M380413 I t * ' 五、新型說明: 【新型所屬之技術領域】 本新型係有關一種溫控龍頭,尤指一種具有分流 及控溫結構的分流式溫控龍頭。 【先前技術】M380413 I t * ' V. New description: [New technology field] This new type is related to a temperature control faucet, especially a shunt temperature control faucet with shunt and temperature control structure. [Prior Art]
按,習知的水龍頭一般都藉由控制冷水及熱水水 龍頭開關來分別控制冷水及熱水的出水量,藉由調整 出水量來控制水溫,使用者必須旋轉冷水及熱水開關 來選擇合適的水溫,使用完畢之後,必須將冷水及熱 水的開關旋轉回起始位置,以關閉冷水及熱水的水 源,若需要再次使用時,必須再次旋轉冷水及熱水的 水龍頭開關,並且調整兩水龍頭開關至所需要的溫度 才可使用,不僅使用上不方便,而且也浪費調整水溫 時所耗費的時間及水量。 丹肴,請翏閲 " 1小W 自’知枝術的衛浴龍 頭分水裝置,其係針對上述之問題作一改良,主要先 對冷、熱水之一溫度控制開關i做一預 設定,配合獨立的複數供水開關2&、21)、。至2^水 口如蓮蓬頭3、雨灌型供水管4以及下出水管5,使用 者可藉由該溫度控·關!調節所需之水溫溫度,再 來便可藉由各個獨立的供水開關^士直接 出水水量。因此使用者可固定該、、w 工 旦疋0L皿度控制開關1所調 玉之&ϊ大小,祐稭由各個獨立供 2C來選擇已經混合之混水的水者Z2a、2b、 上較有彈性運用出水口的空間ί者開關即可,使用 π為—方便且實用之設 3 計結構。 惟,該衛浴龍頭分水裝置中之結構較為複雜,必 須遷就多組獨立供水開關2a、2b、2c,相對組裝之成 本、組裝之體積也相對的增加,並且各個獨立的供水 開關2a、2b、2c可同時開啟,而結構上的複雜可能造 成使用者因為錯誤動作開啟非欲使用之供水開關,或 忘了關閉該獨立供水開關2a、2b、2c,而造成在使用 時非預期的出水。 【新型内容】 本新型之主要目的,在於減少供水開關把手的數 量,縮小整體之體積,提供更簡單直觀的操作方式。 本新型之另一目的,在於將控制水溫之結構簡單 化及方便化,並且達到一恆溫控制的目的。 為達上述目的,本新型提供一種分流式溫控龍 頭,包含有一主體、一將該熱水及冷水混合為一溫水 之恆溫控制結構,以及一設置於該主體内之分流閥, 其中該主體具有一熱水通道、一冷水通道以及一混水 通道,該熱水通道與該冷水通道分別供一熱水以及一 冷水流入;而該恆溫控制結構設置於該主體内,該恆 溫控制結構包含有一連通該混水通道之進水殼體以及 一設置於該進水殼體内之軸向位移件,該進水殼體具 有一與該熱水通道連通之熱水進水口,以及一與該冷 水通道連通之冷水進水口,並且該轴向位移件利用軸 向位移控制該熱水進水口與該冷水進水口之開口大 yj\ 〇 該分流閥則具有一供混和後之混水流入的混水進 M380413 水口、一位於該分流閥内之旋轉閥體、一與該旋轉閥 體連接之第一分流口、另一與該旋轉閥體連接之第二 分流口以及一與該旋轉閥體連接用以旋動該旋轉閥體 之旋轴,該旋轉閥體具有一對應該第一分流口與該第 二分流口的孔洞,該孔洞可利用該旋軸旋轉至該第一 分流口之位置或者該第二分流口之位置,此外,該孔 洞更可旋轉至一截止位置,該截止位置為介於該第一 分流口以及該第二流口之間的位置,使該混水無法藉 由任一分流口流出,藉此達到止水功能。 藉由上述說明之結構,本新型提供更簡單直觀的 操作方式,並且藉由該孔洞之位移,可將水流由該第 一分流口或該第二分流口送出,也可將該孔洞旋轉至 一截止位置,停止混水之流出,因此,該分流閥藉由 旋轉方式具有切換該第一分流口、該第二分流口及該 截止位置之功能性。與先前技術相比,本新型之主體 與分流閥結構簡化,進而有效降低產品不良率與組裝 成本,更因為結構簡單,該分流閥内之孔洞較大,因 而可增加出水量,並且也擁有體積小、操作容易的優 點。 【實施方式】 有關本新型之詳細說明及技術内容,現就配合圖 式說明如下: 請參閱『圖2』、『圖3』、『圖4』及『圖5』所示, 係本新型一較佳實施例之組合外觀立體、主體剖面、 恆溫控制結構分解及分流閥外觀立體示意圖,如圖所 示:本新型係為一種分流式溫控龍頭,包含有一主體 5 1 ο、一將該熱水及冷水混合為一混水之懷溫控制結構 20,以及一設置於該主體10内的分流關30。 該主體10具有一熱水通道11、一泠水通道12以 及一混水通道13 ’該熱水通道11與該冷水通道12为 別供一熱水以及一冷水流入。 該恆溫控制結構20設置於該主體1〇内’該恆溫 控制結構20包含有一連通該混水通道13之進水殼體 21、一設置於該進水殼體21内之軸向仪移件22 ’以 及·一供該轴向位移件22做軸向位移的旋進式組件 23,該進水殼體21具有一與該熱水通道11連通之熱 水進水口 211、一與該冷水通道12連通之冷水進水口 212,該軸向位移件22利用軸向位移控制該熱水進水 口 211與該冷水進水口 212之開口大小,而該旋進式 組件23以螺鎖方式與該進水殼體21連接,且該旋進 式組件23具有一利用旋轉做軸向伸縮之調控部231, 該調控部231藉由軸向伸縮使該軸向位移件22位移。 該軸向位移件22具有一鋪設在其表面的陶究層 221、複數供水流通過之通孔222以及一感溫棒223, 該陶瓷層221係以奈米級之二氧化矽為主成分的溶凝 膠樹脂’具備耐磨、摩擦力小、耐酸鹼、不易卡水垢 以及使用胥命長的特點;該感溫棒223之一端抵制在 該旋進式組件23之調控部231上,另一端套設有一彈 性元件224並且該彈性元件224抵制在該進水殼體21 内,該彈性元件224提供一反向於該調控部231之反 向力° 此外該進水殼體21内具有一止水套環213,該 M380413 止水套環213設置在該熱水進水口 211與該冷水進水 口 212之間,該陶瓷層221與該止水套環213緊密接 觸,使水流無法經由該陶究層221與該進水殼體21之 間流過,而使冷水經由該通孔222流過與該熱水混合 形成預定溫度的混水,此外,該進水殼體21更具有兩 個過濾、件214 *該兩過遽件214係分別設置在該熱水 進水口 211與該冷水進水口 212上,用以過遽進入該 進水殼體21内之熱水與冷水,以減少水中之雜質,在 此,需特別說明,接下來的說明以及圖式為了清楚揭 露該恆溫控制結構20之作動方式,將該過濾件214移 除,但在本說明書之實施方式中,該進水殼體皆具有 該過濾件214以過濾水中之雜質。 請特別參閱『圖3』與『圖5』,該分流閥30則具 有一供混水流入之混水進水口 3卜一位於該分流閥30 内之旋轉閥體32、一與該旋轉閥體32連接之第一分 流口 33、另一與該旋轉閥體32連接之第二分流口 34 以及一與該旋轉閥體32連接用以旋動該旋轉閥體32 之旋軸35,該旋轉閥體32具有一對應該第一分流口 33與該第二分流口 34的孔洞36,該孔洞36可利用該 旋軸35旋轉至該第一分流口 33之位置或者該第二分 流口 34之位置,而使該混水經由該第一分流口 33或 該第二分流口 34之位置流出。 請參閱『圖6』及『圖7』,『圖6』為本新型一較 佳實施例之主體另一角度剖面示意圖,『圖7』則為本 新型一較佳實施例之整體實施樣態示意圖,如圖所 示:該主體10更具有一上出水通道14以及一下出水 7 通道15,該上出水通道14與該下出水通道15之一端 分別與該第一分流口 33以及該第二分流口 34連接, 並且該上出水通道14的另一端延伸有一上出水接頭 40,該上出水通道14的表面具有螺紋,與一雨灑裝置 41連接,使該雨灑裝置41以螺鎖的方式連接在該上 出水通道14上。 該下出水通道15的另外一端則連接有一下出水 管50,使該混水可藉由該孔洞36流過該第二分流口 34以及該下出水通道15,由該下出水管50流出,其 中,該下出水管50更設置有一切換構件51以及一蓮 蓬頭52,該混水透過該切換構件51切換輸出至該下 出水管50或者該蓮蓬頭52,在經過該下出水管50或 者該蓮蓬頭52送出。為方便使用者使用,該旋轴35 外更套接有一旋轉把手37,除了美觀的優點以外,也 具有較大面積之旋轉部分提供使用者握持,相同的, 該恆溫控制結構20中之旋進式組件23也連接有一調 控把手24,供使用者握持旋轉。 『圖8-1』至『圖8-3』為本新型之恆溫控制結構 20的作動示意圖,請參閱『圖8-1』所示,係為本新 型之恆溫控制結構20的熱水出水示意圖,在本實施例 中,該恆溫控制結構20藉由旋轉調整該旋進式組件 23之調控部231使該轴向位移件22往該冷水進水口 212的方向做軸向移動,便可縮小該冷水進水口 212 之開口。 請再參閱『圖8-2』,係為本新型之冷水出水示意 圖,該軸向位移件22藉由該調控部231之軸向伸縮往 該熱水進水口 211的方向做軸向位移,縮小或關閉該 熱水進水口 211之開口,藉此調整或關閉該熱水流量 大小。 另一方面,請參閱『圖8-3』所示,係為本新型之 混水出水示意圖,亦可依此方式將該軸向位移件22調 整至該熱水進水口 211與該冷水進水口 212之間,使 該熱水進水口 211與該冷水進水口 212同時進水,流 入該進水殼體21内之冷水係透過該軸向位移件22之 通孔222流進該熱水進水口 211之一端與該熱水混合 達成一混水出水的目的,混合後之混水藉由該混水通 道13流入至該分流閥30之混水進水口 31,經由該分 流閥3 0做分流控制。 請參閱『圖9-1』所示,並請同時參閱『圖3』及 『圖5』,本新型之分流閥30可藉由三種狀態分別描 述其作動方式,透過旋動該旋軸35將該孔洞36位移 至該第一分流口 33之位置,為第一分流狀態,混水藉 由該孔洞36由該第一分流口 33流出;請再參閱『圖 9-2』,若透過旋動該旋轴35將該孔洞36旋轉位移至 該第二分流口 34之位置,為第二分流狀態,混水便藉 由該孔洞36由該第二分流口 34流出;另再配合『圖 9-3』,若該孔洞36旋轉至該截止位置時,該截止位置 為一介於該第一分流口 33以及該第二分流口 34之間 的位置,即為一截止狀態,混水便無法透過該孔洞36 流出該分流閥30外,便可將混水截止,不使之透過任 何一個分流口流出,達到停止出水之功用。 在此,需特別說明的是,本說明書中所提到的混 M380413 水,不僅僅是混和該熱水及冷水的一混和之水,因主 體10内之混水通道13接收由該恆溫控制結構20所流 出之水,而該恆溫控制結構20可提供一純冷水之進 水,因此,當不能限定該混水必須是由熱水及冷水所 混和而成。 綜上所述,由於本新型不僅減少了供水開關把手 的數量,縮小整體之體積,提供更簡單直觀的操作方 式,並且藉由該孔洞36之位移,可將水流由該第一分 流口 33或該第二分流口 34送出,也可將該孔洞36旋 轉至一截止位置,停止混水之流出,因此不需要在分 別調整冷水及熱水的龍頭開關,使用上較為方便。與 先前技術相比,本新型之主體10與分流閥30結構簡 化,進而有效降低產品不良率與組裝成本,更因為結 構簡單,該分流閥30内之孔洞36較大,可以增加出 水量,並且也擁有體積小、操作容易的優點。此外, 該旋轉閥體32係為一陶瓷材料所製成,而該恆溫控制 結構20利用該軸向位移件22表面上之陶瓷層221具 有平滑表面以降低與該進水殼體21之摩擦力,該分流 閥30與該恆溫控制結構20皆具有較為耐磨、抗酸鹼 性高、故障機率低、不容易卡水垢以及使用壽命長的 特點,維修或更換的機率較低,可降低維修的成本。 因此本新型極具進步性及符合申請新型專利之要件, 爰依法提出申請,祈鈞局早日賜准專利,實感德便。 以上已將本新型做一詳細說明,惟以上所述者, 僅爲本新型之一較佳實施例而已,當不能限定本新型 實施之範圍。即凡依本新型申請範圍所作之均等變化 10 與修飾等’皆應仍屬本新型之專利涵蓋範圍内。 【圖式簡單說明】 圖1 ’係習知技術的衛浴龍頭分水裝置示意圖 圖2’係本新型一較佳實施例之組合外觀立體分解示意圖 圖3,係本新型一較佳實施例之主體剖面示意圖 圖4,係本新型一較佳實施例之恆溫控制結構示意圖 圖5,係本新型一較佳實施例之分流閥外觀立體示意圖 圖6 ’係本新型一較佳實施例之主體另一角度剖面示意圖 圖7 ’係本新型一較佳實施例之整體實施樣態示意圖 圖8-1 ’係本新型一較佳實施例之熱水出水示意圖 圖8-2 ’係本新型一較佳實施例之冷水出水示意圖 圖8-3 ’係本新型一較佳實施例之混水出水示意圖 圖9-1,係本新型一較佳實施例之第一分流示意圖 圖9-2,係本新型一較佳實施例之第二分流示意圖 圖9-3,係本新型一較佳實施例之截止示意圖 【主要元件符號說明】 習知 1 :溫度控制開關 2a、2b、2c :供水開關 3 :蓮蓬頭 4:雨灑型供水管 5:下出水管 本新型 ⑴:主體 11 :熱水通道 12 :冷水通道 M380413 混水通道 上出水通道 下出水通道 十互溫控制結構 進水殼體 :熱水進水口 :冷水進水口 :止水套環 :過濾、件 軸向位移件 :陶瓷層 :通孔 .感溫棒 :彈性元件 旋進式組件 :調控部 調控把手 分流閥 混水進水口 旋轉閥體 第一分流口 第二分流口 旋軸 孔洞 旋轉把手 上出水接頭 M380413 41 :雨灑裝置 50 :下出水管 51 :切換構件 52 :蓮蓬頭According to the conventional faucet, the cold water and hot water faucet switches are generally controlled to control the water output of the cold water and the hot water. By adjusting the water output to control the water temperature, the user must rotate the cold water and hot water switch to select the appropriate one. After the water temperature is used, the switch of cold water and hot water must be rotated back to the starting position to turn off the water source of cold water and hot water. If it needs to be used again, the faucet switch of cold water and hot water must be rotated again and adjusted. The two faucet switches can be used up to the required temperature, which is not only inconvenient to use, but also wastes time and water consumption when adjusting the water temperature. Dan cuisine, please read " 1 small W from the Zhizhishu bathroom faucet water distribution device, which is to improve the above problems, mainly to a pre-set of one of the cold and hot water temperature control switch i, With independent multi-function water supply switch 2 &, 21),. To the 2^ water port such as the shower head 3, the rain irrigation type water supply pipe 4 and the lower outlet pipe 5, the user can control and turn off the temperature! Adjust the required water temperature and temperature, and then directly release the water volume by each independent water supply switch. Therefore, the user can fix the size of the jade & ϊ 工 、 疋 L L L L L L L L , , , , , 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑 佑Flexible use of the water outlet space Ø switch, use π - convenient and practical set of 3 meter structure. However, the structure of the water faucet of the sanitary faucet is relatively complicated, and it is necessary to accommodate a plurality of sets of independent water supply switches 2a, 2b, 2c, and the relative assembly cost and assembly volume are relatively increased, and the independent water supply switches 2a, 2b, 2c can be turned on at the same time, and the structural complexity may cause the user to turn on the water switch that is not intended to be used due to an erroneous action, or forget to turn off the independent water supply switch 2a, 2b, 2c, resulting in unintended water discharge during use. [New content] The main purpose of this new model is to reduce the number of water supply switch handles, reduce the overall volume, and provide a simpler and more intuitive operation. Another object of the present invention is to simplify and facilitate the structure of controlling water temperature and achieve the purpose of constant temperature control. In order to achieve the above object, the present invention provides a split type temperature control faucet comprising a main body, a thermostatic control structure for mixing the hot water and the cold water into a warm water, and a diverter valve disposed in the main body, wherein the main body The utility model has a hot water passage, a cold water passage and a mixed water passage, wherein the hot water passage and the cold water passage respectively supply a hot water and a cold water; and the constant temperature control structure is disposed in the main body, and the thermostatic control structure comprises a water inlet casing communicating with the water mixing channel and an axial displacement member disposed in the water inlet casing, the water inlet casing having a hot water inlet connected to the hot water passage, and a a cold water inlet connected to the cold water passage, and the axial displacement member controls the hot water inlet to the opening of the cold water inlet by an axial displacement yj\ 〇 the diverter valve has a mixed water inflow and mixed The water enters the M380413 nozzle, a rotary valve body located in the diverter valve, a first split port connected to the rotary valve body, another second split port connected to the rotary valve body, and a The rotary valve body is connected to a rotary shaft for rotating the rotary valve body, the rotary valve body has a pair of holes corresponding to the first split flow port and the second split flow port, and the hole can be rotated to the first split flow by the rotary shaft a position of the mouth or a position of the second split port, and further, the hole is further rotatable to a cutoff position, the cutoff position being a position between the first split port and the second flow port, so that the water is mixed It is impossible to flow out through any of the split ports, thereby achieving the water stop function. With the above-described structure, the present invention provides a simpler and more intuitive operation mode, and by the displacement of the hole, the water flow can be sent out from the first split port or the second split port, or the hole can be rotated to a The cut-off position stops the outflow of the mixed water. Therefore, the diverter valve has the function of switching the first split port, the second split port, and the cut-off position by the rotation mode. Compared with the prior art, the main body and the diverter valve structure of the present invention are simplified, thereby effectively reducing product defect rate and assembly cost, and because of the simple structure, the hole in the diverter valve is large, thereby increasing the water output and also having a volume. Small, easy to operate. [Embodiment] The detailed description and technical contents of this new model are described below with reference to the following figures: Please refer to Figure 2, Figure 3, Figure 4 and Figure 5 for the new model. The combined appearance of the preferred embodiment, the main body section, the constant temperature control structure decomposition and the appearance of the diverter valve are as shown in the figure: the present invention is a split type temperature control faucet comprising a main body 5 1 ο, a heat The water and cold water are mixed into a mixed water temperature control structure 20, and a diverting shutoff 30 disposed in the main body 10. The main body 10 has a hot water passage 11, a water passage 12, and a water mixing passage 13'. The hot water passage 11 and the cold water passage 12 are supplied with a hot water and a cold water. The thermostatic control structure 20 is disposed in the main body 1'. The thermostatic control structure 20 includes a water inlet housing 21 that communicates with the water mixing channel 13, and an axial displacement member disposed in the water inlet housing 21. 22' and a screw-in assembly 23 for axial displacement of the axial displacement member 22, the water inlet housing 21 has a hot water inlet 211 communicating with the hot water passage 11, and a cold water passage 12 connected cold water inlet 212, the axial displacement member 22 controls the opening size of the hot water inlet 211 and the cold water inlet 212 by axial displacement, and the screw-in assembly 23 is screwed into the water inlet The housing 21 is connected, and the screw-in assembly 23 has a regulating portion 231 that is axially extended and contracted by rotation, and the regulating portion 231 displaces the axial displacement member 22 by axial expansion and contraction. The axial displacement member 22 has a ceramic layer 221 laid on the surface thereof, a through hole 222 through which a plurality of water supply flows, and a temperature sensing rod 223 which is mainly composed of nanometer cerium oxide. The lyogel resin has the characteristics of abrasion resistance, low friction, acid and alkali resistance, difficulty in scaling, and long service life; one end of the temperature sensing rod 223 is resisted on the regulating portion 231 of the screw-in assembly 23, and An elastic member 224 is disposed at one end and the elastic member 224 is resisted in the water inlet housing 21. The elastic member 224 provides a reverse force opposite to the regulating portion 231. Further, the water inlet housing 21 has a a water stop collar 213, the M380413 water stop collar 213 is disposed between the hot water inlet 211 and the cold water inlet 212, the ceramic layer 221 is in close contact with the water stop collar 213, so that the water flow cannot pass through the pottery The layer 221 flows between the water inlet casing 21 and the cold water flows through the through hole 222 to mix with the hot water to form a predetermined temperature. Further, the water inlet casing 21 has two filtrations. , the piece 214 * the two passing elements 214 are respectively disposed in the hot water inlet 211 and the cold water inlet 212 are used to pass through the hot water and cold water entering the water inlet casing 21 to reduce impurities in the water. Here, special description is required, and the following description and drawings are clearly disclosed. The thermostatic control structure 20 is activated to remove the filter member 214. However, in the embodiment of the present specification, the water inlet housing has the filter member 214 to filter impurities in the water. Please refer to FIG. 3 and FIG. 5 in particular, the diverter valve 30 has a mixed water inlet 3 into which the mixed water flows, a rotary valve body 32 located in the diverter valve 30, and a rotary valve body. 32 connected first split port 33, another second split port 34 connected to the rotary valve body 32, and a rotary shaft 35 connected to the rotary valve body 32 for rotating the rotary valve body 32, the rotary valve The body 32 has a pair of holes 36 that should be the first split port 33 and the second split port 34. The hole 36 can be rotated to the position of the first split port 33 or the position of the second split port 34 by the rotary shaft 35. And the mixed water flows out through the position of the first split port 33 or the second split port 34. Please refer to FIG. 6 and FIG. 7 , FIG. 6 is a schematic cross-sectional view of the main body according to a preferred embodiment of the present invention, and FIG. 7 is an overall embodiment of the preferred embodiment of the present invention. As shown in the figure, the main body 10 further has an upper water outlet passage 14 and a lower outlet water passage 17 , and the upper water outlet passage 14 and the lower water outlet passage 15 respectively end with the first split flow port 33 and the second split flow. The mouth 34 is connected, and the other end of the upper water outlet passage 14 extends with an upper water outlet joint 40. The surface of the upper water outlet passage 14 has a thread and is connected with a rain device 41 to connect the rain device 41 in a screw-lock manner. On the upper water outlet channel 14. The other end of the lower outlet passage 15 is connected with a lower outlet pipe 50, so that the mixed water can flow through the second diversion port 34 and the lower outlet passage 15 through the hole 36, and the lower outlet pipe 50 flows out. The lower outlet pipe 50 is further provided with a switching member 51 and a shower head 52. The mixed water is switched to the lower outlet pipe 50 or the shower head 52 through the switching member 51, and is sent out through the lower outlet pipe 50 or the shower head 52. . For the convenience of the user, the rotating shaft 35 is sleeved with a rotating handle 37. In addition to the aesthetic advantages, the rotating portion having a larger area provides the user with the grip, and the same, the rotation of the thermostatic control structure 20 The inlet assembly 23 is also coupled to a control handle 24 for the user to hold the rotation. 『Fig. 8-1』 to 『Fig. 8-3』 is a schematic diagram of the operation of the new constant temperature control structure 20, as shown in Fig. 8-1, which is a schematic diagram of the hot water effluent of the new constant temperature control structure 20. In this embodiment, the thermostatic control structure 20 can reduce the axial displacement of the axial displacement member 22 in the direction of the cold water inlet 212 by rotating the adjustment portion 231 of the screw-in assembly 23 to reduce the The opening of the cold water inlet 212. Please refer to FIG. 8-2 again, which is a schematic diagram of the cold water discharge water of the present invention. The axial displacement member 22 is axially displaced by the axial expansion and contraction of the regulating portion 231 toward the hot water inlet 211, and is reduced. Or closing the opening of the hot water inlet 211, thereby adjusting or closing the hot water flow rate. On the other hand, please refer to the schematic diagram of the mixed water outlet water shown in FIG. 8-3, and the axial displacement member 22 can also be adjusted to the hot water inlet 211 and the cold water inlet in this manner. Between the 212, the hot water inlet 211 and the cold water inlet 212 are simultaneously fed with water, and the cold water flowing into the inlet housing 21 flows into the hot water inlet through the through hole 222 of the axial displacement member 22. One end of the 211 is mixed with the hot water to achieve a purpose of mixing water, and the mixed water flows into the mixed water inlet 31 of the diverter valve 30 through the mixed water passage 13, and is divided by the diverter valve 30. . Please refer to FIG. 9-1, and please refer to FIG. 3 and FIG. 5 at the same time. The diverter valve 30 of the present invention can describe the actuation mode by three states respectively, and the rotation of the rotary shaft 35 will be The hole 36 is displaced to the position of the first split port 33, and is in a first split state. The water is discharged from the first split port 33 through the hole 36. Please refer to FIG. 9-2 again. The rotating shaft 35 rotationally displaces the hole 36 to the position of the second splitting port 34, which is a second split state, and the water is discharged from the second splitting port 34 by the hole 36; 3, if the hole 36 is rotated to the cut-off position, the cut-off position is a position between the first split port 33 and the second split port 34, that is, an off state, the mixed water cannot pass through the When the hole 36 flows out of the diverter valve 30, the mixed water can be cut off without passing through any of the split ports to achieve the function of stopping the water discharge. Here, it should be specially noted that the mixed M380413 water mentioned in the present specification is not only a mixed water of the hot water and the cold water, but the mixed water passage 13 in the main body 10 is received by the constant temperature control structure. 20 outflowing water, and the thermostatic control structure 20 can provide a pure cold water inlet water. Therefore, when it is not limited, the mixed water must be mixed by hot water and cold water. In summary, the present invention not only reduces the number of water supply switch handles, reduces the overall volume, provides a simpler and more intuitive operation, and by the displacement of the holes 36, the water flow can be flown by the first split port 33 or The second split port 34 is sent out, and the hole 36 can also be rotated to a cut-off position to stop the outflow of the mixed water. Therefore, it is not necessary to separately adjust the faucet switch of the cold water and the hot water, which is convenient to use. Compared with the prior art, the structure of the main body 10 and the diverter valve 30 of the present invention is simplified, thereby effectively reducing the product defect rate and assembly cost, and more because the structure is simple, the hole 36 in the diverter valve 30 is large, and the water output can be increased, and It also has the advantages of small size and easy operation. In addition, the rotary valve body 32 is made of a ceramic material, and the thermostatic control structure 20 has a smooth surface with the ceramic layer 221 on the surface of the axial displacement member 22 to reduce the friction with the water inlet casing 21. The diverter valve 30 and the thermostatic control structure 20 have the characteristics of relatively wear-resistant, high acid and alkali resistance, low probability of failure, difficulty in card scale and long service life, and the probability of repair or replacement is low, and the maintenance can be reduced. cost. Therefore, the new model is highly progressive and meets the requirements for applying for a new type of patent. 爰 Applying according to law, the Prayer Council will grant the patent as soon as possible. The present invention has been described in detail above, but the above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited. That is, the equivalent changes 10 and modifications made in accordance with the scope of this new application shall remain within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a combined appearance of a water faucet of a sanitary faucet according to a prior art. FIG. 3 is a perspective view showing a combined appearance of a preferred embodiment of the present invention. FIG. 3 is a main body of a preferred embodiment of the present invention. FIG. 4 is a schematic diagram of a thermostatic control structure of a preferred embodiment of the present invention. FIG. 5 is a perspective view showing the appearance of a diverter valve according to a preferred embodiment of the present invention. FIG. 6 is a main body of a preferred embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 7 is a schematic view of a whole embodiment of a preferred embodiment of the present invention. FIG. 8-1 is a schematic view of a hot water outlet of a preferred embodiment of the present invention. FIG. 8-2 is a preferred embodiment of the present invention. FIG. 8-3 is a schematic diagram of a mixed water outlet of a preferred embodiment of the present invention. FIG. 9-1 is a schematic diagram of a first split flow of a preferred embodiment of the present invention. FIG. FIG. 9-3 is a schematic diagram of a cut-off of a preferred embodiment of the present invention. [Main component symbol description] Conventional 1: temperature control switch 2a, 2b, 2c: water supply switch 3: shower head 4 : Raining type Tube 5: Lower outlet pipe The new type (1): Main body 11: Hot water passage 12: Cold water passage M380413 Water outlet passage on the water passage Channel 10 Inter-temperature control structure Inlet housing: Hot water inlet: Cold water inlet: Stop Water ring: filter, axial displacement parts: ceramic layer: through hole. temperature sensing rod: elastic element screw-in component: regulation part control handle diverter valve mixed water inlet rotary valve body first split port second split port Rotary shaft hole rotating handle upper water outlet joint M380413 41 : rain sprinkler device 50 : lower outlet water pipe 51 : switching member 52 : shower head