M368731 五、新型說明: 【新型所屬之技術領域】 本創作是關於一種雙用型氣嘴裝置,尤指—種應用於 打氣領域’可接設不同形式打氣接頭之雙用型氣嘴裝置。 、 【先前技術】 - 常見打氣裝置僅可使用美式氣嘴或法式氣嘴之單—形 Φ 式結構,無法對於不同形式之打氣接頭之產品進行打氣作 業,而必需分別備用不同形式之打氣裝置,造成使用者購 置成本負擔及攜帶使用上相當不便。 為解決此一問題,而有人設計出如發明專利第1284722 號「具自動切換選擇接嘴的充氣裝置氣嘴接頭」,其包含 有一頭部殼體,該頭部殼體具一進氣通道;一分向室,該 分向室設於殼體内,與上述進氣通道連通;二接嘴組件Y 設於該頭部殼體内,各以一流道與所述分向室連通,其連 # 通處为別形成一氣孔,一切換件,以中間樞設在所述分向 、室内,樞軸兩側分別形成一擺臂,所述二擺臂以所柩軸為 '轴心上下擺動,並以二擺臂其中之-封閉住對應的二接嘴 紅件其中一氣孔。 上述f具自動切換選擇接嘴的充氣裝置氣嘴接頭」之 切換件實際是以翹翹板原理,當翹翹板一邊上升另邊自然 下降之設計,當使用第-個接嘴時,利用銜接的氣嘴上推 切換件,使上方的流道呈開啟狀,而切換件另側下降而阻 塞另一流道,令其中一與氣嘴銜接的流道保持開啟。 M368731 雖該結構宣稱結構簡單、操作簡便及具有效果確實η 靠的優點,然設計上仍有過於複雜之處, 可 、 只降便用上則 易有漏氣或結構易損壞之現象,其原因如下: 一、 利用二接嘴組件内的各頂抵件來推抵接嘴組件上 升以推抵切換件,而如翹翹板原理推開流道,並以切換^ 另側封閉另-流道,故設計上必須另個翹翹^件2 切換件,及二組會上升下降接嘴組件,構件相對繁多。 二、 再者切換件係利用底緣周緣塞入流道孔中,故其 精密度要精準,否則易成會漏氣的不良品’相對的加工: 本也會提高;又要將切換件塞緊於流道孔中的力量,實際 是由另-切換件經由頂抵件上頂的力量造成,&當氣嘴: 頂抵件組設不當時,接嘴組件無法將切換件推掣至最高位 ^時,便會造成漏氣現象;同時接嘴組件與切換件的作動 是會造成:者間的摩擦,須為耐摩材f,否則易因長期使 用而造成摩損,進而使產品漏氣,另接嘴組件及切換件若 以耐摩材質則勢必增加材料成本。 【新型内容】 ^本創作設計目的在於,提供一種確動性佳之「雙用型 轧嘴裝置」’使不同形式待充氣件的打氣作業,能方便迅 逮的加以達成。 為達成上述目的之結構特徵及技術内容,本創作「雙 用型氣嘴裝置」包括: 、藉此設計,於—般情況下係以第二闊件側之氣體流道 為常開形式’冑第-闕件中之通孔,於向下出氣側之氣體 M368731 流道為阻隔中斷,而針對具有另 件進行打氣,則可用该另, 式打軋接頭之待充氣 】j用该另—形式打氣接頭的接埒n 柱桿移動,使柱桿阻部可移位於貫孔上 動 阻隔,而可以切換氣體 孔位置加以 因此,本創作”第—闕件之氣體流道連通, 太^ 不同形式之打氣接頭,皆可利用 本創作進行打氣作業,介P 白J矛J用 作業’亦即’本創作可以柱 … 體流道切換,達到確動性佳 仃虱 順暢的加以進行。 t實用功效,而讓打氣作業能 ^一定位座,其内部具有二…該定位座底端設置二 個虱孔連通該二内室,於定 ,^ j壁具有一入氣端部,該 入乳端部中形成一入氣通道連通其中一内室; -第-閥件,其設置上述定位座内部與入氣通道連通 之内室中’該第一閥件包含組合一起的氣嘴失座、套體、 柱:及彈:,該套體中設置一上下貫穿之通孔,該套體表 面設置一貫孔與該通孔相通,該柱桿上設置—阻部,該彈 簧套設於該柱桿且位於阻部上方的上端部,該柱桿係可上 下滑移定位的設置於該套體之通孔中,使該阻部能位於該 套體内部不同位置,而能用於切換經由入氣通道、貫孔注 入通孔中之氣體流向; 一第二閥件,其包含組合一起的氣嘴及筒體,該筒體 内部具有一上下貫穿之透孔,該筒體底端具有銜接部,該 銜接部中形成出氣流道與該透孔相連通,該銜接部銜接氣 夾座嘴’該氣嘴夾座及該筒體設置於上述定位座之另一内 室中; 撥轉抵壓件’其包含一滑動座及一撥桿,該滑動座 M368731 =於定位座中而位於二内室上方’且該滑動座側邊抵於 第山閥件及第—閥件頂端,該滑動座一侧底端抵壓於彈簧 上端以及該撥桿一端樞設於上述定位座上緣,該撥桿之 撥轉角度可用於推移滑動座於定位座中滑移定位。 【實施方式】 本創作設計,於定位座中設置二内室,使不同形式之 =件可分別設置於二内室中,而可以利用其中—閥件之柱 桿於操作過程中對於氣體流道之切換,使不同形式待充氣 件之打氣接頭,都可用本創作進行打氣作業,本創作之設 計可供具有充氣軟管的充氣裝置使用,例如落地式打氣 筒,或可直接連接打氣筒上,不需通過軟管連接使用,例 如手持式打氣筒或迷你式打氣筒等。 配合參看第-、二圖所示,本創作「雙用型氣嘴裝置」 包括一定位座(ίο)及設置於該定位座(1〇)中之第一閥件 (20)、第二閥件(30),以及包括一設置於定位座(1〇)上方 之撥轉抵壓件(40),於本創作之較佳實施結構中,該第一 閥件(20)可為法式閥件,該第二閥件(3〇)可為美式閥件, 使目前通用之法式或美式打氣接頭皆可組接使用,其中· 定位座(10)内部形成開口之容置空間(11),於其中設 —間隔板(12)區隔成二内室(111)(112),二内室(1U)(112X) 底端設置有貫通之氣孔(13)(14) ’於定位座(1〇)側壁具有 入氣端部(15) ’該入氣端部(15)設置入氣通道(〗6)連通 内室(111) ’入氣端部(15)表面設置外螺紋,可螺設一銜 接套(50),使入氣端部(15)可定位接設在充氣裝置之管路 M368731 輸出端,或直接連接打氣筒。 如第二圖所示,該第一閥件(2〇)包含氣嘴夾座(21)、 套體(22)、柱桿(23)及彈簧(24),該氣嘴夾座(21)於本創 作之較佳實施例中係顯示為法式氣嘴夾座,該氣嘴夾座(21) 為橡膠材質所製作,而具有可被壓縮及回復的彈性,該氣 嘴夾座(21)及套體(22)設置於上述與入氣通道連通之 ' 内室(111)中; - 該套體(22)表面環設有凹槽(220),内部具有一上下 Φ 貫穿之通孔(221)’凹槽(220)設一貫孔(222)與該通孔(221) 相通,又通孔(221)内緣環設擋部(223),該套體(22)外側 上周緣套設環圈(25),該環圈(25)能抵壓於定位座(1〇)内 壁面而具有良好的氣密性。 該柱桿(23)係設置於套體(22)的通孔(221)中,並具 有阻部(231),該彈簧(24)套設於該柱桿(23)且位於阻部 (231)上方處,柱桿(23)之阻部(231)表面套設環圈(232), 該環圈(232)能抵壓於套體(22)通孔(221)内壁面,使柱桿 • (23)設置於套體(22)通孔(221)中之上下滑移,能保持其 切換氣體流道時之氣密性能。 • 如第二圖所示,該第二閥件(3〇)包含一氣嘴夹座(31) 及一筒體(32) ’該氣嘴夾座(31)為橡膠材質所製作,而具 有可被壓縮及回復之彈性,於本創作之較佳實施例中係顯 示為美式氣嘴夾座,該筒體(32)内部具有—上下貫穿之透 孔(33),底端具有銜接部(34),該銜接部(34)中形成通道 (35)與21透孔(33)相連通,該銜接部(34)銜接氣嘴夾座 (31)。 M368731 如第一圖、第一圖所示,該撥轉抵壓件(40)包含一滑 動座(41)及一撥桿(42),該滑動座(41)底端形成一凹部 (411),該滑動座(41)設置於上述定位座(1〇)之容置空間 (11)中,滑動座(41) 一側底端抵壓於彈簧(24)上端,而由 於彈簧(24)底端抵於該柱桿(23)之阻部(231)上緣,使彈 簧(24)壓縮的彈性力量可推抵柱桿(23),使該柱桿(23)之 阻部(231)忐抵於擋部(223)上端,而該阻部(231)位於套 - 體(22)之貝孔(222)下方,使入氣通道(16)、貫孔(222)及 # 套體之通孔(221)形成相通之氣體流道。 由於滑動座(41)設置於定位座(1〇)之容置空間(η) 中,其侧邊抵於第一閥件(2〇)及第二閥件(3〇;),以及該凹 部(411)對位於二内室(uudw)上方,使第一閥件(2〇) 套體(22)之通孔(221)與第二閥件(30)筒體(32)之透孔 (33),可經過滑動座(41)凹部(411)形成相通之氣體流道。 上述撥轉抵壓件(40)之撥桿(42)—端以柩軸樞設於定 位座(10)上緣,撥桿(42)樞設端側至樞軸的距離大於該撥 ® 桿(42)末端至柩軸之距離,使撥桿(42)向下撥轉時,可以 推移滑動座(41)於定位座(10)中向下滑移,而能抵壓第一 閥件(20)、第一閥件(3〇),使橡膠材質之氣嘴夾座(Η)、 氣嘴夾座(31)可被擠壓而能密緻的接設待充氣件之法式打 氣接頭或美式打氣接頭。 上述滑動座(41)周面設置一環槽(412),於環槽(412) 中套設一環圈(413),該環圈(413)抵壓於定位座(1〇)内壁 面,使滑動座(41)置入定位座(1〇)中之上下滑動,能以環 圈(413)抵於定位座(1〇)内壁面,以保持定位座(1〇)中傳 « M368731 輸氣體之氣密性。 配合參看第三圖所示,其係本創作應用於美式打氣接 頭(60)的接設,其係將待充氣件為美式打氣接頭(6〇)者插 入氣孔(14)中,而與第二閥件(3〇)相接,並且,撥動撥轉 抵壓件(40)之撥桿(42)旋轉,而可以推抵滑動座(41)向下 滑移,及透過筒體(32)擠壓氣嘴夾座(31),使氣嘴夾座(Μ) •能穩定的接設該美式打氣接頭(60),此時,能使來自於充 .亂裝置之管路輸出端所打入的氣體,可經由入氣通道(16) • 流經貫孔(222)、通孔(221)、凹部(411)空間後.,經由第二 閥件(30)之透孔(33)、通道(35)而注入美式打氣接頭(6〇) 中,對於待充氣件進行打氣作業,即用於第二閥件(3〇)側 之氣體流道,於一般情況下係形成常開形式,此時,柱桿 之阻部(231)位於貫孔(222)下侧,而對於第一閥件(2〇)中 之通孔(221),於向下出氣側之氣體流道係形成阻隔中斷。 配合參看第四圖所示,其係本創作應用於法式打氣接 頭α〇)的接設,而將待充氣件為法式打氣接頭(7〇)者插入 鲁氣孔(13)中與第一閥件(20)相接,並且撥動撥轉抵屢件(4〇) 之撥桿(42)旋轉,而推抵滑動座(41)向下滑移,及透過套 -體(22)擠壓氣嘴夾座⑼,使氣嘴夾座⑼能穩定的接設 法式打氣接頭(70),此時,法式打氣接頭(7〇)頂端向上推 動柱桿(23),使柱桿(23)之阻部(231)向上抵壓彈簧(24), 位移且越過貫孔(222),而可以柱桿(23)阻部(231)阻於第 孔mu上侧’使向上出氣側之氣體流道形 成阻隔中斷,而讓來自於充氣裝置之管路輸出端所打入的 軋體,可經由入氣通道(16)流經貫孔(222)而打入第一閥件 9 M368731 (20)之通孔(221)向下打入法式打氣接頭(7〇)中,對於 氣件進行打氣作業。 、因此,經由上述結構特徵、技術内容及操作使用上之 詳細說明,可清楚看出本創作設計特點在於: 提供一種確動性佳之「雙用型氣嘴裝置」,其設置— *開型態之第二閥件,及一可控制其開啟與關閉之第一閥 件該第閥件利用彈簧的復位作用,即可達到常閉型態, 藉此π又汁可精簡結構,另利用第一閥件之貫孔移位,改變 氣的流道,而不會有漏氣之現象存在,藉此設計,可以推 抵柱桿移位操作’而能達到明確切換氣體流道效果,故能 達到確動性佳及順暢的用於不同形式打氣接頭進行打氣操 作0 【圖式簡單說明】 第一圖 本創作立體分 第二圖 本創作組合剖 第三圖 本創作用於美 第四圖 本創作用於法M368731 V. New description: [New technical field] This creation is about a dual-purpose air nozzle device, especially a dual-purpose air nozzle device that can be used in the field of air pumping. [Prior Art] - The common air pumping device can only use the single-shaped Φ structure of the American air nozzle or the French air nozzle. It is not possible to pump the products of different types of air-inflating joints, and it is necessary to separately use different types of air-inflating devices. It is quite inconvenient for the user to purchase the cost burden and carry it. In order to solve this problem, an inflator device nozzle having an automatic switching selection nozzle is designed as disclosed in the patent No. 1,284,722, which includes a head housing having an intake passage; a branching chamber, the branching chamber is disposed in the housing and communicates with the air inlet passage; the two nozzle assemblies Y are disposed in the head housing, and each of the first direction passages communicates with the branching chamber, and the connecting chamber #通形成形成形成一孔孔, a switching member, with a middle pivot in the direction, the room, a swing arm is formed on each side of the pivot, the two swing arms swing up and down with the axis of the shaft And with one of the two swing arms - close one of the corresponding two nozzle red parts. The switching member of the above-mentioned inflator device with automatic switching selection nozzle is actually based on the principle of the seesaw, and the design of the rocker rises while the other side is naturally lowered. When the first nozzle is used, the connection is utilized. The air nozzle pushes up the switching member so that the upper flow path is opened, and the switching member is lowered on the other side to block the other flow path, so that one of the flow paths that are connected to the air nozzle remains open. M368731 Although the structure claims to be simple in structure, easy to operate, and has the advantage of being effective, the design is still too complicated, but it can be easily leaked or the structure is easily damaged. As follows: 1. Using the top abutting members in the two nozzle assemblies to push the nozzle assembly up to push the switching member, and push the flow path as the seesaw principle, and switch the other side channel Therefore, the design must have another tilting member 2 switching member, and the two groups will rise and fall the nozzle assembly, and the components are relatively numerous. Second, the switching parts are inserted into the flow channel holes by the periphery of the bottom edge, so the precision should be precise, otherwise the defective products that are easy to leak will be 'relative processing: this will also be improved; and the switching pieces will be plugged tightly The force in the runner hole is actually caused by the force of the other-switching member via the top of the top member. & When the nozzle: the top member is not properly assembled, the nozzle assembly cannot push the switch member to the highest position. When the position is ^, it will cause air leakage. At the same time, the action of the nozzle assembly and the switching member will cause: the friction between the two must be resistant to the friction material f, otherwise it will be easy to wear due to long-term use, and then the product will leak. If the other nozzle assembly and the switching member are made of anti-friction material, the material cost is bound to increase. [New Content] ^The purpose of this creation is to provide a "dual-use type of nozzle-making device" that is highly versatile, so that different types of air-filling operations to be inflated can be easily achieved. In order to achieve the structural characteristics and technical contents of the above purpose, the "dual-use gas nozzle device" of the present invention comprises: and, by the same design, the gas flow path on the second wide-piece side is normally opened. The through hole in the first member, the flow path of the gas M368731 on the downward air outlet side is interrupted, and for the air pumping with the component, the other type of the welded joint can be inflated. The joint of the airing joint n moves, so that the rod resistance can be moved on the through hole and the gas hole can be switched. Therefore, the gas passage of the first part of the creation is connected, too different In the form of a gas-filled joint, you can use this creation to perform a pumping operation. The P-white J-spear J can be used for the job. That is, the creation can be used for the column... The body flow is switched, and the correctness is achieved smoothly. Efficacy, and allowing the airing operation to be a positioning seat, the inside of which has two... The bottom end of the positioning seat is provided with two pupils to communicate with the two inner chambers, and the wall has an inlet end, the milk inlet end Forming an air inlet channel to connect one of the parts a first valve member that is disposed in the inner chamber in communication with the air inlet passage in the interior of the positioning seat. The first valve member includes a combination of a valve seat, a sleeve, a column, and a bomb: the casing Providing a through hole penetrating through the upper and lower sides, the cover body surface is provided with a constant hole communicating with the through hole, the column is provided with a resistance portion, the spring is sleeved on the column and located at an upper end portion above the resistance portion, the column The rod can be slidably positioned in the through hole of the sleeve body, so that the resistance portion can be located at different positions inside the sleeve body, and can be used for switching the flow of gas into the through hole through the air inlet passage and the through hole. a second valve member comprising a combined nozzle and a cylinder, the cylinder having a through hole penetrating through the bottom thereof, the bottom end of the barrel having an engaging portion, wherein the connecting portion forms an air flow passage and the through hole The hole is connected to the air, and the connecting portion is connected to the air grip holder. The nozzle holder and the cylinder are disposed in another inner chamber of the positioning seat. The dialing pressing member includes a sliding seat and a lever. The sliding seat M368731=in the positioning seat and above the two inner chambers' and the sliding The side of the seat is opposite to the top of the valve member and the first valve member. The bottom end of the sliding seat is pressed against the upper end of the spring and one end of the lever is pivoted on the upper edge of the positioning seat. The slide seat is slidably positioned in the positioning seat. [Embodiment] The design is to provide two inner chambers in the positioning seat, so that different types of parts can be respectively disposed in the two inner chambers, and the valve can be utilized therein. The switching of the gas passages during the operation of the rods enables the different types of gas-filled joints to be inflated, and the design can be used for the air pumping operation. The design of the design can be used for an inflator with an inflatable hose, for example, landing. Inflator, or can be directly connected to the pump, without the need to connect through a hose, such as a hand-held pump or a mini pump. See also the first and second pictures, the creation of the dual-use nozzle The device includes a positioning seat (ίο) and a first valve member (20) disposed in the positioning seat (1〇), a second valve member (30), and a device disposed above the positioning seat (1〇) Turn the pressure piece (40), In the preferred embodiment of the creation, the first valve member (20) can be a French valve member, and the second valve member (3〇) can be a US valve member, so that the current common French or American air-injection joint can be assembled. The accommodating space (11) is formed inside the positioning seat (10), and the partitioning plate (12) is divided into two inner chambers (111) (112) and two inner chambers (1U) (112X). The bottom end is provided with a through hole (13) (14) 'the inlet side (1 〇) side wall has an inlet end portion (15) 'The inlet end portion (15) is provided with an inlet passage (〗 6) The outer surface of the inlet end (15) of the chamber (111) is provided with an external thread, and a connecting sleeve (50) can be screwed so that the inlet end portion (15) can be positioned and connected to the output end of the pipeline M368731 of the inflator, or Connect the pump directly. As shown in the second figure, the first valve member (2〇) comprises a nozzle holder (21), a sleeve (22), a pole (23) and a spring (24), and the nozzle holder (21) In the preferred embodiment of the present invention, it is shown as a French air nozzle holder, which is made of rubber material and has elasticity which can be compressed and recovered. The nozzle holder (21) And the sleeve body (22) is disposed in the inner chamber (111) communicating with the air inlet passage; - the sleeve (22) is provided with a groove (220) on the surface ring, and has a through hole extending through the upper and lower Φ ( 221) 'The groove (220) is provided with a constant hole (222) communicating with the through hole (221), and the inner edge of the through hole (221) is provided with a blocking portion (223), and the outer peripheral edge of the sleeve (22) is provided A ring (25) is provided, and the ring (25) can be pressed against the inner wall surface of the positioning seat (1〇) to have good airtightness. The post (23) is disposed in the through hole (221) of the sleeve body (22) and has a resisting portion (231). The spring (24) is sleeved on the post (23) and located at the resisting portion (231). Above, the surface of the resisting portion (231) of the pole (23) is sleeved with a ring (232), and the ring (232) can be pressed against the inner wall surface of the through hole (221) of the sleeve body (22) to make the pole • (23) Set to slide over the through hole (221) of the casing (22) to maintain the airtight performance when switching the gas flow path. • As shown in the second figure, the second valve member (3〇) includes a nozzle holder (31) and a cylinder (32). The nozzle holder (31) is made of rubber material and has a The elasticity of compression and recovery is shown in the preferred embodiment of the present invention as an American air nozzle holder. The cylinder body (32) has a through hole (33) penetrating vertically, and a bottom end having an engaging portion (34). The passage (35) in the engaging portion (34) communicates with the through hole (33) of the 21, and the engaging portion (34) engages the nozzle holder (31). M368731 As shown in the first figure and the first figure, the dial pressing member (40) comprises a sliding seat (41) and a lever (42), and a bottom portion of the sliding seat (41) forms a recess (411). The sliding seat (41) is disposed in the accommodating space (11) of the positioning seat (1), and the bottom end of the sliding seat (41) is pressed against the upper end of the spring (24), and the bottom of the spring (24) The end is abutted against the upper edge of the resisting portion (231) of the post (23), so that the elastic force of the spring (24) is compressed to push against the post (23), so that the resisting portion (231) of the post (23) is 忐Abutting against the upper end of the blocking portion (223), the resisting portion (231) is located below the shell hole (222) of the sleeve body (22), so that the air inlet passage (16), the through hole (222) and the # casing are connected. The holes (221) form a gas passage that communicates with each other. Since the sliding seat (41) is disposed in the accommodating space (η) of the positioning seat (1〇), the side thereof abuts against the first valve member (2〇) and the second valve member (3〇;), and the recess portion (411) a through hole (221) located above the second inner chamber (uudw) to make the first valve member (2) sleeve (22) and the second valve member (30) cylinder (32) ( 33), the gas passages communicating with each other may be formed through the recess (411) of the sliding seat (41). The lever (42) of the dialing pressing member (40) is pivoted on the upper edge of the positioning seat (10) with the pivot shaft, and the distance from the pivot end of the lever (42) to the pivot axis is greater than the dialing lever (42) The distance from the end to the yoke axis, when the lever (42) is turned downward, the sliding seat (41) can be moved downward in the positioning seat (10), and the first valve member can be pressed against ( 20), the first valve member (3〇), so that the rubber nozzle holder (Η), the nozzle holder (31) can be squeezed and can be densely connected to the French inflator of the item to be inflated or American air connector. A ring groove (412) is disposed on the circumferential surface of the sliding seat (41), and a ring (413) is sleeved in the ring groove (412), and the ring (413) is pressed against the inner wall surface of the positioning seat (1〇) to make the sliding The seat (41) is placed in the positioning seat (1〇) to slide up and down, and can be abutted against the inner wall surface of the positioning seat (1〇) by the ring (413) to maintain the transmission of the M363731 gas in the positioning seat (1〇). Air tightness. Referring to the third figure, it is applied to the connection of the American air-inflating joint (60), which is inserted into the air hole (14) for the American air-inflating joint (6〇) to be inflated, and the second The valve member (3〇) is connected, and the lever (42) of the dialing pressing member (40) is rotated, and can be pushed down against the sliding seat (41), and through the cylinder (32) Squeeze the nozzle holder (31) so that the nozzle holder (Μ) can be stably connected to the American air connector (60). At this time, the output from the pipeline of the charging device can be used. The incoming gas can pass through the inlet passage (16) • through the through hole (222), the through hole (221), and the recess (411) space, through the through hole (33) of the second valve member (30), The passage (35) is injected into the American air-supply joint (6〇), and the air-flow operation for the member to be inflated, that is, the gas flow passage for the side of the second valve member (3〇), is generally formed into a normally open form. At this time, the resist portion (231) of the pole is located on the lower side of the through hole (222), and for the through hole (221) in the first valve member (2), the gas flow path on the downward air outlet side forms a barrier. Interrupt . Referring to the fourth figure, it is applied to the connection of the French air connection joint α〇), and the person to be inflated is the French air connection joint (7〇) inserted into the air hole (13) and the first valve member. (20) are connected, and the lever (42) of the dialing member (4) is rotated, and the sliding seat (41) is pushed downward, and the air is squeezed through the sleeve body (22). The nozzle holder (9) enables the nozzle holder (9) to stably connect the try-type air connection (70). At this time, the top of the French air-suction connector (7〇) pushes up the column (23) to block the rod (23). The portion (231) presses the spring (24) upward, and moves over the through hole (222), so that the rod (23) resist portion (231) blocks from the upper side of the first hole mu to form a gas flow path on the upper air outlet side. The blockage is interrupted, and the rolling body driven from the output end of the pipeline of the inflator can be driven into the first valve member 9 through the air inlet passage (16) to enter the first valve member 9 M368731 (20) The hole (221) is driven down into the French air-supply joint (7〇) to perform a pumping operation on the gas piece. Therefore, through the above detailed description of the structural features, technical contents and operation, it can be clearly seen that the design features of the present invention are: Providing a "dual-purpose gas nozzle device" with good simplification, setting - *opening state The second valve member, and a first valve member capable of controlling the opening and closing thereof, the valve member can be brought into a normally closed state by using a spring resetting function, whereby the π juice can be reduced in structure, and the first valve member is used. The through hole of the valve member is displaced, and the flow path of the gas is changed without the phenomenon of air leakage. By designing, the displacement operation of the column can be pushed to achieve the effect of clearly switching the gas flow path, so that the valve can be achieved. It is used for different types of air-inflating joints for pumping operation. [Simplified drawing] The first picture is divided into the second picture. The third part of the creation is combined with the third picture. Used in law
【主要元件符號說明】 (1 〇)定位座 (111)内室 (12)間隔板 (14)氣孔 (16)入氣通道 解圖。 視圖。 式打氣接頭之實施例圖。 式打氣接頭之實施例圖。 (11)容置空間 (112)内室 (13)氣孔 (15)入氣端部 (20)第一閥件 M368731 (21)氣嘴夾座 (22)套體 (220)凹槽 (221)通孔 (222)貫孔 (223)擋部 (23)柱桿 (2 31)阻部 (232)環圈 (24)彈簧 (25)環圈 (30)第二閥件 (31)氣嘴夾座 (32)筒體 (33)透孔 (34)銜接部 (35)通道 (40)撥轉抵壓件 (41)滑動座 (411)凹部 (412)環槽 (413)環圈 (42)撥桿 (50)銜接套 (60)美式打氣接頭 (70)法式打氣接頭 11[Main component symbol description] (1 〇) positioning seat (111) inner chamber (12) spacer plate (14) air hole (16) air inlet channel solution. view. An example of an embodiment of a gas-filled joint. An example of an embodiment of a gas-filled joint. (11) accommodation space (112) inner chamber (13) air hole (15) air inlet end (20) first valve member M368731 (21) air nozzle holder (22) sleeve body (220) groove (221) Through hole (222) through hole (223) stop (23) pole (2 31) resistance (232) ring (24) spring (25) ring (30) second valve member (31) nozzle clamp Seat (32) cylinder (33) through hole (34) engaging portion (35) passage (40) dialing pressing member (41) sliding seat (411) concave portion (412) annular groove (413) ring (42) Pull rod (50) adapter sleeve (60) American air connection joint (70) French air connection joint 11