五、新型說明: 【新型所屬之技術領域】 本創作主要係揭示一種充氣接頭,尤指能夠收納不同 尺寸鋼瓶且不會戳破鋼瓶之鋼瓶充氣接頭。 【先前技術】 參照圖九至圖十四,為一種傳統的充氣頭。首先請參 閱圖九與圖十,傳統的充氣頭具有一個主體90能夠連接鋼 瓶80並且將鋼瓶80刺破,主體9〇穿設有一個風嘴頭91, 風嘴頭91 一端能夠連接如氣嘴的待充氣物7〇,風嘴頭91 另一端環設有一個上方〇型環92、一個下方0型環93與 一個中間〇型環94,主體90内設一個氣道95能夠與風嘴 頭91内形成氣體連通’使刺破後的鋼瓶中的高壓氣體 能夠經由氣道95進入風嘴頭91内,以進行待充氣物的充 氣作業。 傳、先的充氣頭利用上方〇型環92、下方0型環93與 中間0型¥ 94來與氣道95形成兩個區隔空間,使用者能 夠藉由按[風嘴頭91而切換兩個區隔空間,當氣道95位 於^方〇型環92與中間〇型環94之間時形成氣密狀態。 當氣道95位於下方0型環93與中間〇型環94之間時形成 氣體導通狀H,%㈣進行統。 此種,、先的充氣頭在使用上仍有缺點,請參閱圖十與 圖十田風嘴頭91被按壓時,上方〇型環92將會凸出 主體9〇的上方孔口 96處。而當風嘴頭91回復原位時,如 M425970 圖十二與圖十三所示,上方◦型環92會與主體⑽的孔口 96發生刮傷而導致上方〇型環92破損,而上方〇型環 一旦破損後,則會發生洩氣的問題。如圖十三所示,即使 氣道95位於上方〇型環92與中間〇型環94之間時,上方 0蜜環92仍無法提供氣密效果,導致出現洩露氣體97。 再者,請見圖十四所示,主體90的氣道95也存在著 會刮傷中間0型環94而使中間〇型環94破損的情況,而 中間0型環94 一旦破損後,也會發生洩氣的問題。除了上 方0型環92破損導致出現的茂露氣體97、主體9〇與鋼瓶 別連接處導ά出現的洩露氣體98,還會有中間〇型環% 破損後導致出現的洩漏氣體99,所以傳統的充氣頭在連接 鋼瓶80之後,即使氣道95位於上方〇型環92與中間〇 型環94之間時,充氣頭仍然無法保證鋼瓶8〇不發生洩氣 的問題。 ’ 上述的問題若是發生在鋼瓶80短時間連接於充氣頭 的情況下’短時間的漏氣會造成鋼瓶8〇内部屋力減少,且 使充氣後之胎壓不足的問題不斷發生。 右疋鋼瓶80連接於充氣頭之後而長時間不使用時,由 於鋼瓶80實質上已經被刺破,故鋼瓶8〇内的高壓氣體也 會從主體90與鋼瓶80連接處發生洩氣的問題,一樣導致 出現、/¾露氣體98,這種長時間的漏氣則會造成鋼瓶80完 全洩氣,造成鋼瓶80之浪費,也就是金錢的浪費,不受消 費者所接受,因此仍須改進。 為了解決上述的問題,本創作人乃設計出一種能夠克 4 M425970 服先前技術問題點的鋼瓶充氣接頭 【新型内容】 本創作鋼瓶充氣接頭,其包括有一個封閉接口、 =接口與-個出氣接口’所述的進氣接口與出氣接口相 通連’該進氣接口與出氣接口皆未與該封閉接口相通連, 该封閉接口能夠收納不同尺寸的鋼瓶,而且 會戮破鋼瓶,該進氣接口能夠承接鋼瓶二^接口不 銜接待充氣物,鋼瓶内的高塵氣體能夠經由“= ^氣接Π直接進人待充氣物内,以達到鋼瓶灌絲體的效 本創作鋼瓶充氣接頭,其中該充 體、一個穿刺裝置和-個安全出氣裳置、=有._一個本 體具有-個第一端與一個第二端,;述的第二:接碩的本 收納空間’所述的收納空間與充氣接頭的有-個 連,使收納空間能夠連接鋼瓶之 、、賴口相通 有一個具内螺紋的第一空間,所述^第:本體的第二端設 頭的進氣接口相通連,該本體的第間與該充氣接 頸部使鋼瓶的外螺紋螺合於該 工間施夠容納鋼瓶的 裝置設於該本體第二端的第一空間=間的内螺紋;該穿刺 夠用以刺破鋼瓶之瓶口;該本體牙刺裝置能 間,該第二空間與該充氣接頭的出氣二,一個第二空 的第二空間與該第-空間之間通過—個通通連’該本體 的氣體能夠從該進氣接口依序經由相通連,鋼瓶 h弟一空間、該通道、 5 M425970 該第二空間與該出氣接口而進入待充氣物内,達到進行鋼 瓶灌充氣體的作業,而輯述的進氣接口、該第— 該通道^第二空間與該出氣接口皆未與該封閉接=通 連,該安全出氣裝置設於該本體的第二空間内,所述的安 全出氣裝置能夠銜接待充氣物,並經由控制該充氣接頭與 待充氣物之間的距離而使該安全出氣裝置產生氣體 封閉的狀態。 / 他目的優點和本創作的新顆特性將從以下詳細的 描述與相關的附圖更加顯明。 【實施方式】 —有關本創作所採用之技術、手段及其功效,茲舉一較 佳實施例並配合圖式詳述如後,此僅供說明之用,在專利 申請上並不受此種結構之限制。 參照圖一至圖三,為本創作鋼瓶充氣接頭1〇的第一個 貝細例。本創作之充氣接頭包括有一個本體20、一個 縱向設於本體20 一端的穿刺裝置3〇、一個橫向設於本體 20 —側的安全出氣裝置40 ;其中: 充氣接頭1〇具有一個封閉接口 11、一個進氣接口 12 與一個出氣接D】3,所述的進氣接口 12與出氣接口 13相 通連,但進氣接口 12與出氣接口 13皆未與封閉接口 11 相通連。封閉接口 1〗能夠收納不同尺寸的鋼瓶80,而且 封閉接口 11不會戳破鋼瓶80 ’確保鋼瓶8〇能夠百分之百 的不發生洩氣的問題,進氣接口 12能夠承接鋼瓶8〇,出 6 氣,二3能夠銜接待充氣物7〇(參照圖七),使銅瓶8〇内 的局壓氣體能夠經由充氣接頭1Q的出氣接σ丨3直接進入 待充氣物70内,以達到峨80灌充氣體的效果。 於本實施例中,充氣接頭10的出氣接口 13能夠銜接 法式氣嘴。當然,充氣接頭1G的出氣接σ 13也可依 而設計献_擇性銜接法錢嘴錢式氣嘴等待充 1物 70。 ” 本體20具有彼此相反的一個第一端201與—個第二端 202本體20的弟—端2〇1設有—個收納空間21,所述的 收納空間21與充氣接頭1〇的封閉接口 u相通連,使收約 空間21能夠連接鋼瓶8〇之頸部81。收納空間Μ呈圓孔 狀且於内周緣處設有母螺紋211,母螺紋211能夠螺接鋼 瓶80頸部81的外螺紋82,使本體2〇與鋼瓶8〇之間無需 額外的扣接零件即可達到收納鋼瓶8〇的效果。收納空間 21的深度不大於鋼瓶80頸部81的長度,故鋼瓶8〇以頸 部81的外螺紋82螺接於本體2〇的收納空間21時,鋼瓶 80的瓶身83裸露在充氣接頭1〇之外,如此之設計使充氣 接頭10的封閉接口 11能夠收納多種不同瓶身83尺寸的鋼 瓶80,適應能力廣泛。 本體20收納空間21的封閉端還設有一個彈性頂掣元 件212,所述的彈性頂掣元件212能夠頂推在鋼瓶8〇的瓶 口 84處,使鋼瓶80的外螺紋82與本體20收納空間21 内的母螺紋211螺接後更加穩固,有效避免鋼瓶別自本體 20的收納空間21處脫出。 M425970 本體20的第二端202設有一個具内螺紋221的縱向第 —空間22,所述的第一空間22與充氣接頭的進氣接口 12相通連,本體20的第一空間22能夠容納鋼瓶go的頸 部81,使鋼瓶80的外螺紋82螺合於第一空間22的内螺 紋221,因此’鋼瓶的瓶身83是裸露在充氣接頭外 側,故充氣接頭10的進氣接口丨2將能夠承接多種不同瓶 身83尺寸的鋼瓶80 ’適應能力廣泛。 本體20的一側設有一個橫向第二空間23,第二空間 23與充氣接頭的出氣接口 13相通連,本體2〇的第二 空間23與第一空間22之間通過一個縱向延伸的通道25 相通連’使鋼瓶80的氣體能夠從進氣接口 12依序經由第 —空間22、通道25、第二空間23與出氣接口 13而進入待 充氣物70内’達到進行鋼瓶80灌充氣體的作業。而且所 述的進氣接口 12、第一空間22、通道25、第二空間23與 出氣接口 13皆未與封閉接口 11相通連。 本體20的一側還設有一個封塞24,封塞24能夠在充 氣接頭10未使用時將進氣接口 12堵住,防止異物進入充 氣接頭10内。 穿刺裝置30設於本體20第二端202的第一空間22 内’所述的穿刺裝置30能夠用以刺破鋼瓶80之瓶口 84, 使鋼瓶80内的氣體得以經由刺破後的瓶口 84洩出者。 穿刺裝置30包括有一個設於本體20第一空間22中心 處的牙刺件31與—個環設於本體20第一空間22内的密封 環32。穿刺件31具有一中心孔311供氣體流通,所述密 8 衣32位於牙刺件31與本體20第二端202的内螺紋221 ,故在封% 32能夠藉由内螺紋221的限制而防止穿刺 31脫離本體20的第一空間22,同時密封環32還能夠 ^螺合仙螺紋221的鋼瓶⑽緊密接觸,以形成充氣接頭 效果的進氣接口 12的氣密狀態’達到防止高壓氣體茂漏的 女全出氣裝置40設於本體2〇的第二空間23内,所述 =全出氣裝置40能夠銜接待充氣物7〇,並經由控制充 1G與待充氣物7Q之間的距離而使安全出氣袭置別 屋生氧體流通或封閉的狀態。. 安全出氣裝置40包括有一個固設於本體2〇第二空間 _座4卜一個常態與閥座41形成氣密狀態的闊桿 個將闕桿42頂推靠向間座41的第—彈簧43和一個 ^銜Γ座41内產生相對滑移與相對旋轉關係的銜接嘴 5,銜接嘴45能夠銜接待充氡物7〇。 供闕ίΓΛ氣裝置40的間座心開設有—圓孔如以 閥座’ _2具有,部421能夠封閉 職 防止氣體流通。所述的第一彈翌43 頁推於閥桿42之大徑部切使閥桿,” :::本體2〇第-空間22内的氣體無法經由:道:: ㈣間桿42之間還設有-個橡踢環=斤裝/ :的闕座 能夠提供閱座41與闊桿42之間更佳的氣密^橡膠W4 安全出氣裝置4〇的閥座41具有一個裸露於本體20 M425970 第二空間23外的連接管412 ’閥座41的連接f 412 空圓管狀。 安全出氣裝置40的銜接嘴45具有彼此相反的一個内 端451與-個外端452,銜接嘴45的内端451設於闕座μ 的連接管412内且能夠產生相對的滑移與相對的旋轉關 係。銜接嘴45的内端451能夠選擇性的頂推閱桿似,使 閥桿42的大徑部421離開閥座41而讓氣體流通。銜·接嘴 45的内^ 451與閥座41之間還設有—個第二彈簧仙,第 二彈=46頂推於銜接嘴45與閥座41之間,使銜接嘴奶 產生遠離於閥座41之力。銜接嘴45的内端45ι外周圍設 ^一個〇型環47而能夠與閥座41的連接管412⑽成氣 密關係。 銜接嘴45的外^ 452裸露於閥座的連接管412外, 銜接嘴45内設有-個氣密環48,#銜接嘴&銜接待充氣 物7〇時,所述的氣密環48能夠與待充氣物7〇形成充氣接 頭1〇的出氣接口 13的氣密關係,達到防止高壓氣體茂漏 的效果》 銜接嘴45的内端451與外端侃之間的外周圍形成有 一個環:槽453 ’閥座41的連接管412的兩側則分別開設 有^個貝孔413 ’ -對限位銷49分別貫穿所述閥座連 接官412的貫孔413和銜接嘴奶的環凹槽挪,使銜接嘴 45能夠於閥座41的連接管412内產生有限距離的限位滑 移關係,並且防止銜接嘴45脫離閥座41的連接管412, 同時,所述的限位鎖49不影響銜接嘴45的旋轉作業。於 本貫施例中,銜接嘴45能夠銜接法式氣嘴 4氣5嘴=^:犧崎爾叫嘴= 參照圖三與圖四,為本創作充氣接頭1〇以封閉接口 11螺接鋼瓶之狀態。將舰8G m接㈣的封閉接 口 η ’使鋼瓶8〇以頸部81的外螺紋82螺接在本體 納空間21内的母螺紋211處,使她8G能夠 一起供使用者«,而且螺接於封閉接^、二= 別瓶口 84仍未被刺破,故鋼瓶80長時間的螺接於封閉接 Ζ η内仍不會發生喊的問題,不論何時鋼瓶8g皆能夠 提供百分之百的高壓氣體,沒有浪費的問題。 充氣接頭10的收納空間21的深廑石士 大於鋼瓶80頸部 81的長度’故鋼瓶80以頸部81的外螺紋82螺接於 20的收納空間21時,鋼瓶80的瓶身83裸露在充氣接頭 1〇之外,如此之設計使充氣接頭1◦的封閉接口!丨能约收 納多種不同瓶身83尺寸_瓶80,適應能力廣泛。而且 本體20與鋼瓶80之間無需額外的扣接零件即可達到收納 鋼瓶80的效果,使用上相當方便,而且 80之後還要另外尋找充氣接頭10的時間,節省鋼瓶 時間。 即 了—半的 參照圖五,為本創作充氣接頭10卸下鋼瓶80之狀離。 當使用者欲進行高壓充氣作業時,僅需將鋼瓶8〇自充氣接 頭__接口 n處卸下即可。此時之鋼瓶8()因:口 84仍未被刺破,故鋼瓶80沒有氣體不足的情兄 合 ^ 也不會 M425970 發生卸下後漏氣的問題’鋼瓶8〇仍保持在全新的狀绰,仍 然能夠提供百分之百的高壓氣體,沒有浪費的問題。 參照圖六,為本創作充氣接頭以進氣接口 12銜接 鋼瓶80之狀態。將鋼瓶80裝入充氣接頭1〇的進氣接口 -12’讓鋼觀80與充氣接頭1〇的進氣接口 12之間形成氣密 關係。充氣接頭10的穿刺裝置30承接鋼瓶8〇後,密封^ 32能夠與鋼瓶80緊密接觸’以形成充氣接頭ι〇的進氣接 口 12的氣密狀態。鋼瓶80的瓶口 84被穿刺裝置別的穿 刺件31刺破之後,高壓氣體從鋼瓶8〇内經由進氣接口 12、第一空間22、通道25流入第二空間23,並且被安全 出氣裝置40之閥桿42與閥座41阻隔,故高壓氣體不會經 由出氣接口 13而流入待充氣物7〇内。 參照圖七,為本創作充氣接頭10以出氣接口 13銜接 待充氣物70之狀態。將充氣接頭10的出氣接口 13銜接在 待充氣物70上,使充氣接頭1〇的出氣接口 13與待充氣物 7〇之間形成氣密關係。充氣接頭1〇的安全出氣裝置4〇以 銜接嘴45銜接在待充氣物70後,氣密環48即能夠與待充擊 氣物70形成充氣接頭1〇的出氣接口 13的氣密關係。而如 圖六所述,此時之高壓氣體不會經由出氣接口 W而流入待 充氣物70内。 同時參照圖八,為本創作充氣接頭10對待充氣物7〇 進行鋼瓶80充氣作業的狀態。由於充氣接頭1〇的安全出 氣裴置40以銜接嘴45銜接在待充氣物70上,故銜接嘴 45與待充氣物70之間形成暫時的固定狀態,此時經由控 12 M425970 制充氣接頭10與待充氣物70之間的距離,即能夠使安全 出氣裝置40產生氣體流通或封閉的狀態。 進一步說明,安全出氣裝置4〇的銜接嘴45銜接在待 充氣物70上形成暫時的固定狀態,故銜接嘴奶與待充氣 物70之距離不變’但充氣接頭1〇與待充氣物刊之間的距 離能夠改變’因此,當使用者將充氣接頭1〇朝向待充氣物 70推動%,固定在待充氣物7〇上的銜接嘴奶會與安全出 氣裝置40的閥桿42接觸,並且使閥桿42的大徑部421 與閥座41的橡缪環44分離,形成氣體導通狀態。此時鋼 瓶80内的高壓氣體即能夠經由進氣接口 12、第一空間 通道25、第二空間23流人位於出氣接口 13的待^物7〇 内’達到鋼瓶80充氣的效果。 ,本創作的充氣接頭10將安全出氣裝置40的銜接嘴45 銜接於待充氣物70之後,再將絲接頭1G朝向待充氣物 *,因為待充細與銜接嘴45之間若二氣= 而發生銜接嘴45逐漸脫離待絲物7G的狀況時,使用者 將充氣接頭W朝向待充氣物7G推動的力量正好能夠抵消 銜接嘴45脫離待充氣物70的力量,而且使用者將充氣接 頭1 〇朝向待充氣物7 0推動的力量還能夠將銜接嘴45推回 至與待充氣物7G氣密狀態的暫時固定位置,而能夠持續的 進行鋼瓶80的高壓氣體充氣作業,使用上更加安全且 便。 惟上所述者’僅為本創作之較佳實施例而已,當不能 13 2之限林奴翻,轉凡數值 件之置換,或依本創作中請專利範_作之 錦,皆應仍屬本新型專利涵蓋之範嘴。:欠化“ 【圖式簡單說明】 圖-:為本創作充氣_之立料觀圖。 圖二:為本創作鋼瓶充氣接頭之立體 圖三:為本創作鋼瓶充氣接頭之剖面圖 封閉接Π螺接鋼瓶。 不充乳接頭的 =四:為本創作充氣接頭的封閉接口螺接鋼瓶之狀態 圖五:為本創作鋼瓶充氣接頭卸下鋼瓶之狀離。 =:為本_她錢接頭以進氣接口純触之狀態。 =4本創作織充氣接頭以出氣接。銜接待充氣物之 ==本_鋼瓶充氣接頭對待絲物進行鋼瓶充氣作 ,表示將充氣接難向待充氣物推動,使鋼瓶進 订向壓充氣。 為先前技術之統頭之立體外觀圖,表示鋼瓶未裝 八死氧頭。 =十:為先前技術之充氣頭之剖面圖,表示鋼瓶裝入充氣 嘴’且對氣嘴進行高壓充氣作業。 圖 + — . & I .為先前技術之充氣頭之局部放大剖面圖,表示上 0型裱移出孔口。 14 M425970 : 圖十二:為先前技術之充氣頭之局部放大剖面圖,表示上 0型環移入孔口且被孔口刮傷破損。 一严 圖十三:為先前技術之充氣頭之剖面圖,表示高壓氣體漏 氣之狀態。 圖十四:為先前技術之充氣頭之之剖面圖,表示高壓氣體 另一種漏氣之狀態。 【主要元件符號說明】 籲 (本創作) 10 充氣接頭 11 封閉接口 12 進氣接口 13 出氣接口 20 本體 201 第一端 202 第二端 21 收納空間 211 母螺紋 212 彈性頂掣元件 22 第一空間 221 内螺紋 23 第二空間 24 封塞 25 通道 30 穿刺裝置 31 穿刺件 311 中心孔 32 密封環 40 安全出氣裝置 41 閥座 411 圓孔 412 連接管 413 貫孔 42 閥桿 421 大徑部 43 第一彈簧 44 橡膠環 45 銜接嘴 15 M425970 451 内端 452 外端 453 環凹槽 46 第二彈簧 47 0型環 48 氣密環 49 限位銷 (先前技術) 70 待充氣物 80 鋼瓶 81 頸部 82 外螺紋 83 瓶身 84 瓶口 90 主體 91 風嘴頭 92 上方0型環 93 下方0型環 94 中間0型環 95 氣道 96 孔口 97 洩露氣體 98 洩露氣體 99 洩露氣體V. New description: [New technical field] This creation mainly reveals an inflatable joint, especially a cylinder inflation joint that can accommodate cylinders of different sizes without breaking the cylinder. [Prior Art] Referring to Figures 9 to 14, a conventional inflation head is used. First, referring to FIG. 9 and FIG. 10, the conventional inflation head has a main body 90 capable of connecting the steel cylinder 80 and piercing the steel cylinder 80, and the main body 9 is provided with a wind nozzle 91, and one end of the air nozzle head 91 can be connected with a nozzle. The air inlet head 91 has an upper 〇-shaped ring 92, a lower 0-ring 93 and an intermediate 〇-shaped ring 94. The main body 90 is provided with an air passage 95 and the air nozzle 91. The gas communication is formed in the inside to enable the high pressure gas in the punctured cylinder to enter the tuyer head 91 via the air passage 95 to perform the inflation operation of the object to be inflated. The first and second inflatable heads use the upper 〇-shaped ring 92, the lower 0-ring 93 and the middle 0-type ¥94 to form two compartments with the air passage 95, and the user can switch two by pressing [the wind nozzle 91] The compartment is formed in an airtight state when the air passage 95 is located between the square ring 92 and the intermediate jaw 94. When the air passage 95 is located between the lower 0-ring 93 and the intermediate 〇-shaped ring 94, a gas-conducting shape H is formed, and the % (d) is integrated. In this way, the first inflating head still has disadvantages in use. Referring to Fig. 10 and Fig. 10, when the wind head 91 is pressed, the upper jaw ring 92 will protrude from the upper opening 96 of the main body 9〇. When the tuyeres 91 return to the original position, as shown in Fig. 12 and Fig. 13 of M425970, the upper ◦-shaped ring 92 will be scratched with the opening 96 of the main body (10), causing the upper 〇-shaped ring 92 to be broken, and above. Once the 〇-type ring is broken, it will cause air leakage. As shown in Fig. 13, even if the air passage 95 is located between the upper 〇-shaped ring 92 and the intermediate 〇-shaped ring 94, the upper 0 honey ring 92 does not provide an airtight effect, resulting in the occurrence of the leaking gas 97. Furthermore, as shown in FIG. 14, the air passage 95 of the main body 90 also has a situation in which the intermediate 0-ring 94 is scratched to break the intermediate 〇-shaped ring 94, and once the intermediate 0-ring 94 is broken, The problem of deflation occurs. In addition to the leaking gas 97 caused by the damage of the upper 0-ring 92, the leaking gas 98 appearing at the junction of the main body 9〇 and the cylinder, there will be leakage gas 99 caused by the breakage of the intermediate 〇-type ring, so the conventional After the cylinder head 80 is connected, even if the air passage 95 is located between the upper jaw ring 92 and the intermediate jaw ring 94, the inflation head cannot guarantee the problem that the cylinder 8 does not leak. If the above problem occurs when the cylinder 80 is connected to the inflator for a short period of time, the short-term air leakage will cause the internal force of the cylinder 8 to decrease, and the problem of insufficient tire pressure after inflation will continue to occur. When the right-hand cylinder 80 is connected to the inflation head and is not used for a long time, since the cylinder 80 has been substantially punctured, the high-pressure gas in the cylinder 8 is also deflated from the connection between the main body 90 and the cylinder 80. This leads to the appearance of the gas 98. This long-term leak will cause the cylinder 80 to completely deflate, causing the waste of the cylinder 80, that is, the waste of money, which is not acceptable to the consumer, and therefore must be improved. In order to solve the above problems, the creator designed a cylinder inflation joint that can handle the previous technical problems of 4 M425970. [New content] The created cylinder inflation joint includes a closed interface, = interface and an outlet interface. 'The air inlet interface is connected to the air outlet interface'. The air inlet interface and the air outlet interface are not connected to the closed interface. The closed interface can accommodate cylinders of different sizes and can break the steel cylinder, and the air inlet interface can Undertake the cylinder two ^ interface does not receive the inflated material, the high dust gas in the cylinder can be directly into the inflated object through the "= ^ gas connection, in order to achieve the effect of the cylinder filling body, the cylinder inflation joint, wherein the charging Body, a puncture device and a safety outlet, = have. A body has a first end and a second end; the second: the storage space of the storage space described above The inflation joint has a connection, so that the storage space can be connected to the steel cylinder, and the first space with the internal thread is connected to the air inlet, and the second end of the body is provided with the head The interface is connected, the first portion of the body and the inflatable neck portion screw the external thread of the cylinder to the working chamber, and the device for accommodating the cylinder is disposed at the first space of the second end of the body=the internal thread; the puncture Sufficient to pierce the bottle mouth of the cylinder; the body spur device can pass between the second space and the gas outlet of the inflatable joint, and a space between the second space of the second space and the first space The gas of the body can be connected through the phase through the air inlet interface, the space of the cylinder, the passage, the second space of the 5 M425970 and the air outlet to enter the object to be inflated, and the cylinder is filled with the inflatable body. Working, and the selected intake port, the first channel, the second space, and the air outlet are not connected to the closed connection, and the safety air outlet is disposed in the second space of the body, The safety air outlet device can receive the inflator and control the gas outlet to generate a gas-tight state by controlling the distance between the inflation joint and the object to be inflated. / The advantages of the purpose and the new characteristics of the creation will be as follows The detailed description and the related drawings are more obvious. [Embodiment] - The techniques, means and functions of the present invention are described in detail with reference to a preferred embodiment and the detailed description of the drawings. For the patent application, it is not restricted by this structure. Referring to Figure 1 to Figure 3, the first example of the creation of the cylinder inflation joint 1〇 is the first example. The inflatable joint of the present invention includes a body 20 and a longitudinal direction. a puncturing device 3 设 disposed at one end of the body 20, a safety venting device 40 disposed laterally on the side of the body 20; wherein: the inflation joint 1 〇 has a closed interface 11 , an air inlet port 12 and an air outlet D 3 The air inlet port 12 is connected to the air outlet port 13, but the air inlet port 12 and the air outlet port 13 are not connected to the closed port 11. The closed port 1 can accommodate cylinders 80 of different sizes, and the closed port 11 does not Poke the broken cylinder 80' to ensure that the cylinder 8 can be 100% without deflation, the inlet port 12 can take 8 cylinders, 6 gas, 2 3 can receive the inflatable 7 〇 (refer to Figure 7 The pressure gas in the copper bottle 8 能够 can be directly entered into the object to be inflated 70 via the air outlet σ 丨 3 of the inflation joint 1Q, so as to achieve the effect of the 峨80 filling the inflation body. In the present embodiment, the air outlet port 13 of the inflation joint 10 is capable of engaging a French air nozzle. Of course, the outlet connection σ 13 of the inflatable joint 1G can also be designed according to the selection method. The body 20 has a first end 201 opposite to each other and a second end 202 of the second end 202 body 20 is provided with a storage space 21, and the closed space of the storage space 21 and the inflation joint 1〇 The u-phase is connected, so that the contracting space 21 can be connected to the neck 81 of the cylinder 8 . The storage space Μ has a circular hole shape and is provided with a female thread 211 at the inner circumference, and the female thread 211 can be screwed to the outside of the neck 81 of the cylinder 80 The thread 82 can achieve the effect of accommodating the cylinder 8 without the need of additional fastening parts between the body 2〇 and the cylinder 8〇. The depth of the storage space 21 is not greater than the length of the neck 81 of the cylinder 80, so the cylinder is 8 inches. When the external thread 82 of the portion 81 is screwed to the housing space 21 of the body 2〇, the bottle body 83 of the cylinder 80 is exposed outside the inflation joint 1〇, so that the closed interface 11 of the inflation joint 10 can accommodate a plurality of different bottles. The 83-size cylinder 80 has a wide adaptability. The closed end of the storage space 21 of the body 20 is further provided with an elastic top member 212, and the elastic top member 212 can be pushed up at the mouth 84 of the cylinder 8 The external thread 82 of the cylinder 80 and the housing 20 housing space 21 The female thread 211 is more stable after being screwed, and the cylinder is effectively prevented from coming out of the storage space 21 of the body 20. The second end 202 of the body 20 is provided with a longitudinal first space 22 having an internal thread 221, The first space 22 is in communication with the air inlet port 12 of the inflation joint. The first space 22 of the body 20 can accommodate the neck 81 of the cylinder go, and the external thread 82 of the cylinder 80 is screwed into the internal thread 221 of the first space 22. Therefore, the cylinder 83 of the cylinder is exposed outside the inflation joint, so the intake port 丨2 of the inflation joint 10 will be able to accommodate a wide variety of cylinders of different sizes 83. The adaptability is wide. One side of the body 20 is provided with a lateral direction. The second space 23, the second space 23 is connected to the air outlet 13 of the inflation joint, and the second space 23 of the body 2 is connected to the first space 22 through a longitudinally extending passage 25 to enable the gas of the cylinder 80 to The operation of the cylinder 80 to fill the inflator is carried out from the intake port 12 through the first space 22, the passage 25, the second space 23 and the air outlet interface 13 into the to-be-inflated body 70. The intake port 12 is also provided. ,the first The space 22, the passage 25, the second space 23 and the air outlet interface 13 are not connected to the closed interface 11. The body 20 is further provided with a plug 24 on one side thereof, and the plug 24 can be used when the inflation joint 10 is not in use. The interface 12 is blocked to prevent foreign matter from entering the inflation joint 10. The piercing device 30 is disposed in the first space 22 of the second end 202 of the body 20. The piercing device 30 can be used to pierce the mouth 84 of the cylinder 80. The gas in the cylinder 80 is vented through the pierced bottle mouth 84. The piercing device 30 includes a toothed member 31 disposed at the center of the first space 22 of the body 20 and a ring is disposed in the first space of the body 20. Sealing ring 32 in 22. The piercing member 31 has a central hole 311 for gas circulation, and the squeegee 32 is located at the internal thread 221 of the toothed member 31 and the second end 202 of the body 20, so that the seal % 32 can be prevented by the restriction of the internal thread 221 The piercing 31 is detached from the first space 22 of the body 20, and the sealing ring 32 is also capable of screwing the cylinders (10) of the Thread 221 into close contact to form an airtight state of the air inlet port 12 of the inflation joint effect to prevent high pressure gas leakage. The female full air outlet device 40 is disposed in the second space 23 of the body 2〇, and the full air outlet device 40 can receive the inflator 7〇 and is safely controlled by the distance between the charging 1G and the to-be-inflated object 7Q. The gas is placed in a state in which the oxygen is circulated or closed. The safety air outlet device 40 includes a first spring that is fixed to the main body 2, the second space, the seat 4, and the valve seat 41, which is in an airtight state, and the first spring that pushes the mast 42 against the seat 41. 43 and a mouthpiece 41 in the relative position and relative rotation relationship of the mouthpiece 41, the mouthpiece 45 can receive the charge 7〇. The center of the ΓΛ ΓΛ ΓΛ device 40 is provided with a round hole such as a valve seat _2, and the portion 421 can be closed to prevent gas from flowing. The first magazine 43 is pushed on the large diameter portion of the valve stem 42 to cut the valve stem," ::: The gas in the body 2 〇-space 22 cannot pass through: Road:: (4) Between the bars 42 With a rubber kick ring = kg load / : the seat can provide better airtightness between the reading seat 41 and the wide rod 42 ^ rubber W4 safety air outlet 4 〇 valve seat 41 has a bare body 20 M425970 The connection pipe 412 of the valve seat 41 outside the second space 23 is connected to the valve tube 41. The connection port 45 of the safety air outlet device 40 has an inner end 451 and an outer end 452 opposite to each other, and the inner end of the mouth 45 is engaged. The 451 is disposed in the connecting tube 412 of the sley μ and can generate a relative slip and a relative rotational relationship. The inner end 451 of the engaging mouth 45 can selectively push the rod to make the large diameter portion 421 of the valve stem 42. The gas is circulated away from the valve seat 41. A second spring is disposed between the inner portion 451 of the mouthpiece 45 and the valve seat 41, and the second spring=46 is pushed against the joint mouth 45 and the valve seat 41. During the interval, the mouthpiece milk is generated to be away from the valve seat 41. The inner end 4545 of the mouthpiece 45 is provided with a 〇-shaped ring 47 to be airtight with the connecting tube 412 (10) of the valve seat 41. The outer portion 452 of the connecting nozzle 45 is exposed outside the connecting tube 412 of the valve seat, and the airtight ring 48 is provided in the connecting mouth 45, and the airtight ring is provided when the mouthpiece is in contact with the inflator 7 inches. The ring 48 can form an airtight relationship with the air outlet port 13 of the inflation joint 1〇 with the to-be-inflated material 7〇 to achieve the effect of preventing high-pressure gas from leaking. The outer periphery between the inner end 451 and the outer end turn of the engagement nozzle 45 is formed. a ring: slot 453 'the two sides of the connecting tube 412 of the valve seat 41 are respectively provided with a plurality of holes 413 ' - the limiting pin 49 respectively penetrates the through hole 413 of the valve seat connecting official 412 and the mouth of the milk The ring groove is moved, so that the connecting nozzle 45 can generate a limited distance limit sliding relationship in the connecting pipe 412 of the valve seat 41, and prevents the connecting mouth 45 from coming off the connecting pipe 412 of the valve seat 41, and at the same time, the limit The lock 49 does not affect the rotation operation of the joint nozzle 45. In the present embodiment, the joint nozzle 45 can engage the French air nozzle 4 gas 5 mouth = ^: 祭崎尔叫嘴 = Refer to Figure 3 and Figure 4, inflating the creation The joint 1〇 is screwed to the state of the cylinder by the closed interface 11. The closed interface η ' of the ship 8G m is connected to (4) to make the cylinder 8 The external thread 82 of the neck 81 is screwed into the female thread 211 in the body space 21, so that her 8G can be supplied to the user «, and the screw is connected to the closed connector, and the second bottle port 84 is still not pierced. Therefore, the problem that the cylinder 80 is screwed into the closed joint η for a long time does not occur, and whenever the cylinder 8g can supply 100% of high-pressure gas, there is no problem of waste. The squat of the storage space 21 of the inflatable joint 10 The stone is larger than the length of the neck 81 of the cylinder 80. Therefore, when the cylinder 80 is screwed to the housing space 21 of the neck 81, the bottle 83 of the cylinder 80 is exposed outside the inflation joint 1 ,, so that the design Close the interface of the inflatable joint 1◦!丨 can receive a variety of different bottles 83 size _ bottle 80, a wide range of adaptability. Moreover, the effect of accommodating the cylinder 80 can be achieved without additional fastening parts between the body 20 and the cylinder 80, which is quite convenient to use, and the time of the inflation joint 10 is additionally sought after the 80, thereby saving the cylinder time. That is, the half-figure with reference to Fig. 5 is that the created inflation joint 10 is unloaded from the cylinder 80. When the user wants to perform high-pressure inflation work, it is only necessary to remove the cylinder 8 from the inflation joint __ interface n. At this time, the cylinder 8 () because: the mouth 84 is still not punctured, so the cylinder 80 does not have the gas shortage of the brothers ^ will not M425970 after the problem of air leakage after the removal 'cylinder 8 〇 is still in a new shape Oh, still able to provide 100% high pressure gas, no waste problem. Referring to Figure 6, the creation of the inflatable joint is connected to the cylinder 80 by the air inlet port 12. The air inlet port -12' of the cylinder 80 is inserted into the inflation joint 1' to form a gas-tight relationship between the steel view 80 and the intake port 12 of the inflation joint 1〇. After the puncture device 30 of the inflation joint 10 receives the cylinder 8 ,, the seal 32 can be brought into close contact with the cylinder 80 to form an airtight state of the intake port 12 of the inflation joint ι. After the bottle opening 84 of the cylinder 80 is punctured by the piercing device 31, the high-pressure gas flows from the cylinder 8 into the second space 23 via the intake port 12, the first space 22, and the passage 25, and is safely discharged to the air chamber 40. The valve stem 42 is blocked from the valve seat 41, so that high pressure gas does not flow into the to-be-inflated material 7 through the air outlet port 13. Referring to Fig. 7, the creation of the inflation joint 10 is in a state in which the air outlet port 13 is engaged with the gas to be inflated material 70. The air outlet port 13 of the inflation joint 10 is coupled to the object to be inflated 70 to form a gas-tight relationship between the air outlet port 13 of the gas-filled joint 1 and the material to be inflated. After the safety venting device 4 of the inflation joint 1 衔 is engaged with the object to be inflated 70, the airtight ring 48 can form an airtight relationship with the air outlet port 13 of the inflation joint 1 待. As shown in Fig. 6, the high-pressure gas at this time does not flow into the object to be inflated 70 via the air outlet port W. Referring to Fig. 8 at the same time, the present inflated joint 10 is in a state in which the cylinder 80 is inflated for the inflator 7〇. Since the safety air outlet 40 of the inflation joint 1 is engaged with the to-be-inflated body 70, the engagement nozzle 45 and the to-be-inflated body 70 form a temporary fixed state. At this time, the inflation joint 10 is controlled by the control 12 M425970. The distance from the object to be inflated 70, that is, the state in which the safety air outlet device 40 can circulate or close the gas. It is further explained that the connecting mouth 45 of the safety air outlet device 4 is connected to the object to be inflated 70 to form a temporary fixed state, so the distance between the mouthpiece milk and the object to be inflated 70 is unchanged, but the inflation joint 1〇 and the article to be inflated are published. The distance between the two can be changed. Therefore, when the user pushes the inflation joint 1 〇 toward the to-be-inflated body 70, the joint mouth milk fixed on the to-be-inflated body 7 接触 contacts the valve stem 42 of the safety air outlet device 40, and makes The large diameter portion 421 of the valve stem 42 is separated from the rubber ring 44 of the valve seat 41 to form a gas conducting state. At this time, the high-pressure gas in the cylinder 80 can achieve the effect of inflating the cylinder 80 via the intake port 12, the first space passage 25, and the second space 23 in the object 7 of the outlet port 13 . The inflated joint 10 of the present invention connects the mouthpiece 45 of the safety air outlet device 40 to the object to be inflated 70, and then directs the wire joint 1G toward the object to be inflated*, because if it is to be filled and the mouth 45 is between the air and the air, When the occurrence of the engagement mouth 45 gradually coming off the condition of the item 7G, the force that the user pushes the inflation joint W toward the item 7G to be inflated can exactly cancel the force of the mouthpiece 45 from the object to be inflated 70, and the user will inflate the joint 1 The force pushed toward the object to be inflated 70 can also push the adapter nozzle 45 back to a temporarily fixed position in an airtight state with the object to be inflated 7G, and can continuously perform the high pressure gas inflation operation of the cylinder 80, which is safer and more convenient to use. . However, the above is only a preferred embodiment of this creation. When it is not possible to change the number of forests, the replacement of numerical values, or the patents of the patents in this creation should still be It belongs to the mouth of this new patent. : 欠化" [Simple description of the figure] Figure-: The view of the material for the creation of the inflatable _. Figure 2: The three-dimensional figure of the cylinder inflator for the creation of the cylinder: the cross section of the inflated joint of the created cylinder is closed The cylinder is not filled. =4: The state of the closed joint screw cylinder of the original inflatable joint is shown in Figure 5: The shape of the steel cylinder is removed from the cylinder of the created cylinder. =: This is the _ her money joint to enter The state of the gas interface is purely touched. =4 The woven inflatable joint is connected with the air outlet. The reception of the inflatable material == this _ cylinder inflatable joint is used for the cylinder to inflate the cylinder, indicating that the inflation is difficult to push to the inflated object, so that The cylinder is inflated to the pressure. The stereoscopic appearance of the prior art indicates that the cylinder is not equipped with eight dead oxygen heads. =10: is a cross-sectional view of the prior art inflation head, indicating that the cylinder is filled into the inflation nozzle' The nozzle is subjected to a high pressure inflation operation. Fig. + — . & I. is a partial enlarged sectional view of the prior art inflation head, showing the upper 0 type 裱 removed from the orifice. 14 M425970 : Fig. 12: Part of the prior art inflation head Magnified section , indicating that the upper 0-ring is moved into the orifice and is scratched and damaged by the orifice. Figure 13 is a cross-sectional view of the prior art inflation head showing the state of high pressure gas leakage. Figure 14: Inflating for the prior art The cross-sectional view of the head indicates the state of another leak of high-pressure gas. [Main component symbol description] Call (this creation) 10 Inflatable joint 11 Closed interface 12 Intake port 13 Outlet port 20 Body 201 First end 202 Second end 21 Storage space 211 Female thread 212 Elastic top element 22 First space 221 Internal thread 23 Second space 24 Closure 25 Channel 30 Puncture device 31 Piercing member 311 Center hole 32 Sealing ring 40 Safety air outlet 41 Valve seat 411 Round hole 412 Connecting pipe 413 Through hole 42 Stem rod 421 Large diameter portion 43 First spring 44 Rubber ring 45 Connecting nozzle 15 M425970 451 Inner end 452 Outer end 453 Ring groove 46 Second spring 47 0 ring 48 Gas tight ring 49 Limit pin (Prior Art) 70 To be inflated 80 Cylinder 81 Neck 82 External thread 83 Bottle body 84 Bottle mouth 90 Body 91 Wind mouth 92 Upper 0 ring 93 Lower 0 type 0-ring 94 intermediate airway 95 96 98 opening 97 gas leakage gas leakage gas leakage 99
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