water supply port 37. On the other hand, in conjunction with the rise of the pontoon 40, the connecting arm 42 performs a clockwise rotational movement about the circumference of the shaft portion 43. When the pontoon 40 reaches the ascending end, in other words, the water in the rinsing water tank 1 成为 is in the set full water state, the sealing portion 61 of the pilot valve body 60 is seated on the guiding valve seat 58 upwards. And closed the valve. Thereby, the flow of water from the back pressure chamber 54 is stopped. Thereby, the pressure of the back pressure chamber 54 rises by introducing the small holes 85 and flowing water toward the back pressure chamber 54. Further, by the pressure rise, the main valve body 52 composed of the diaphragm 朝 is seated on the main valve seat 50 and closed. Thereby, the flow of the water of the water passage 51 is stopped, and the supply of water to the flushing water tank 10 and the hand washing water outlet pipe 18 is stopped. As shown in Fig. 21, the water supply valve 34 has a cleaning pin 97 that is inserted into the introduction small hole 85 and is introduced into the small hole 85. The cleaning tip 97 continues upwardly along the lower end of the coil spring 95, and is formed on the coil spring 95. As shown in FIG. 19, the flow valve device 500 has a flow water passage 5〇2 and a cylindrical tubular wall 504; the flow water passage 502 extends from the primary side branch of the upstream side of the water supply valve 34 of the water passage 51; The wall 504 is for forming a flow path 502 on the inside. The flow water path 502 has a branch port 5〇8 (see Fig. 22). The cylinder wall 5〇4 is integrally formed on the water inlet main body 30 (more specifically, the main body 31) in an upwardly rising configuration. As shown in Fig. 22, the opening 506 for discharging the flowing water from the cylinder wall 504 is disposed at a position closer to the upper side than the root portion of the cylindrical wall 504, and is disposed transversely (outward in the radial direction) through the cylindrical wall 5〇4. The water on the primary side which is guided to the flow path %] is continuously discharged from the opening 5〇6 to the outside of the cylinder wall 504 by the opening of the flow valve 510 as will be described later. The flowing water flowing out from the opening 5〇6 is 100135244 39 201219628 and flows out to the outside from the flowing water outlet 150 described later, and is supplied to the flushing water tank 1〇. The supplied flowing water is continuously supplied to the toilet through the overflow pipe 48 in the flushing water tank H). The cylinder wall 504 is internally provided with a flow valve 510 that opens and closes the claw water path 502. The flow valve 510 has a cylindrical shape 3, A. c. <Outer valve phase 512, and shaft-shaped valve body 514. (4) The inside of 4 is fixed in a fitted state. Also, outside the valve I: outside "". The coffee body (up and down direction) is slidably fitted to the valve body 514. The outer valve phase 512 utilizes a fixed bail wall 5〇4. The valve body 514 which is fixed to the cylinder in the vertical direction (the up-and-down direction) has a right side τ ^ , a valve portion 522 provided on the lower side, and a connecting portion 524 provided on the upper side. The other transmission members 542 are: "" 524" is connected to the operation unit described later. The lower end side reading portion 522 is obstructed by the front end 53 of the inner line 544 of the system, and the valve portion 522 of the lower end side of the intermediate portion between the connecting portions 524 having the cross-sectional shape of the cross-shaped side is made The sealing member 5 is filled with the sealing member 526. The valve seat 528 on the circumferential side of the valve portion is closed. In addition, the inner sealing member 526 formed in the outer casing 512 is moved downward from the valve seat 528 toward the surface by the body 514, and the flowing water path is opened and opened. In the valve-opening state, the water in the open water path (flow bad: 51 flows from the first side to the outside.), flows out from the opening 506 to the wall 5〇4, and the transmission member 542 is provided as shown in Fig. 19 100135244. An inner cable (internal member) 544 that is flexible and has a non-stretchable 201219628 in the axial direction, and an appearance line (outer branch) 546 that guides the movement thereof. The inner cable 546 is slidably inserted inside the outer cable 546. The inner cable 544. The inner body cable 544 is pushed toward the right, and the valve body 514 is moved downward to open. In contrast, the inner cable 544 is pulled toward the left, and the valve body 514 is upward. However, if it is necessary to prevent freezing, the valve body 514 is maintained in the open state. Thereby, the water on the first side of the water passage 51 flows in the flowing water passage 5〇2 in a small amount. The drive member 542 is inserted into the inside of the curved tube 576 from the opening 5〇6. The transmission member 542 is such that the front end portion is held downward by the curved tube 576. It is assembled to the flow valve 51〇 by the assembly nut 578. 5 Yang Luzhi, as shown in Fig. 22, assembled The female threaded portion of the cap 578 is screwed into the male threaded portion of the valve outer casing of the gripping jaw 510. Thereby, the flange portion of the receiving member 584 that receives the lower end of the outer wire 546, and the flange portion of the curved tube 5% The inner flange portion of the assembly nut 578 is torn and the outer casing 512 is held up and down. Thereby, the lower end portion of the receiving member 584 and the curved tube 576 is fixed, and the lower end of the outer line 546 is The end member 588 fixed to the inner tank line 544 is engaged with the engaging recess 590 of the valve body 514 of the flow valve 51G. Thereby, the front end portion of the inner gauge line 544 can be The body is fixedly coupled to the valve body 514. The set nut 578 is vertically downwardly facing away from the lateral opening 鄕100) 35244 201219628 away from the radial direction, opposite to the opening 506, integrated There is a cylindrical cover wall 592 that covers the opening 506 from the outside. The cover wall 592 extends further downward than the opening 506 and forms a downward flowing water outlet 550 between the wall 504 and the barrel wall 504. The flowing water flowing out of the opening 506 becomes a downward flow after coming against the cover wall 592, and then flows downward from the flowing water outlet 550. Most of the flowing water flowing out of the flowing water outlet 550 is pushed back to the outer side of the cylindrical wall 504 by the reaction force from the cover wall 592, and then flows downward along the outer surface of the cylindrical wall 504. Of course, part of it does not fall outside the wall 504 but falls directly from the flowing water outlet 550. To secure the connecting arm 42 of the water inlet 28 to the fixed nut 81 on the water inlet body 30, it is larger than the cover wall 592 of the assembled nut 578. Therefore, the fixing nut 81 protrudes more radially outward than the cover body wall 592. Therefore, the fixing nut 81 has a function of receiving the water receiving portion of the water from the cover body wall 592 and the cylinder wall 504 where the downward flowing water outlet 550 does not directly fall along the cylinder wall 504. Further, the cylindrical portion 75 integrally formed on the main body 31 also functions as a part of the water receiving portion. Therefore, the flowing water flowing out of the flowing water outlet 550 flows almost entirely along the connecting arm 42 via the fixing nut 81. Specifically, the connecting arm 42 extends from the lower side of the inlet body 30 opposite to the opposite side of the cylindrical wall 504, and the screw shaft portion 46 and the pontoon 40 enter the flushing water. Therefore, the water flowing down the outside of the cylinder wall 504, and the water which is not directly falling down the outside of the cylinder wall 504, almost all flow down along the connecting arm 42 of the inlet water 100135244 42 201219628 28. As shown in Fig. 18, the toilet flushing water tank device 1 has a smaller capacity than the inner water tank Μ, and is provided in the inner tank 14 with a delay groove 4〇0 which is a main component of the water supply delay mechanism 4〇2. The retardation groove 400 is provided such that its upper end is slightly lower than the upper water level of the flushing water W1 in the inner water tank 14 inner water state. As shown in Fig. 23, the retardation groove 400 is integrally provided with a pair of arms 406° extending upwardly, and a fixing portion 408 having a meandering shape at the upper end. The retardation groove 400 is in a state in which the upper end surface of the wall portion of the inner water tank 14 before and after the inner water tank 14 (in the direction perpendicular to the paper surface in Fig. 19) is locked to the inner water I mesh 14 by the fixing hole 410. The retardation groove 4 is provided with a pair of concave portions extending in the longitudinal direction on the outer surface. The recessed portion 412 is provided with a locking portion 414 in a state where the upper end protrudes from the bottom surface of the concave portion 412. The locking portion 414 is locked to a claw portion 426 which will be described later. As shown in Fig. 18, the retardation groove 400 is provided with a small hole penetrating through the bottom portion 415. The flushing water W2 inside the retardation groove 400 passes through the small hole 404 and flows out to the outside of the retardation groove 400 and inside the inner water tank 14. The small hole 404 is set to be smaller than the water level of the flushing water wi in the inner water tank 14 after the drain valve 15 is opened, so that the water level of the flushing water W2 in the delay tank 4 is lowered. Specifically, the flushing valve 15 is opened, the flushing water W1 in the inner water tank 14 is released, and the water supply valve 34 is opened (full open state) at the time when the drain valve 15 is closed, and the water inlet π Set the size by starting the water supply with the maximum water supply. The float 40 is fitted with a delay tank _ internal water level to reduce the water supply 100135244 43 201219628 delay tank 400. The s-sea delay tank 400 is opened, and the open portion from the upper side of the retardation groove 400 is inserted in the upper side of the flow water outlet 505. The flowing water flowing out of the 5% water 550 flows along the connecting arm 42," - "iu ϊ mv l jyy The flowing water directly enters the delay tank 4〇〇. Therefore, if the flowing water flowing down the connecting arm 42 flows directly into the pontoon 4, the force water is pulled straight 彳隹 λ m pain / 1 nn h. Therefore, the toilet flushing water tank device (4) is used in the delay tank 4 The upper side is filled with the water receiving member 416, and the flowing water flowing out from the flowing water outlet 55〇 can be prevented from directly entering the retarding groove. The water receiving member 416 is a bottom portion 418 having a slanted shape as shown in Fig. B, a pair of side wall portions 420 rising along the outer periphery of the bottom portion 418, and a rear wall portion 422. The water receiving member 416 is formed in a sink shape, and the rear wall portion 422 is open to the side surface. Further, the water receiving member 416 is provided with a notch portion 424 for inserting the connecting arm 42 on one of the side wall portions 42A. Further, the water receiving member 416 is provided with a claw portion 426 having a downwardly projecting elastic state with the front end and the rear end projecting downward. The water receiving member 416 is locked to the locking portion 414 of the retardation groove 400 from above by the claw portions 426, and is attached to the upper surface of the retardation groove 4〇〇 in the placed state. The sinus water receiving member 416 is provided with a concave portion 428 on the outer side of the side wall portion 420 on the opposite side of the side wall portion 420' on the side where the notch portion 424 is provided. The recess 428 is provided to avoid interference with the arm 406 of the delay slot 400. As shown in Fig. 22, the connecting arm 42 is fixed to the arm portion 44 44 on the upper side of the water receiving member 416 with the drain 100135244 201219628 water portion 430. . The side water portion 430 is integrally formed in the arm portion. The drain portion 430 is formed into a plate shape as shown in Fig. 24. 〉The water portion 43 〇 卩 卩 卩 卩 卩 卩 卩 卩 卩 卩 卩 卩 卩 卩 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = The water tank device u, water, regardless of whether or not the flow arm f of the flow port 2 = water outlet 550 flows out of the connecting arm 42, the flow of water is drained in the middle of the "44 component sen. The flowing water落 Falling in the water receiving and watering system The water receiving member 416 is delayed outside the tank 400. Thereby, the toilet water phase device 11 can surely prevent the flowing water flowing out of the moving water outlet 550 from entering the delay tank. Specifically, the flowing water flowing out from the flowing water outlet 55〇 flows along the arm material of the connecting arm 42 via the nut 81. However, since the arm portion is provided with the water transferring portion 430, it flows along the outside of the arm portion 44. After the flowing water is carried by the water transfer portion, the flowing water that has fallen into the water receiving member 416 and the water receiving member 416 is smoothly fed to the outside of the retarding groove and the inner water tank 14 by the inclination of the bottom portion 418. Thus, the flowing water is prevented from reaching the delay tank 400. ^Water valve 1 After 5 _, by the water supply from the water inlet (4), the water level of the flush water W1 inside the inner tank, the flush water W1 in the inner water tank 14 is nearly full of water W1 and then exceeds the upper end of the delay tank 400 100135244 45 201219628 And flowing into the delay tank 400, and being supplied into the delay tank 4A. The toilet flushing water tank apparatus n of Embodiment 3 having the above configuration prevents the flowing water from the flowing water outlet 55〇 from entering the delay tank 4 ,, so it can make the water supply delay mechanism operate normally, and can maintain the water supply wide (4) spoon open valve (that is, the period of water supply in the water tank) at an appropriate timing. In addition, the toilet flushing water tank device 11 can also It is not necessary to make the flowing water outlet 550 and the delay tank 400 reluctantly arranged in a horizontally staggered position. When the flowing water is to be dropped into the water tank along the connecting arm 42 of the water inlet 28, the flow water strength can be avoided. The ground water falls into the water in the water tank, thus causing a problem of loud water sound. On the other hand, in this case, the flowing water outlet 550 can be located directly above the delay tank 4〇〇, or the delay slot More upside Therefore, the toilet flushing water tank device η ^ (4) will prevent the dynamic water outlet 550 and the delay tank 400 from being horizontally at the level == set to prevent the generation of large ears due to flowing water and delay in water supply. The normal operation of the mechanism. Motion ==:: The water tank device 11 can guide the flow re-removal 416 flowing down the connecting arm 42 to the outside of the delay slot. = _, _ The above description and the drawings are limited to For example, in the following, the technique of the third invention is, for example, the water bearing member (1). The water receiving member may be formed of other various shapes. 100135244 46 201219628 The connecting member may use a tubular object, The flowing water flowing out of the flowing water outlet is directly circulated inside the tubular water receiving member, and is guided to the outside of the delay tank and in the inner tank. (2) The flowing water outlet can also have various other forms. Next, a specific embodiment 4 of the toilet flushing water tank device of the fourth invention will be described with reference to the drawings. <Example 4> The toilet flushing water tank apparatus of the fourth embodiment is such that the flowing water from the flowing water outlet 550 is directly dropped into the inner water tank 14 as shown in Fig. 25, and the water supply delay mechanism 402 is made The delay grooves 400 are arranged in a staggered position with respect to the flowing water outlet 550 in the horizontal direction. In the same manner as in the third embodiment, the same components are denoted by the same reference numerals, and the detailed description thereof will be omitted. The toilet flushing water tank device also prevents the flowing water from the flowing water outlet 550 from flowing into the delay tank 4 of the water supply delay mechanism 4〇2. Therefore, it is possible to prevent the operation of the water supply delay mechanism 402 from being improperly performed by the set operation due to the inflow of the flowing water into the delay tank 400. The fourth invention has been described above with reference to the drawings, but the invention is not limited to the embodiment 4, and may be modified in various ways without departing from the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing the internal structure of a water inlet and a flush water tank of the first embodiment. 100135244 47 201219628 Figure 2 is a diagram showing the connection between the water inlet and the hand outlet pipe of Figure 1. Figure 3 is a partial cross-sectional view of the flushing water tank having the water inlet of the embodiment i. Fig. 4 is a perspective view showing the decomposition of the hand washing water outlet portion and the peripheral portion in the water inlet of the first embodiment. Fig. 5 is a cross-sectional view showing the hand washing water outlet portion of the water inlet of the first embodiment. Fig. 6 is an explanatory view of the operation of the throttle valve of the water inlet of the first embodiment. Fig. 7 is an explanatory view of the water inlet of the embodiment ί when used in a water tank which is not provided with a hand drain pipe. Fig. 8 is an explanatory view of the water inlet of the first embodiment. The position shown in Fig. 9 is different from that shown in Fig. 9. Fig. 9 is an explanatory view of the water inlet of the first embodiment, which is used when a water tank for washing the hand outlet pipe is provided. Figure 10 is a water inlet diagram of the embodiment 2 of the water inlet 11 of the second embodiment. Partial cross-sectional view of the flushing water tank Partial sectional view of the main part. The adjustment mechanism and the screw shaft portion are separated. Fig. 12 is the water inlet of the second embodiment. Fig. 13 is the water inlet of the second embodiment. Fig. 14 is a perspective view showing the height state of the second embodiment. Figure 15 is a view of the pontoon of Embodiment 2. Figure 16 is an explanatory view showing the advantages of the pontoon of Embodiment 2. Fig. 17 is an explanatory view showing the operation of the pontoon of the comparative example. Figure 18 is a diagram showing the flushing water of the toilet of Embodiment 3. 100135244 48 201219628 Figure 19 is a view showing the water inlet, the flow valve, the water supply delay mechanism, and the water receiving member of the third embodiment. Figure 20 is a view of Figure 19 in a direction different from that of Figure 19. Fig. 21 is a diagram showing the water supply valve and the peripheral portion of the third embodiment. Fig. 22 is a view showing the drain member of the third embodiment, and a flow valve, a flowing water outlet, and the like. Figure 23 is a diagram showing the retardation groove of the water receiving member and the water supply delay mechanism of the third embodiment. Fig. 24 is a view showing a state in which the drain member of Fig. 23 is attached and a peripheral portion; Figure 25 is a plan view of the toilet flushing water tank device of the fourth embodiment. Figure 26 is a diagram showing the internal structure of a conventional water inlet and flushing water tank. Fig. 27 is a view showing the toilet flushing water tank device of the water supply delay mechanism. [Main component symbol description] 10 flushing water tank 11 toilet flushing water tank device 12 outer water tank 13 discharge port 14 inner water tank 15 drain 阙 16 wash basin 18 hand washing water pipe (hand washing effluent) 18 Α upper 100135244 49 201219628 18B lower part 20 Drain port 21 Male thread part 22 Flushing handle 23 Nut 24 Rod arm 26 Ball key bar 28 Inlet 30 Inlet main body 31 Main body 32 Water supply pipe 34 Water supply valve 36 Water tank outlet 37 Replenishment water supply port 38 Water conduit 40 Buoy 40A Peripheral wall portion 40B Upper wall portion 40X Buoy 42 Connecting arm 44 Arm portion 46 Screw shaft portion (shaft portion) 100135244 50 201219628 48 Overflow tube 50 Main valve seat 51 Water path 52 Main valve body 53 Tube portion 54 Back pressure Chamber 55 Diaphragm 56 Guide hole 57 Diaphragm frame 58 Guide valve seat 59 Outer peripheral portion 60 Guide valve body 61 Sealing portion 62 Connecting pipe 64 Outlet portion 66 Water supply pipe 68 Downstream portion 70 Branch pipe 71 Connection member 72 Fixing portion 73 Diaphragm 74 Bending pipe 100135244 51 201219628 75 Cylinder portion 76 Main pipe portion 77 Male thread 78 Bending portion 79 Connection portion 80 Detachment clamp 81 Fixed nut 82 0-ring 84 Base 85 Introduction small hole 86 Elastic arm 90 Annular groove 92 Outlet 94 Flow path 95 Coil spring 96 Throttle valve (resistance member) 97 Cleaning the latch 98 Fixing the valve body 100 Movable valve body 102 First opening 102 A Linear portion 102B Straight portion 100135244 52 201219628 104 Second opening 104A Straight portion 106 Telescopic portion 108A Water conduit 110 Flushing water tank 154 Height adjusting dial (rotating operation member) 154A Center portion 154B Ring portion 156 Holding portion 158 Convex portion 160 recessed portion 162 female threaded hole 164 male threaded portion 166 plate portion 168, 170 leg portion 172 joint portion 174 retaining recess 176 abutting portion 178 fitting portion 180 insertion hole 182 groove 184 convex portion 100135244 53 201219628 186 opening portion 188 recess 190 elastic piece 192 claw 200 flushing water tank 202 outer water tank 204 inner water tank 206 wash basin 208 hand washing water pipe 210 drain port 212 flushing handle 214 rod arm 216 drain valve 218 chain 220 water inlet 222 water inlet body 224 Buoy 226 connecting arm 228 water outlet 230 outlet portion 232 water conduit 300 toilet flushing water tank Set 100135244 54 201219628 302 Flushing water tank 304 Inlet 306 Water supply port 308 Float 310 Connecting arm 312 Water supply delay mechanism 314 Delay groove 316 Small hole 318 Discharge port 320 Drain valve 400 Delay groove 402 Water supply delay mechanism 404 Small hole 406 Arm 408 Fixing portion 410 fixing hole 412 concave portion 414 locking portion 415 bottom portion 416 water receiving member 418 bottom portion 420 side wall portion 100135244 55 201219628 422 rear wall portion 424 notch portion 426 claw portion 428 recess portion 430 drain portion 432 rising portion 434 inclined portion 500 flow valve device 502 flow water path 504 cylinder wall 506 opening 508 branch port 510 flow valve 512 valve outer box 514 valve body 522 valve portion 524 joint portion 526 sealing member 528 valve seat 530 intermediate portion 536 fixing fixture 538 operation portion 100135244 56 201219628 542 Transmission member 544 Inner cable 546 Outer iron wire 550 Flowing water outlet 576 Curved tube 578 Assembly nut 584 Receiving member 588 End member 590 Engagement recess 592 Cover wall W1 Washing water W2 Washing water 100135244 57