M369328 五、新型說明: 【新型所屬之技術領域】 尤指一種具殺菌 本創作係一種有關於容器結構之技術領域 功能的容器結構。 【先前技術】 制的容器,如瓶子或杯子等,係缺少有效的殺菌與除臭方 面的魏設計,由於台灣水質污染嚴重,飲用水佳的水,、會 #直接危害到人體之健康。然而出門在外或旅遊時,常常會需要飲 用水與飲料,但人們卻無法保證其水質的乾淨與無害等問題由 此可知’習用的容器已無法滿足現代人重視飲水健康、衛生與養 生等多元化的需求,實有改良之必要。 【新型内容】 欲解決之技術問題點:習用的容器,如瓶子或杯子等,係缺 少有效的殺g與除臭方面的功能設計,由於台灣水質污染嚴重, 鲁飲用水質不佳的水,會直接危害到人體之健康。然而出門在外或 旅遊時’常常會需要飲用水與飲料,但人們卻無法保證其水質的 乾淨與無害等問題,由此可知,習用的容器已無法滿足現代人重 .視飲水健康、衛生與養生等多元化的需求。 • 解決問題的技術特點:提供一種具殺菌功能的容器結構,係 包括:一開口部、一瓶身部、一軟水部、一雜質過濾部與一底 座。其中,该開口部係包括一開關結構;該瓶身部具有—頂部與 一底部;該軟水部係固設成型於該瓶身部的該頂部上;該雜質過 遽部係固設成型於該開口部與該軟水部之間;該底座係包括一殺 3 M369328 菌座體與-底盤,該殺_座體係固設於該底盤上,該底座係可拆 裝地組設於該瓶身部的該底部上,該殺菌座體係位於該瓶身部 内,該瓶身部與該底座係可包圍形成一殺菌空間。 其中,該開口部係概呈漸縮的制八狀或其他形狀。 其中,該雜質過濾部係為一概呈圓桶狀的雜質過濾棉部。 其中,該軟水部係概呈圓柱狀。 其中’該殺菌座體與該底盤係概呈直角相交。 其中,該底座的該底盤係可拆裝地螺設於該瓶身部的該底部 上。 _ 其中,該開口部更連接有一提把。 其中,該提把係為一橡膠提把。 其中,該瓶身部係為一金屬瓶身部。 其中’該瓶身部係為一熱塑性橡膠(Thermoplastic rubber,簡稱TPR)瓶身部。 其中,該底盤係為一金屬拉髮絲加工處理製成的底盤。 其中,該殺菌座體係包括一陶瓷殺菌座本體層與一二氧化鈦 光觸媒陶瓷層,該二氧化鈦光觸媒陶瓷層係固設成型於該陶瓷殺 菌座本體層外側上,藉以透過該二氧化鈦光觸媒陶瓷層,可達到 殺菌與除臭之功效者。 其中,該二氧化鈦光觸媒陶瓷層係為一二氧化鈦光觸媒與奈 米銀觸媒陶瓷層。 其中,該二氧化鈦光觸媒陶瓷層係為一二氧化鈇光觸媒與氧 化辞觸媒陶瓷層。 其中,該二氧化鈦光觸媒陶瓷層可為一二氧化鈦光觸媒與零 M369328 價鐵陶瓷層。 其中,該二氧化鈦光觸媒陶瓷層可為一二氧化鈦光觸媒與金 陶瓷層。 其中,該殺菌座體可為一長形柱體或其他形狀。 其中,該殺菌座體係包括一玻璃殺菌座本體層與一二氧化鈦 光觸媒玻璃層,該二氧化鈦光觸媒玻璃層係固設成型於該玻璃殺 菌座本體層外側上,藉以透過該二氧化鈦光觸媒玻璃層,可達到 殺菌與除臭之功效者。 其中,該二氧化鈦光觸媒玻璃層係為一二氧化鈦光觸媒與奈 米銀觸媒玻璃層。 其中,該一氧化鈦光觸媒玻璃層係為一二氧化鈦光觸媒與氧 化鋅觸媒玻璃層。 其中,該二氧化鈦光觸媒玻璃層可為一二氧化鈦光觸媒與零 價鐵玻璃層。 其中,該二氧化鈦光觸媒玻璃層可為一二氧化鈦光觸媒與金 玻璃層。 其中,該開關結構係為一旋轉開關,透過該旋轉開關可透過 旋轉關閉該開口部,亦可透過旋轉形成一注水口或出水口,來開 啟該開口部。 其中,該殺菌座體係包括-不仙座本體層與包覆於該不鑛 鋼座本體層外的一二氧化鈦光觸媒陶瓷網層。 其中’該殺菌座體係包括鏽鋼座本體層與包覆於該不鐵 鋼座本體層外的一二氧化鈦光觸媒玻璃網層。 對照先前技術之功效: 一、本創作透過雜質過濾'、軟水、殺g除臭除氣等多段水質處理 M369328 技術手&,可以有效去除過渡泥砂、雜物、懸浮物等且 以除去水中石灰質成為軟水,可㈣免結石與增加口感1 者,可以分解化學物質、氨、農藥與油脂等,亦可去 味、腥味與淨化水質;另外,可分解65〇種以上細菌^ 毒,且可以使水中有高負離子、高涵氧、養生、健康等;並 可以形成能量奈米小分子水,容易新陳代謝,使水質口感甘 甜0 二、 本創作透過該殺菌座體的該二氧化鈦(τ i 〇2)光觸媒陶莞 =或是再摻雜奈米銀等之設計,可以使得該容器結構兼具殺 菌與除臭等多種功效,更能有效毅現代人多元化的需求, 有效提昇飲水的健康與衛生^ 三、 本創作透過該殺菌座體的該二氧化鈦(T i D光㈣_ 層或是再摻雜奈米銀等之設計,可以使得該容器結構兼具殺 菌與除臭等多種功效,更能有效滿足現代人多元化的需求。 、有關本創作所㈣之技術、手段及其功效,轉較佳實施例 並配合圖式詳細說明如后,相信本創作上述之目的、構造及其特 徵,當可由之得一深入而具體的瞭解。 【實施方式】 請參閱第-圖至第五圖所示,本_係提供—種具殺菌功能 的容器結構’係包括:一開口部(i 〇)、_瓶身部(2 〇 )、 -軟水部(3〇)、一雜質過滤部(4〇)與一底座(5〇)。 其中’該開π部(i 〇)係包括1關結構(丄1 );該瓶身部 (2 0 )具有-頂部與—底部;該軟水部(3 q)係固設成型於 該瓶身部(2 Q)的該頂部上;該雜質過據部(4〇)係固設成 M369328 型於該開口部(! 〇)與該軟水部( 〇)係包括-殺菌座體(51)與一底盤(’,,:底座(5 ⑴)係固設於該底盤(52)上,該底座;了菌座體 地組設於該瓶身部(2())係可拆裝 位於該瓶身部(20)内,該瓶身部(2=二…)係 係可包圍形成-殺菌空間。 ―&座(5 0 ) 其中’本創作中的其中一可行實施例為該開口 為概呈漸縮的伽\狀(如第一、二圖所示)或其 行實施例為如第五圖所示之容器外型結構。、另一種可 棉部其中,該雜質韻部(40)係為—概呈圓桶狀的雜麵 其中,該軟水部(30)係概呈圓柱狀。 ▲其中,該殺菌座體(51)與該底盤(52)係概至直角相 父0 其中,該底座(50)的該鹿般f = ^ —ώ (5 2 )係可拆裝地螺設於 該瓶身部(2 0)的該底部上。 其中,該開口部(1 〇)可A —厶居 J ^ 金屬拋光開口部或塑膠電鍍 開口部。 其中,讓開口部(10)更連接有一提把(12)。 其中,該提把(1 2)係為一橡膠提把。 其中,該瓶身部(2 0)係為一金屬瓶身部。 其中,該瓶身部(2 〇 )係為一熱塑性橡膠 (Therm〇plastic rubber,簡稱 TpR)瓶身部。 其中’該底盤(5 2 )係為-金屬拉髮絲加卫處理製成的底 M369328 其中該殺菌座體(5 1 )係包括一陶瓷殺菌座本體層(5 1 1 )與—二氧化鈥(T i 02)光觸媒陶瓷層(5 1 2 ),該二 氧化欽光觸媒喊層(5 1 2)係包覆固設成型於該陶統菌座 本體層(5 1 1 )外侧上,藉以透過該二氧化鈦光觸媒陶究層 (5 1 2),可達到殺菌與除臭之功效者。藉由該二氧化鈦(丁 :1〇2)光觸媒陶竞層(5 i 2 ),可達到殺菌與除臭之功效者。 該一氧化鈦(τ 1 0 2)係屬於銳欽礦型,該殺菌座體(5 1 )係 經高溫4 〇 〇t以上燒製成型,其中,二氧化鈦(τ 土 〇2)係平 均分布於㈣材料中,藉以透過紫外線進行光催化仙,可達到 殺菌與除臭之功效者。當二氧化鈇(T i 02)光觸媒受到大於二 氧化鈦能隙寬度的光線照射後,其電子會從價電帶躍遷至導電 帶,因而產生電子一電洞對。其中電子具有還原性,電洞具有氧 化性,電洞會和二氧化鈦(T i 〇2)表面上的.反應生成氧化 性很高的’ GH-自由基,電子會和氧分子結合形成氧離子.〇厂, 活潑的0H自由基與超氧離子會把有機物分解變為二氧化碳與 水’藉以有$文達到殺菌與除臭效果,纟巾,關於殺菌功能的部 刀’該一氧化鈇(T i 〇2)表面上的自由基係可以直接穿透細菌 的細胞膜’使細胞質流失’進而將細胞核氧化而殺死葡萄球菌、 大腸菌或黴菌等細菌;關於除臭方面,對於氨氣、甲駿、乙搭、 1化碳、苯乙烯、丙稀、乙烯及甲硫醇等臭味的去除皆相當有 效。換言之,在光催化作用的反應機制中,光觸媒的電子組態是 具有填滿的共價帶和^的料帶。傳導帶最減階與共價帶最高 倉b階的能差就是所謂的帶距能,這剛好是照光使物質產生導電性 所需的最低畺。當光子的能量超過帶距能時,電子會從共價帶 躍遷到傳導帶’而留下—個電洞在共價帶裡。對導電的物質而 M369328 言’所產生的電荷載體會立即再結合。但對半導體而言,例如二 氧化鈦,光激發所產生的電子-電洞對會擴散_媒粒子的表 面,而參與化學反應,並和被吸附的施體(d〇n〇r)或受體 (acceptor)分子作用。電洞會氡化施體分子,而位於傳導帶的 電子會還原受體分子。半導體性的金屬氧化物有—特點,就是電 洞的強氧化力。它們可以和水反應進行單電子氧化㈣,產生高 度反應性的氫氧離子基。電洞和氫氧離子基都是很_氧化劑了 可氧化大部分的有機污㈣,藉以有效達到㈣與除臭效果。 其中,該二氧化鈦光觸媒料層(5丄2 )係备二氧化欽 光觸媒與奈米銀觸媒喊層。該二氧化鈦(T i Ο」光觸媒與太 米銀觸媒喊層係指該二氧化鈦(τ i 〇2)光觸媒喊層ϋ 2)更摻雜有奈米銀。一般而言,銀可殺死至少65〇種細菌, 然而-種抗生素-般僅能殺死6種抗生體,由此可見,銀的殺菌 效果良好,銀不具有毒性’透過奈米技術的加卫方式,可以使銀 2活性變大,因此奈米銀的抗菌功能強大。至於奈米銀殺菌的 方式,為銀奈米後’會成為帶有正電荷的奈米銀齡,接觸到帶 有負電荷的細菌後,就會將細菌吸附,穿刺細g細胞的外表使 細菌内部變性,降低其生成能力,讓細胞無法代謝與繁殖,直到 死亡’藉以達職g效果。⑨了抗菌除臭之外,奈米銀還有淨 水、防腐(抑制黴菌生長)、防霉與促進傷口癒合等效果。 其中,該二氧化鈦光觸媒陶究層(5i2)係為—二氧化欽 光觸媒與氧化鋅觸媒㈣層。該二氧化鈦光觸媒與氧化辞觸媒陶 竟層係指該二氧化鈦光觸媒㈣層(5 χ 2 )更摻雜有氧化辞。 其中,該二氧化鈦光觸媒陶瓷層(5 i 2 )可為 M369328 光觸媒與零價鐵陶瓷層。 其中,該二氧化鈦光觸媒陶瓷層(5 1 2)可為一二氧化鈦 光觸媒與金陶瓷層。 其中,該殺菌座體(5 1 )可為一長形柱體或其他各種形 狀,該殺菌座體(5 1)主要係用以分解農藥、處理重金屬與分 解化學物質。 其中,該殺菌座體(51)係包括一玻璃殺菌座本體層(5 13)與一二氧化鈦(Ti02)光觸媒玻璃層(514),該二 氧化鈦光觸媒玻璃層(5 1 4)係包覆固設成型於該玻璃殺菌座 本體層(5 1 3 )外側上,藉以透過該二氧化鈦光觸媒玻璃層 (514),可達到殺菌與除臭之功效者。 其中,該二氧化鈦光觸媒玻璃層(5 1 4)係為一二氧化鈦 光觸媒與奈米銀觸媒玻璃層。 其中,該二氧化鈦光觸媒玻璃層(5 1 4)係為一二氧化鈇 光觸媒與氧化鋅觸媒玻璃層。 其中,該二氧化鈦光觸媒玻璃層(5 1 4)可為一二氧化鈦 光觸媒與零價鐵玻璃層。 其中,該二氧化鈦光觸媒玻璃層(5 1 4)可為一二氧化鈦 光觸媒與金玻璃層。 其中’該開關結構(1 1 )係為一旋轉開關,透過該旋轉開 關可透過旋轉關閉該開口部(1 〇),亦玎透過旋轉形成一注水 口或出水口,來開啟該開口部(1 〇 )。 其中,該殺菌座體(5 1 )係包括一不鏽鋼座本體層與包覆 於該不鏽鋼座本體層外的一二氧化鈦光觸媒陶堯網層,該殺菌座 體(5 1 )係可於一不鏽鋼座體外再包覆一外包網子,該網子上 M369328 藉以有效達到殺菌與除臭 更固設多個二氧化鈦光觸媒陶瓷顆粒, 等功效。 其中,該殺菌座體(51)係匈括 ’、括不鏽鋼座本體層與包覆 於该不鏽鋼座本體層外的—二氣化鈦 ^ r ^ 1 . *化鈦摘媒破璃網層,該殺菌座 瞪(51)係可於一不鏽鋼座體外再包覆一 ^ ,订匕復外包網子,該網子上 個二氧化鈦光觸媒玻制粒,藉以有效達到殺菌與除臭 •、本創作使料,可以將-般的河水、水溝水、山财、地下 水或其他f要飲用但枝用安全顧慮時,將水從概呈t八狀的該 開口部(1 0)倒人瓿中,將瓶輕搖幾下,二分鐘後把瓶子的開 關結構(1 1 )轉開’就可將瓶令潔淨活水倒出飲用,相當便利 /惠結而言’首先’本創作透過雜質«、軟水、殺菌除臭除 氣'多段水質處理技術手段,可以有效去除過濾泥砂、雜物、懸 洋物等;且可以除去水中石灰質成為軟水,可以避1結石與增加 口感;再者,可以分解化學物質、氨、農藥與油脂等,亦可去除 臭味、腥味與淨化水質;另外,可分解650種以上細菌、病毒, 且可以使水中有高負離子、高涵氧 '養生、健康等;並可以形成 能量奈米小分子水,容易新陳代謝,使水質口感甘甜。再者,本 創作透過該殺菌座體的該二氧化鈦(T i 02)光觸媒陶究層或是 再摻雜奈米銀等之設計,可以使得該容器結構兼具殺菌與除臭等 多種功效,更能有效滿足現代人多元化的需求,有效提昇飲水的 健康與衛生。另外,本創作透過該殺菌座體的該二氧化鈦(T i 〇2)光觸媒玻璃層或是再摻雜奈米銀等之設計,可以使得該容器 結構兼具殺菌與除臭等多種功效,更能有效滿足現代人多元化的 11 M369328 需求 體說=針^創作之可行實賴本創作之技術特徵進行具 原則下對μn項技術之人士當可在不脫離本創作之精神與 =如下中睛專利範圍所界定之料卜 【圖式簡單說明】 第圖得'本創作可行實施例之立體外觀示意圖。 第二圖:係本創作可行實施例之爆炸示意圖。 第一圖.係本創作可行實施例之殺菌座體剖面示意圖。 第四圖.係本創作另一可行實施例之殺菌座體剖面示意圖。 第五圖:係本創作又一可行實施例之立體外觀示意圖。 【主要元件符號說明】 (1 0 )開口部 (1 1 )開關結構 (1 2 )提把 (2 0 )瓶身部 (3 〇)軟水部 (4 〇)雜質過濾部 (5 〇 )底座 (51)殺菌座體 (511) 陶瓷殺菌座本體層 (512) 二氧化鈦光觸媒陶瓷層 (513) 玻璃殺菌座本體層 (514) 二氧化鈦光觸媒玻璃層 12 M369328 (5 2)底盤 13M369328 V. New description: [New technical field] A sterilizing machine is a kind of container structure with the function of the technical field of container structure. [Prior Art] Containers, such as bottles or cups, lack effective Wei design for sterilization and deodorization. Due to serious water pollution in Taiwan, water with good drinking water will directly harm the health of the human body. However, when going out or traveling, people often need drinking water and beverages, but people can't guarantee the clean and harmless water quality. It can be seen that 'the used containers can't meet the modern people's attention to drinking water health, sanitation and health. The need for improvement is necessary. [New content] Technical problems to be solved: Conventional containers, such as bottles or cups, lack effective functional design for killing and deodorizing. Due to serious water pollution in Taiwan, Lu drinking water is not good. Directly endangers the health of the human body. However, when you go out or travel, you often need drinking water and beverages, but people can't guarantee the clean and harmless water quality. It can be seen that the used containers can't meet the modern people's weight. See drinking water health, hygiene and health. And so on. • Technical problem of solving the problem: providing a sterilizing container structure, comprising: an opening, a bottle body, a soft water portion, an impurity filtering portion and a bottom seat. Wherein, the opening portion comprises a switch structure; the bottle body portion has a top portion and a bottom portion; the soft water portion is fixedly formed on the top portion of the bottle body portion; and the impurity passing portion is fixedly formed Between the opening portion and the soft water portion; the base system includes a killing 3 M369328 bacteria body and a chassis, the killing system is fixed on the chassis, and the base is detachably assembled to the bottle On the bottom of the body, the sterilization seat system is located in the bottle body, and the bottle body and the base can surround a sterilization space. Wherein, the opening portion is formed in a tapered shape or other shape. The impurity filter portion is an impurity filter cotton portion having a substantially barrel shape. Among them, the soft water system is generally cylindrical. Wherein the sterilization seat intersects the chassis at right angles. Wherein the chassis of the base is detachably screwed to the bottom of the bottle body. _ wherein the opening is further connected with a handle. Among them, the handle is a rubber handle. Wherein, the bottle body is a metal bottle body. The body of the bottle is a thermoplastic rubber (TPR) bottle body. Wherein, the chassis is a chassis made by processing a metal hairline. Wherein, the sterilization seat system comprises a ceramic sterilization seat body layer and a titanium dioxide photocatalyst ceramic layer, wherein the titanium dioxide photocatalyst ceramic layer is fixedly formed on the outer side of the ceramic sterilization seat body layer, thereby transmitting the titanium dioxide photocatalyst ceramic layer The effect of sterilization and deodorization. Wherein, the titanium dioxide photocatalyst ceramic layer is a titanium dioxide photocatalyst and a nano silver catalyst ceramic layer. Wherein, the titanium dioxide photocatalyst ceramic layer is a cerium oxide photocatalyst and an oxidized ceramsite ceramic layer. Wherein, the titanium dioxide photocatalyst ceramic layer can be a titanium dioxide photocatalyst and a zero M369328 valent iron ceramic layer. Wherein, the titanium dioxide photocatalyst ceramic layer may be a titanium dioxide photocatalyst and a gold ceramic layer. Wherein, the sterilization seat can be an elongated cylinder or other shape. Wherein, the sterilization seat system comprises a glass sterilization seat body layer and a titanium dioxide photocatalyst glass layer, wherein the titanium dioxide photocatalyst glass layer is fixedly formed on the outer side of the glass sterilization seat body layer, thereby being transparent to the titanium dioxide photocatalyst glass layer. The effect of sterilization and deodorization. Wherein, the titanium dioxide photocatalyst glass layer is a titanium dioxide photocatalyst and a nano silver catalyst glass layer. Wherein, the titanium oxide photocatalyst glass layer is a titanium dioxide photocatalyst and a zinc oxide catalyst glass layer. Wherein, the titanium dioxide photocatalyst glass layer can be a titanium dioxide photocatalyst and a zero-valent iron glass layer. Wherein, the titanium dioxide photocatalyst glass layer can be a titanium dioxide photocatalyst and a gold glass layer. The switch structure is a rotary switch through which the opening can be closed by rotation, or a water injection port or a water outlet can be formed by rotation to open the opening. Wherein, the sterilization seat system comprises a body layer of the amphis and a titanium dioxide photocatalyst ceramic mesh layer coated on the body layer of the non-mineral steel seat. Wherein the sterilization seat system comprises a body layer of a stainless steel seat and a titanium dioxide photocatalyst glass mesh layer coated on the outer body layer of the iron steel seat. Compared with the efficacy of the prior art: 1. This creation can effectively remove the muddy sand, debris, suspended matter, etc. by removing impurities, such as impurity filtration, soft water, killing deodorization and degassing, etc. Become soft water, (4) Free of stones and increase the taste of one, can decompose chemical substances, ammonia, pesticides and oils, etc., can also taste, smell and purify water; in addition, can decompose more than 65 kinds of bacteria ^ poison, and can The water has high negative ions, high oxygen content, health, health, etc.; and can form energy nano-molecular water, easy to metabolism, make the water taste sweet and sweet. 2. The titanium dioxide (τ i 〇2) through the sterilization seat The design of photocatalyst Taowan=or re-doped nano-silver can make the structure of the container combine various functions such as sterilization and deodorization, and it can effectively meet the diversified needs of modern people and effectively improve the health and hygiene of drinking water. ^ Third, the creation of the titanium dioxide (T i D light (4) _ layer or re-doped nano silver design of the sterilizing body can make the container structure both sterilization With various functions such as deodorization, it can effectively meet the diversified needs of modern people. With regard to the technology, means and functions of this (4), the best examples and detailed descriptions of the drawings are as follows. The purpose, structure and characteristics of it can be obtained from a deep and specific understanding. [Embodiment] Please refer to the figure - to the fifth figure, this _ series provides a container structure with sterilization function : an opening (i 〇), _ bottle body (2 〇), - soft water part (3 〇), an impurity filter part (4 〇) and a base (5 〇). 〇) includes a 1-off structure (丄1); the body portion (20) has a top portion and a bottom portion; the soft water portion (3q) is fixed to the bottle body portion (2Q) On the top, the impurity passing portion (4〇) is fixed to the M369328 type in the opening portion (! 〇) and the soft water portion (〇) includes a sterilization seat (51) and a chassis (',,: The base (5 (1)) is fixed on the chassis (52), and the base is disposed on the bottle body (2()) and is detachably mounted on the bottle body (2) 0), the body (2=2...) system can surround the forming-sterilization space. ―& seat (5 0 ) wherein 'one of the possible embodiments in the creation is that the opening is gradually tapered The gamma-like shape (as shown in the first and second figures) or its row embodiment is a container exterior structure as shown in Fig. 5. In another cotton-making portion, the impurity rhyme portion (40) is - The soft water portion (30) is generally cylindrical. ▲ wherein the sterilization seat (51) and the chassis (52) are substantially at right angles to the parent 0. 50) The deer-like f = ^ - ώ (5 2 ) is detachably screwed to the bottom of the bottle body (20). The opening portion (1 〇) can be A-dwelling J ^ Metal polished opening or plastic plated opening. Wherein, the opening portion (10) is further connected with a handle (12). Among them, the handle (1 2) is a rubber handle. The bottle body (20) is a metal bottle body. The bottle body (2 〇) is a thermoplastic rubber (Therm〇plastic rubber, referred to as TpR) bottle body. Wherein the chassis (52) is a bottom M369328 made of metal hairline reinforcement treatment, wherein the sterilization seat body (5 1 ) comprises a ceramic sterilization seat body layer (51 1) and cerium oxide (T i 02) a photocatalyst ceramic layer (5 1 2 ), wherein the oxidized photocatalyst layer (5 1 2) is coated and fixed on the outer side of the body layer (5 1 1 ) of the terracotta cell, thereby Through the titanium dioxide photocatalyst ceramic layer (5 1 2), the effect of sterilization and deodorization can be achieved. By using the titanium dioxide (Ding: 1〇2) photocatalyst pottery layer (5 i 2 ), the effect of sterilization and deodorization can be achieved. The titanium oxide (τ 1 0 2) belongs to the Ruiqin type, and the sterilization seat (5 1 ) is fired at a high temperature of 4 〇〇t or more, wherein the titanium dioxide (τ 〇 2) is evenly distributed. (4) Among the materials, by means of ultraviolet light, the photocatalyst can achieve the effect of sterilization and deodorization. When the cerium oxide (T i 02) photocatalyst is irradiated with light having a width larger than the TiO 2 energy gap, its electrons will transition from the valence band to the conductive band, thereby generating an electron-hole pair. The electrons are reducible, the holes are oxidizing, and the holes react with the surface of the titanium dioxide (T i 〇 2) to form a highly oxidized 'GH-free radical. The electrons combine with the oxygen molecules to form oxygen ions. 〇Factory, the active 0H free radicals and superoxide ions will decompose the organic matter into carbon dioxide and water. 'There is a bactericidal and deodorizing effect, wipes, the knives on the bactericidal function' 〇 2) The free radicals on the surface can directly penetrate the bacterial cell membrane 'to make the cell mass loss' and then oxidize the nucleus to kill bacteria such as staphylococcus, coliform or mold; for deodorization, for ammonia, A Jun, B The removal of odors such as carbon, styrene, propylene, ethylene and methyl mercaptan is quite effective. In other words, in the reaction mechanism of photocatalysis, the electronic configuration of the photocatalyst is a strip having a filled covalent band and a ^. The difference between the most reduced order of the conduction band and the highest order of the covalent band b is the so-called band gap energy, which is just the minimum required to illuminate the material to produce conductivity. When the energy of a photon exceeds the bandgap energy, electrons will transition from the covalent band to the conduction band' leaving a hole in the covalent band. For conductive substances, the charge carriers produced by M369328 will recombine immediately. But for semiconductors, such as titanium dioxide, the electron-hole pair generated by photoexcitation will diffuse to the surface of the granule, and participate in the chemical reaction, and with the adsorbed donor (d〇n〇r) or acceptor ( Acceptor) molecular action. The hole will degenerate the donor molecule, while the electrons in the conduction band will reduce the acceptor molecule. The characteristic of a semiconducting metal oxide is the strong oxidizing power of a hole. They can react with water for one-electron oxidation (IV), producing highly reactive hydroxide ions. Both the hole and the hydroxide ion base are very oxidizing agents, which can oxidize most of the organic pollutants (4), thereby effectively achieving (four) and deodorizing effects. Wherein, the titanium dioxide photocatalyst layer (5丄2) is provided with a dioxide photocatalyst and a nano silver catalyst layer. The titanium dioxide (T i Ο) photocatalyst and the smectic silver cation layer means that the titanium dioxide (τ i 〇 2) photocatalyst shout layer ϋ 2) is more doped with nano silver. In general, silver kills at least 65 species of bacteria, but antibiotics can only kill 6 antibiotics. This shows that silver has a good bactericidal effect and silver is not toxic. The Guardian method can make the activity of silver 2 larger, so the antibacterial function of nano silver is strong. As for the way of sterilizing nano silver, it will become a positively charged nano silver age after silver nano. When it comes into contact with a negatively charged bacteria, it will adsorb bacteria and puncture the appearance of fine g cells to make bacteria. Internal degeneration, reducing its ability to generate, allowing cells to be unable to metabolize and multiply until death's effect. 9 In addition to antibacterial deodorization, nano silver also has the effects of water purification, antiseptic (inhibition of mold growth), mildew resistance and wound healing. The titanium dioxide photocatalyst ceramic layer (5i2) is a layer of a photocatalyst and a zinc oxide catalyst (four). The titanium dioxide photocatalyst and the oxidized catalyzed ceramic layer mean that the titanium dioxide photocatalyst (4) layer (5 χ 2 ) is more doped with an oxidized word. Wherein, the titanium dioxide photocatalytic ceramic layer (5 i 2 ) may be a M369328 photocatalyst and a zero-valent iron ceramic layer. Wherein, the titanium dioxide photocatalyst ceramic layer (5 1 2) may be a titanium dioxide photocatalyst and a gold ceramic layer. The sterilization seat (5 1 ) may be an elongated cylinder or other various shapes, and the sterilization seat (5 1) is mainly used for decomposing pesticides, treating heavy metals and decomposing chemicals. The sterilization seat body (51) comprises a glass sterilization seat body layer (5 13) and a titanium dioxide (Ti02) photocatalyst glass layer (514), and the titanium dioxide photocatalyst glass layer (51) is coated and fixed. The type of the glass sterilizing seat body layer (5 1 3 ) is passed through the titanium dioxide photocatalyst glass layer (514) to achieve the functions of sterilization and deodorization. Wherein, the titanium dioxide photocatalyst glass layer (5 1 4) is a titanium dioxide photocatalyst and a nano silver catalyst glass layer. Wherein, the titanium dioxide photocatalyst glass layer (51) is a cerium oxide photocatalyst and a zinc oxide catalyst glass layer. Wherein, the titanium dioxide photocatalyst glass layer (51) may be a titanium dioxide photocatalyst and a zero-valent iron glass layer. Wherein, the titanium dioxide photocatalyst glass layer (51) may be a titanium dioxide photocatalyst and a gold glass layer. Wherein the switch structure (1 1 ) is a rotary switch through which the opening portion (1 〇) can be closed by rotation, and a water injection port or a water outlet is formed by rotation to open the opening portion (1) 〇). Wherein, the sterilization seat body (5 1 ) comprises a stainless steel seat body layer and a titanium dioxide photocatalyst ceramic mesh layer covering the body layer of the stainless steel seat, the sterilization seat body (5 1 ) can be in a stainless steel seat In vitro, an outer wrap is coated, and the M369328 on the net is used to effectively sterilize and deodorize more titanium dioxide photocatalyst ceramic particles, and the like. Wherein, the sterilization seat body (51) is an Hungarian bracket, a body layer of the stainless steel seat and a titanium dioxide vaporized metal layer coated on the body layer of the stainless steel seat. The sterilizing seat raft (51) can be coated on the outer surface of a stainless steel seat, and the outer covering net is fixed, and the quaternary titanium dioxide photocatalyst glass granule is used to effectively achieve sterilization and deodorization. It is possible to pour the water from the opening (10) which is generally t-shaped when the river water, the ditch water, the mountain money, the ground water or other f is to be drunk, and the branch is used for safety. Shake the bottle a few times. After two minutes, turn the bottle's switch structure (1 1 ) away, and then pour the bottle into clean drinking water. It is quite convenient/benefit. 'First' this creation through impurities «, soft water , sterilization, deodorization and degassing 'multi-stage water treatment technology means, can effectively remove the filtered mud, debris, suspended matter, etc.; and can remove the lime in the water to become soft water, can avoid 1 stone and increase the taste; in addition, can decompose chemicals , ammonia, pesticides and oils, etc., can also remove odor and astringency In addition, it can decompose more than 650 kinds of bacteria and viruses, and can make the water have high negative ions, high anaerobic 'health, health, etc.; and can form energy nano-small molecular water, easy metabolism, make the water taste sweet. Furthermore, the design of the titanium dioxide (T i 02) photocatalyst ceramic layer or the re-doped nano silver of the sterilizing body can make the container structure have various functions such as sterilization and deodorization, and It can effectively meet the diversified needs of modern people and effectively improve the health and hygiene of drinking water. In addition, the design of the titanium dioxide (T i 〇 2) photocatalyst glass layer or the re-doped nano silver of the sterilizing body can make the container structure have various functions such as sterilization and deodorization, and can better Effectively meeting the diversity of modern people 11 M369328 Demand body theory = needle ^ creation is feasible According to the technical characteristics of this creation, the person who has the principle of μn technology can not deviate from the spirit of this creation and = the following middle eye patent The material defined by the scope [simplified description of the drawing] The figure shows the stereoscopic appearance of the feasible embodiment of the present invention. The second figure is a schematic diagram of the explosion of the feasible embodiment of the present invention. The first figure is a schematic cross-sectional view of a sterilization seat of the presently feasible embodiment. Figure 4 is a schematic cross-sectional view of a sterilizing seat of another possible embodiment of the present invention. Fig. 5 is a perspective view showing a stereoscopic appearance of another feasible embodiment of the present invention. [Description of main component symbols] (1 0 ) Opening section (1 1 ) Switch structure (1 2 ) Lifting lever (2 0 ) Bottle body (3 〇) Soft water section (4 〇) Impurity filter section (5 〇) base ( 51) sterilization seat (511) ceramic sterilization seat body layer (512) titanium dioxide photocatalyst ceramic layer (513) glass sterilization seat body layer (514) titanium dioxide photocatalyst glass layer 12 M369328 (5 2) chassis 13