M413782 玉、新型說明: 【新型所屬之技術領域】 本創作係為-概私錢嘴,主要為提供城筒使用之 旋轉式充氣嘴結構。 【先前技術】 請參閱圖一所示之習知旋轉式充氣嘴結構設計組裝圖,該 I知之旋轉式充氣嘴為本創作人所先前所申請發明專利核准 之實施結構設計(我國發明專利號13〇7388/美國發明專利號 US 7,588,048 B2),該發明專利揭露有一打氣筒(圖未示)之 出氣端所向外連接之氣嘴塞組座5〇外套設有一外殼4〇,其中 該外殼40内於該氣嘴塞組座5〇 一端部位置具有一腔室, f „ Μ後端並延伸有一輸氣孔%,該輸氣孔%為向後連 ,並導通至前述之打氣筒出氣端,藉以自内部導出空氣進行打 氣’該腔室51内側組合一具有中心孔的氣嘴塞25,該氣嘴塞 25中心孔再套設一具有出氣孔243的頂心管24,該頂心管24 f端^圓J較大之第—後合端24卜第—I合端241前端為具 有-圓控較小之第二喪合端242與該氣嘴塞25之中心階級孔 搭配’使其受到該氣嘴塞25之位置限制,而該 4〇1 一第一内螺紋4〇1,該第一内螺紋 與美式氣嘴前&之螺紋31螺合,使美式氣嘴30可 ΐ姑腔室51位置並與該氣嘴塞25 —端端緣抵頂密合, ^ 之後端内圓徑上開設一第二内螺紋402 ,並於該 =4^1端螺接-帽蓋4卜透過該帽蓋41前端開設的外 與第二内螺紋4〇2螺接固定’使該外殼40相對於外 52= /開設有一開口 412 ’該開口 412供輸氣孔 阳制,廿小的圓徑卡摯於氣嘴塞組座50後端位置而 右」I 目蓋41包覆於氣嘴塞組座50外以完成整體習知 充軋嘴之組設。 由引述說明可知’習知結構設計藉由該頂心管24與氣嘴 3 塞25為可自氣嘴塞組座50分離的設計,該頂心管24與氣嘴 塞25因此可更換不同的規格搭配於氣嘴塞組座5〇之腔室51 ,,並配合外殼40為以第一内螺紋401螺接氣嘴達到密合打 氣之特性,使該充氣嘴可分別適用於美式氣嘴及英式氣嘴等不 同氣嘴規格之功效,又因該頂心管24依據不同規格氣嘴之搭 配而選用裝設,且其材質更可選用較便宜之塑料材質,不須更 ,以金屬為主要材質的氣嘴塞組座5〇之規格即可搭配不同的 氣嘴,因此具有組裝更為容易、且降低製造成本之優點。 然整體習知結構於特徵上仍必須具備腔室51之設計,主 要為使該乳嘴塞25中與該頂心管24限制於其内部空間中定 位’,因此設計上該腔室51之深度仍具有一定的體積佔用,且 ,形中增加金屬料的耗用,主要的原因在於該腔室51之製做 若以金屬為材質前提下,在兼顧結構強度的前提下通常必須是 自一完整圓柱體上向内切削形成腔室,因此製造過程中必須耗 用較多的材料,若能再縮減該腔室51外_包覆,則將 於整體結構體積的減少,及金屬材料的使用。 【新型内容】 旋轉式充氣嘴,其具有—氣嘴塞組座,該 陰陽螺紋螺接_,該氣嘴塞組座前端並於中心套 ί ί:本創作之主要特徵在於該a嘴塞組座開設有一 套It套設部為自該氣嘴塞組座_心之輸纽位置上= =大内I®孔槽’並於該氣嘴塞組座前端外圓壁上形成一較 圓徑之限綱,紐綱側賴财 t較大圓_第-嵌合端及較小_二/嵌1二 嵌。端為套設於該套設部内定位,而該λ嘴塞之 第二嵌/端上,並受第二嵌合端的限制定A 由刖述的組裝狄計達到減少體積使用藉以縮, 與材料的使Μ ’並使氣嘴塞能妙^管’祕^長度 殼產生旋轉磨擦之娜本創作之次 槽内套設有一0型環,且外殼後端内圓為至少於 ,,且裝7L成時通過並抵頂該0型環外圍’達到氣密的效果,又 塞J該氣嘴塞組座前端接合面積α以及該氣嘴塞與該 離端貼合面積ρ於組裝完成時為呈貼附之狀 ‘ϋ整體充ι嘴於螺接氣嘴進行打氣時,氣嘴抵頂氣嘴塞後 之^力可使該面積α與面御形錢餘態達職佳的打 效者。 【實施方式】 维=閱Πΐ及圖嘛之本創作較佳實施例結構組 裝及刀解不意圖,本創倾轉式絲嘴2G之結構設計 能改善習知結構中該氣嘴塞組座前端之腔室所佔用之長度以 此ί創作取消該腔室51之設計,但為求能 ; 及頂心管24保持定位效果,且避免因捨棄腔室 =十氣嘴塞25因外殼22旋轉而產生接觸磨^,使 ^整?、,n轉習知充氣嘴的氣密效果,因此制對該氣嘴 ίϊί 23重新設計;其中本創作之氣嘴塞組座23主要連接於 =氣请10之頭部12 &氣端上,該頭部12出氣端為其下方筒 内部閥體延伸向上連接之設計,該氣嘴塞組座23於前端 外^^-圓徑較大的限制端232,並於限制端232端緣 iC凹槽並套設有一0型環26,而該氣嘴塞組座23之 輸,孔33前端開設有内徑較大之套設部说_孔槽槽體, 該套設部為自該氣嘴塞組座23中心之輸氣孔233位置上 之較大内圓孔槽,其中該氣嘴塞組座23外圍包覆有一外殼& 及=冒蓋21 ’該外殼22後端在本實施例中為一陽螺紋221, 而外滅22之前端巾爛與所述f知結構-樣開設有—接 = 222供,美式或英式氣嘴等前端螺紋螺接,因此該接合螺紋 隨著所選定搭配的氣嘴規格不同而有差異,該帽 ίτ 細敝有陰觀211麟述之歧22之陽螺紋 二’而該帽蓋21之後端中心開設有-圓徑略大於 刖述軋嘴塞組座23之輸氣孔233外徑較大的開口 213,使其 可於組裝時使輸氣孔233外徑通過該開口 213内徑後穿設,該 開口 213内徑與帽蓋21之後端外圓徑間形成一_^摯部212, ,以限制於該氣嘴塞組座23前端之限制端232端緣後方;而 氣,塞組座23於該外殼22及帽蓋21間套設有一頂心管24及 一氣嘴塞25,其中該頂心管24底部具有一第一嵌合端241形 體,第一嵌合端241另一端設有一第二嵌合端242形體,其中 在,實施例中第一嵌合端241之圓徑較大,而第二嵌合端242 ,徑較小並與第一嵌合端241形成一階級體,該頂心管24内 =則開設有至少一道以上之出氣孔243 ,而氣嘴塞25中心開 設有一中心孔251 ’本創作主要的特徵在於該頂心管24之第 一嵌合端241形體為嵌入該氣嘴塞組座23開設有一套設部231 内並形成定位,而該氣嘴塞25之中心孔251為套合於該頂心 管24之第二嵌合端242上,並受第二嵌合端242的限制定位, 其中該第二嵌合端242前端為與所述的習知結構設計相同為 ,氣嘴螺接進入後抵頂輪胎氣嘴前端氣閥開啟使用,藉由前述 氣嘴塞組座23於該外殼22及帽蓋21間套設有頂心管24及氣 嘴f 25的組裝設計,可使本創作之旋轉式充氣嘴2〇結構在捨 .去則述腔室51後,在不影響打氣效果的前提下達到縮小體積 使用,其不但省去習知結構於製做過程中必須對較長的腔室 51所進行深度切削所浪費的材料,僅需自該限制端232前端 面向内切削的深度僅供第一敌合端241足夠的套設部231槽體 深度套設即可,因此更可套設體積相對更小的外殼22,使整 體充氣嘴20體積長度縮小並可大幅減少製做材料的使用,又 第一嵌合端241套入套設部231定位後,其另一端之第二嵌合 4 242因此可限制氣嘴塞25不會向週圍偏移,在一定體積設 計搭配下,即使氣嘴塞25於充氣嘴20與輪胎氣嘴螺接進入壓 迫後’該氣嘴塞變形的體積亦不會或不致嚴重磨擦到轉動中的 外殼22内徑而受損;其中圖四中另有呈現英式氣嘴所搭配的 頂心管27及其所具備的第一嵌合端271、第二嵌合端272及 出氣孔273之組設,並套設有相搭配的氣嘴塞25’及其中心孔 251,,M413782 Jade, new type description: [New technical field] This creation is a private money mouth, mainly for the rotary aeration nozzle structure used in the city tube. [Prior Art] Please refer to the design and assembly diagram of the conventional rotary aeration nozzle structure shown in Fig. 1. The rotary inflator is known as the implementation structure design of the patent application previously approved by the creator (China invention patent number 13) U.S. Patent No. 7,388, U.S. Patent No. 7,588,048 B2, the entire disclosure of which is incorporated herein by reference. There is a chamber at a position of one end of the nozzle plug base 5, and a rear end of the nozzle plug base has a gas transmission hole %, and the gas transmission hole is connected backwards and is connected to the gas outlet end of the pump. The inside of the chamber 51 is combined with a nozzle plug 25 having a central hole, and the center hole of the nozzle plug 25 is further sleeved with a core tube 24 having an air outlet 243, the core tube 24 f-end ^ circle J is larger - the rear end end 24 - the first end of the joint end 241 is a second funnel end 242 having a smaller circle control and the center hole of the gas nozzle plug 25 It is limited by the position of the nozzle plug 25, and the 4〇1 first inside Thread 4〇1, the first internal thread is screwed with the thread 31 of the front nozzle of the US air nozzle, so that the US air nozzle 30 can be positioned at the position of the chamber 51 and abuts against the end edge of the nozzle plug 25 , a second internal thread 402 is formed on the inner diameter of the end, and the outer end of the cap 41 is screwed through the outer end of the cap 41 and the second internal thread 4〇2 is screwed to the end of the cap 4 Fixing 'make the outer casing 40 with respect to the outer 52=/opening an opening 412'. The opening 412 is for the air inlet hole, and the small circular diameter is clamped to the rear end position of the nozzle plug base 50 and the right side is "I" cover 41 is wrapped around the nozzle plug seat 50 to complete the assembly of the overall conventional filling nozzle. As can be seen from the description, the conventional structure design is designed such that the top tube 24 and the nozzle 3 are separated from the nozzle block 50, and the core tube 24 and the nozzle plug 25 are thus replaceable. The specification is matched with the chamber 51 of the nozzle plug base 5, and the outer casing 40 is matched with the first internal thread 401 to screw the air nozzle to achieve the characteristics of close airing, so that the air nozzle can be respectively applied to the American air nozzle and The effect of the different nozzle specifications such as the British nozzle, and the selection of the top tube 24 according to the matching of different specifications of the nozzle, and the material can be selected from the cheaper plastic material, no need to be more, with metal The main material of the nozzle plug seat can be matched with different nozzles, so it is easy to assemble and reduce the manufacturing cost. However, the overall structure must still have the design of the chamber 51, mainly to position the nipple plug 25 and the core tube 24 in its internal space, so the depth of the chamber 51 is designed. It still has a certain volume occupation, and the consumption of metal material is increased in the shape. The main reason is that the preparation of the chamber 51 is usually made from a complete material under the premise of taking the metal as the material. The cylinder is inwardly cut to form a chamber, so more material must be consumed in the manufacturing process. If the outer space of the chamber 51 is further reduced, the volume of the overall structure will be reduced, and the use of the metal material will be used. [New content] Rotary aeration nozzle, which has a nozzle plug seat, the male and female threaded screw _, the front end of the nozzle plug base is centered on the center: ί: The main feature of the present invention is that the a nozzle group The seat is provided with a set of It sleeves from the mouthpiece seat _ heart to the position of the button = = large inner I® hole groove and a smaller diameter is formed on the outer wall of the front end of the nozzle plug seat The limit of the outline, the new outline of the side of the wealth of t larger circle _ first - mating end and smaller _ two / embedded 1 two embedded. The end is sleeved in the sleeve and positioned on the second insert/end of the λ nozzle, and is restricted by the second mating end, and the assembly is used to reduce the volume. The make-up 'and make the nozzle plug can be wonderful ^ tube 'secret ^ length shell produces a rotating friction of the Na Na created a groove in the inner sleeve with a 0-ring, and the inner end of the shell is at least, and 7L When the time is passed and the top of the 0-ring is 'obtained, the airtight effect is achieved, and the front end joint area α of the nozzle plug seat and the contact area ρ of the end plug are completed when the assembly is completed. The attached shape 'ϋ ϋ ϋ ϋ 于 于 于 于 于 于 于 于 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺 螺[Embodiment] The structure and the solution of the preferred embodiment of the present invention are not intended, and the structural design of the tilting tip 2G can improve the front end of the nozzle assembly in the conventional structure. The length occupied by the chamber is designed to cancel the design of the chamber 51, but for the sake of energy; and the core tube 24 maintains the positioning effect, and avoids the discarding chamber = ten nozzle plugs 25 due to the rotation of the outer casing 22 The contact grinding is generated, so that the airtight effect of the agitating nozzle is changed, so that the nozzle is redesigned; wherein the nozzle plug seat 23 of the present invention is mainly connected to the gas. On the head end 12 & gas end, the air outlet end of the head portion 12 is designed to extend the upward connection of the inner valve body of the lower tube, and the nozzle plug base 23 is at the front end of the outer end of the limit end 232 having a larger diameter. And at the end 232 end edge iC groove and sleeved with a 0-ring 26, and the nozzle plug seat 23 is transported, the front end of the hole 33 is opened with a larger inner diameter sleeve portion The sleeve portion is a large inner circular hole slot at a position of the air inlet hole 233 from the center of the nozzle plug base 23, wherein the air nozzle plug seat 23 is outside The cover 22 is covered with a casing & and = the cover 21'. The rear end of the outer casing 22 is a male thread 221 in the embodiment, and the outer end of the outer casing 22 is rotten and the front end is provided with a connection = 222 for The front end thread of the American or British air nozzle is screwed, so the joint thread differs according to the selected nozzle type. The cap ίτ has a yin 211 Lin Shuzhi 22 The center of the rear end of the cap 21 is opened with an opening 213 whose diameter is slightly larger than the outer diameter of the air vent 233 of the nipple seat 23, so that the outer diameter of the air vent 233 can be passed through during assembly. The opening 213 is bored after the inner diameter of the opening 213, and an inner diameter of the opening 213 and the outer diameter of the rear end of the cap 21 form a flange 212 to limit the end of the limiting end 232 of the front end of the nozzle plug base 23. a gas core, a plug seat 23 is disposed between the outer casing 22 and the cap 21 with a core tube 24 and a nozzle plug 25, wherein the bottom of the core tube 24 has a first fitting end 241 shape, first The other end of the fitting end 241 is provided with a second fitting end 242 shape, wherein in the embodiment, the first fitting end 241 has a larger diameter and the second The joint end 242 has a small diameter and forms a class body with the first fitting end 241. The top core tube 24 has at least one or more air outlet holes 243 therein, and the center of the gas nozzle plug 25 defines a center hole 251'. The main feature of the present invention is that the first fitting end 241 of the core tube 24 is embedded in the set of openings 231 and is formed in the set portion 231, and the central hole 251 of the nozzle plug 25 is The second mating end 242 of the core tube 24 is sleeved and constrained by the second mating end 242. The front end of the second mating end 242 is the same as the conventional structure. After the nozzle is screwed into the rear end of the tire, the front end of the valve is opened, and the assembly of the top end tube 24 and the nozzle f 25 between the outer casing 22 and the cap 21 is formed by the nozzle plug seat 23 The rotary inflation nozzle 2 〇 structure of the present invention can be used to reduce the volume without affecting the air pumping effect after the chamber 51 is described, which not only saves the conventional structure, but also must be omitted in the manufacturing process. The material wasted by the deep cutting of the longer chamber 51, only from the front end of the limiting end 232 The depth of the inward cutting is only sufficient for the sleeve portion 231 of the first enemy end 241 to be deep enough, so that the outer casing 22 having a relatively small volume can be sleeved, so that the overall length of the inflation nozzle 20 can be reduced. The use of the manufacturing material is greatly reduced, and after the first fitting end 241 is inserted into the sleeve portion 231, the second fitting 4 242 at the other end thereof can restrict the nozzle plug 25 from being displaced to the periphery. With the volume design, even if the nozzle plug 25 is screwed into the tire nozzle 20 and the tire nozzle is pressed, the volume of the nozzle plug deformation will not be damaged or not seriously rubbed into the inner diameter of the rotating outer casing 22; In the fourth embodiment, the core tube 27 matched with the British air nozzle and the first fitting end 271, the second fitting end 272 and the air outlet 273 are provided, and are matched with each other. Valve plug 25' and its central hole 251,
異僅為π伶so軋溧个问屋生之尺寸變化 變。 變化,結構搭配特徵並未改The difference is only π伶so rolling and the size change of the house. Change, structural collocation characteristics have not changed
打氣筒產生的氣流可以完整的自輪胎氣嘴進入到輪胎中 而不會自流經的通道中產生外茂狀況;又如該圖五B所示,、 為配合不狀寸大小的英式氣嘴6〇,料殼22糾設有較小 口徑之接合螺紋222,以螺接較小口徑之英式氣嘴6〇前端之 紋61 ;又為使整體旋轉式充氣嘴2〇在美式氣嘴3〇或英式氣 嘴前端嘴緣於充氣完成後旋轉離開氣嘴塞25/25,時,在美 式,嘴30或英式氣嘴60之氣閥關閉尚未完全關閉前,其輪月台 内氣壓因内壓較大而自外殼22與氣嘴塞組座23間的間隙^ 出,導致輪胎内部氣壓可能因此產生部分的消散的狀況,本創 作於外殼22之後端内徑長度為設計至少於外殼22與帽蓋24 ,裝完成時,該外殼22之内徑長度通過該限制端232端緣開 ,之凹槽位置並抵頂該〇型環26位置外圍,使整體旋轉式充 氣嘴20内部達到最佳的氣密效果,而使整體打氣動作 狀態達到最佳狀態。 & 另請參閱圖六及圖七所示之實施狀態圖,本創作之旋轉式 充氣嘴20後端之輸氣孔233,其與打氣筒10連接的方式可為 =末端開設固定螺紋28與打氣筒10之頭部12出氣端螺接固 定’並以Ο型環281套設接合處邊緣達到氣密效果,或以齒 後’外部再以套環291以工具壓合產 干)、為二具^式接設’其軟管13再連接至打氣筒(圖未 不)為延伸長度之設計組裝者。 县上作之旋轉式充氣嘴於設計上除可減少體積 眚Μ人直f無相R或近似的專利或技術公開在先, 利申請:,之新顆性及進步性要求,爰依法提出新型專 【圖式簡單說明】 rSJ 一 園《— Γ5Π 一 圖二 圖四 圖-:係為習知結構之側面剖視示意圖。 係為本創作之局部立體示意圖。The airflow generated by the pump can be completely entered into the tire from the tire nozzle without generating a squeezing condition in the passage through the flow; as shown in Fig. 5B, in order to match the British valve of the size 6〇, the material shell 22 is spliced with a smaller diameter joint thread 222 to screw the smaller diameter of the British air nozzle 6 〇 front end of the line 61; and to make the overall rotary air nozzle 2 美 in the American air nozzle 3 The front end of the cymbal or British ventilator is rotated away from the vent plug 25/25 after the inflation is completed. When the valve of the US, nozzle 30 or British vent 60 is not fully closed, the pressure in the turret is Due to the large internal pressure, the gap between the outer casing 22 and the nozzle plug seat 23 is caused, so that the internal air pressure of the tire may be partially dissipated. The inner diameter of the inner end of the outer casing 22 is designed to be at least the outer casing. 22 and the cap 24, when the loading is completed, the inner diameter of the outer casing 22 is opened through the end edge of the limiting end 232, and the groove position is located at the periphery of the outer ring 26 to make the inner rotary inflation nozzle 20 reach the inside. The best airtight effect, so that the overall pumping state is optimal. . & Please also refer to the implementation state diagrams shown in FIG. 6 and FIG. 7. The air inlet 233 at the rear end of the rotary inflation nozzle 20 of the present invention is connected to the pump 10 in such a manner that the fixing thread 28 is opened at the end. The head of the pump 10 is screwed and fixed at the outlet end of the pump 12, and the edge of the joint is tempered by the Ο-shaped ring 281 to achieve an airtight effect, or the outer part of the tooth is then pressed by the outer ring 291 with a tool. The design of the extension is that the hose 13 is connected to the pump (not shown). The rotary aeration nozzle made by the county is designed to reduce the volume, and the patent or technology is disclosed in the first place. The application for new and advanced requirements is: [Simple description of the diagram] rSJ 一园“— Γ5Π One figure two figure four figure-: is a side cross-sectional view of the conventional structure. This is a partial perspective view of the creation.
Hi創作之局部立體分解示意圖。 圖五Α 部結構分解剖視示意圖。A partial stereo decomposition diagram of Hi creation. Figure 5 shows the structure of the anatomy.
Lb ·· ϊίίί 2之局部結構細裝剖視示意圖。 圖—係作之另一局部結構組裝剖視示意圖 圖七·係為本創作之另一局部組裝剖視圖。 11 筒體 13 軟管 21 帽蓋 212 卡摯部 221 陽螺紋 222, 接合螺紋 231 套設部 【主要元件符號說明】 10 打氣筒 12 頭部 20 旋轉式充氣嘴 211 陰螺紋 213 開口 22 外殼 222 接合螺紋 23 氣嘴塞組座 M413782Lb ·· ϊ ί ί ί 2 Part of the structure of the fine structure. Figure - is a schematic cross-sectional view of another partial structure assembly. Figure 7 is another partial assembly cross-sectional view of the creation. 11 Cylinder 13 Hose 21 Cap 212 Clamping part 221 Male thread 222, Engagement thread 231 Socket [Main component symbol description] 10 Inflator 12 Head 20 Rotary aeration nozzle 211 Female thread 213 Opening 22 Housing 222 Engagement Thread 23 nozzle plug seat M413782
232 限制端 233 輸氣孔 24 頂心管 241 第一嵌合端 242 第二散合端 243 出氣孔 25 氣嘴塞 251 中心孔 252 中心階級孔 25, 氣嘴塞 25Γ 中心孔 26 Ο型環 27 頂心管 271 第一散合端 272 第二嵌合端 273 出氣孔 28 固定螺紋 281 Ο型環 29 齒狀套管 291 套環 30 美式氣嘴 31 螺紋 40 外殼 401 第一内螺紋 402 第二内螺紋 41 帽蓋 411 外螺紋 412 開口 50 氣嘴塞組座 51 腔室 52 輸氣孔 60 英式氣嘴 61 螺紋 9232 Limiting end 233 Air supply hole 24 Core tube 241 First fitting end 242 Second loose end 243 Air outlet 25 Nozzle plug 251 Center hole 252 Center class hole 25, Valve plug 25 Γ Center hole 26 Ο ring 27 The center tube 271 the first loose end 272 the second fitting end 273 the air outlet 28 the fixed thread 281 the Ο ring 29 the toothed sleeve 291 the collar 30 the American nozzle 31 thread 40 the outer casing 401 the first internal thread 402 the second inner Thread 41 Cap 411 External thread 412 Opening 50 Nozzle plug seat 51 Chamber 52 Air inlet 60 British air nozzle 61 Thread 9