M265234 八、新型說明: 【新型所屬之技術領域】 本創作係關於一種筆具結構,特別是關於—種息 氣閥口笛之筆具結構。 具有可控制 【先前技術】 傳統的筆具設計大都是單純提供書寫之用。隨〜 樣化與不同筆具使用者之族群,筆具廠商設計出各品的多 不同功能之筆具產品。例如有筆具廠商將筆具緣上各同造型、 案、花紋,亦有筆具廠商將不同的飾物掛附在筆斗上種不同圖 廠商將可發出燈光或聲響等裝置附設在筆具上,以 亦有些 燈光或聲響之功能。 到可發出 【新型内容】 本創作所欲解決之技術問題 然而,傳統各種不同設計之筆具產品中,雖然可提供不同 使用者之喜好及需求,但仍有很大的研發空間。例如,在筆具 繪上各種不同圖案、花紋之設計中,其僅僅能達到視覺上之變 化效果。而在附設有可發出燈光或聲響等筆具之設計中,其雖 然具有較佳之聲光效果,作需要有電池供應電能,才能使電子 組件動作。在目前的習用筆異產品中,對於筆具、飾物、東 之功能整合方面,仍未見到有良好的產品設計。 , 緣此,本創作之主要目的即是提供一種結合有氣闕口冶, 筆具結構,該氣閥口笛可在吹氣時產生口笛聲響,而使筆具附 加了可產生口笛聲響之功能。 本創作之另一目的是提供一種具有可控制氣闕口笛,筆具 結構,使用者可以藉由簡易之操作鈕而允許氣流通過該氣闕 M265234 笛、或是阻制氣流通過該氣間口笛。 本創作之Ί的是提供-種可套合氣球之附有氣闕口笛 之筆具結構’該筆具除了具有產生氣閥口^聲響之功能之外, 亦可套置-氣球’以使該氣球得經由氣閥1之氣體流通而受 到充氣’亦可在減球放出氣體時使該氣闕口笛產生氣闕口笛 聲響。 本創作解決問題之技術手段 本創作為解決習知技術之問題所採用之技術手段係提供有 一氣閥口笛,其包括有一管體,一套接端結合在該管體之第一 端,以使該氣閥口笛得藉由該套接端套接於該筆具之端部,一 笛音產生閥片結構固設在該管體之内部空間中,該笛音產生閥 片結構具有一氣閥片。一氣流阻制構件配置在該管體之預設位 置,在使用者操作下,可控制氣流是否流通過該管體之管狀内 部空間、或是阻制氣流之流通。該管體之第二端係套置有一氟 球,使用者可在該氣流阻制構件未阻制管體内部之氣流通道之 前’充氣至該氣球。 本創作對照先前技術之功效 經由本創作所採用之技術手段,可以使得筆具巧妙詰合了 氣間口笛’除了具有實用之筆具書寫功能之外,亦具有極佳之 新奇擺飾效果、以及可在吹氣時產生口笛聲響之效果,對於筆 具之商品附加價值方面,有很大的助益。 ^ ,者,本創作亦可套置一氣球,以使該氣球得經由氣闕口 笛^氣體流通而受到充氣,亦可在該氣球放出氣體時使該氟閥 口笛產生氣閥口笛聲響。 M265234 本創作所採用的具體結構設計,將藉由以下之實施例及附 呈圖式作進一步之說明。 【實施方式】 參閱第一圖所示,其係顯示本創作具有可控制氣閥口笛之 筆具結構之較佳實施例立體圖,本創作係在一筆具丨之後端部 套置有一氣閥口笛2’而該氣閥口笛2另一端則可套置有一氣 球3 〇 參閱第二圖所示,其係顯該氣閥口笛2之立體圖,而第三 圖係顯示第二圖中3_3 if面之剖視圖,第四圖顯示該氣闕口笛 2之立體分解圖。該氣閥口笛2之結構設計係包括有一管體21, 該管體21之内部形成-管狀内部空間22,而在兩端係呈開放 端。在該管體21之第-端21a係可供套接一套接端23,該套 接端23亦呈-管狀結構’其—端即供該筆具丨之末端套接组合, 而該套接端23可由該管體21之第一端山分離。 在該管體21之第二端21b係形成有一擴大環緣Μ,可供 耽球3之亂嘴端Μ得以穩固套置在該管體2ι之第二端爪。 ί:圖顯:了該管體21之第二端2lb可套置-氣球3之立體示 二了該管體21之第二端训套置-氣球3後 且乳球3充滿軋體之立體示意圖。 -,音產生閥片結構4固設在該管體2ι 中,該笛音產生閥片結構4包;〃 狀円。P工間22 第二擒板43,其中該第一擋關片41/第-擔㈣、 部空間22巾,該第一擋板42呈'_^在該管體21之管狀内 管狀内部空間22之一半流道空間,/圓板狀結構,阻隔了該 約在該管狀内部空間22之中心位故該第一擋板42之頂緣421 置處。 M265234 該第二擋板43亦係形成在該管體21之管狀内部空間22 中,與該第一擋板42之間具有一適當之間距。該第二擋板43 係呈一半圓板狀結構,阻隔了該管狀内部空間22之一半流道空 間,故該第二擋板43之頂緣431約在該管狀内部空間22之中 〜位置處,且與該第一擋板42之頂緣421恰呈相對應之方向。 該氣閥片41之一端係固設在該第一擋板42之頂緣421, 而另知係延伸至該第二擋板43之頂緣431處,但與該第二擋 =43之頂緣431保持一適當之氣流間隙。故當一氣流通過該氣 μ間隙時,該氣閥片41受氣流之流動而產生震動,而可發出音 響。 一氣流阻制構件5係可受推移地配置在該管體21所開設 =一槽體25,該槽體25係以該管體21之長轴方向延伸。該氣 版=制構件5具有一推移部51及一滑移塊52,其推移部51由 該’月移塊52之頂面凸伸出,且經由該槽體25而微凸伸出該管 體21之表面’故可受使用者滑移操作。該滑移塊52結合有一 擋制板53,凸伸入該管體21之管狀内部空間22中。 該氣流阻制構件5可被推移至第一位置(可吹氣位置)及第 一位置(封閉位置)。當該氣流阻制構件5被推移至第一位置時(如 ,七圖所不),使該管體21之管狀内部空間22形成氣流通路, 氣流A可由該管體21之第一端2U導引流通至第二端2比,故 使用者可藉此而吹入氣體至該氣球3中。 當該氣流阻制構件5被推移至第二位置時(如第八圖所 不),使該管體21之管狀内部空間22之氣流通路被阻隔,而阻 制氣流之流動。此時,可使得先前被吹入氣球3中之氣體保持 在氣球3中。 以上之敘述僅為本創作之較佳實施例說明,凡精於此項技 M265234 藝者當可依據上述之說明而作其它種種之改良,惟這些改變仍 屬於本創作之創作精神及以下所界定之專利範圍中。 【圖式簡單說明】 第一圖係顯示本創作具有可控制氣閥口笛之筆具結構之較佳實 施例立體圖; 第二圖係顯示本創作氣閥口笛之立體圖; 第三圖係顯示第二圖中3-3斷面之剖視圖; 第四圖顯示本創作氣閥口笛之立體分解圖; 第五圖顯示本創作管體可套置一氣球之立體示意圖; 第六圖顯示本創作管體套置一氣球後且氣球充滿氣體之立體示 意圖, 第七圖顯示本創作之氣流阻制構件被推移至第一位置(可吹氣位 置)之剖視圖; 第八圖顯示第六圖中8-8斷面之剖視圖,其顯示本創作之氣流 阻制構件被推移至第二位置(封閉位置)之剖視圖。 【主要元件符號說明】 1 筆具 2 氣閥口笛 21 管體 21a 第一端 22 管狀内部空間 21b 第二端 23 套接端 24 擴大環緣 槽體 氣球 氣嘴端 笛音產生閥片結構 氣閥片 第一擔板 頂緣 第二擋板 頂緣 氣流阻制構件 推移部 滑移塊 擋制板 10M265234 8. Description of the new type: [Technical field to which the new type belongs] This creation is about a pen structure, and in particular, a pen structure of a valve valve flute. Controllable [Prior technology] Most traditional pen designs are simply for writing. Along with the variety and the different groups of pen users, pen manufacturers design pen products with various functions for various products. For example, there are pen manufacturers that have different shapes, designs, and patterns on the edges of pens, and there are pen manufacturers that attach different ornaments to the pen bucket. Different types of pictures. Manufacturers can attach devices such as lights or sounds to pens. To some functions of light or sound. It is possible to issue [new content] The technical problems that this creative wants to solve. However, among traditional pen products with different designs, although there are different user preferences and needs, there is still a lot of room for research and development. For example, in the design of various patterns and patterns painted on pens, it can only achieve visual changes. In the design with pens that can emit lights or sounds, although it has better sound and light effects, it requires a battery to supply power in order to make the electronic components operate. In the current conventional pen-different products, no good product design has been seen in terms of the functional integration of pens, ornaments, and accessories. For this reason, the main purpose of this creation is to provide a pen structure that incorporates gas mouth mouth metallurgy. The valve valve flute can generate a flute sound when blowing air, and the pen equipment has the function of producing a flute sound. Another purpose of this creation is to provide a controllable air whistle flute and pen structure. With a simple operation button, the user can allow air to pass through the air whistle M265234, or block air flow through the air whistle. What this creation is about is to provide a pen structure with an air whistle and flute that can fit a balloon. 'The pen can have a function of generating a valve valve ^ sound, and can also be set-a balloon' so that the The balloon has to be inflated through the gas flow of the air valve 1 ', and the air whistle can also make the air whistle sound when the ball is released. Technical means to solve the problem in this creation The technical means used to solve the problems of the known technology in this creation is to provide a gas valve mouthpiece, which includes a pipe body, a set of joints is combined with the first end of the pipe body, so that The gas valve mouthpiece must be sleeved on the end of the writing instrument through the socket end. A flute sound generating valve disc structure is fixed in the internal space of the pipe body. The flute sound generating valve disc structure has a gas valve disc. . An airflow blocking member is arranged at a preset position of the pipe body. Under the operation of the user, it is possible to control whether the airflow flows through the tubular inner space of the pipe body or to prevent the airflow from flowing. A fluorine ball is sleeved on the second end of the tube body, and the user can inflate the balloon before the air flow blocking member does not block the air flow channel inside the tube body. This creation contrasts the effectiveness of the previous technology. Through the technical means used in this creation, the pen can be cleverly combined with the Qijian flute. In addition to the practical pen writing function, it also has excellent novelty decoration effects, and It can produce the effect of whistle sound when blowing, which is of great help to the added value of the goods of the pen. ^ In this case, a balloon can be set in this creation, so that the balloon can be inflated through the gas flow of the gas tube mouthpiece, or the fluorine valve mouthpiece can produce a gas valve mouthpiece sound when the balloon releases gas. M265234 The specific structural design used in this creation will be further explained by the following examples and attached drawings. [Embodiment] Referring to the first figure, it is a perspective view showing a preferred embodiment of a pen structure with a controllable air valve mouth flute. This creation is an air valve mouth flute 2 placed on the rear end of a pen 'The other end of the gas valve mouthpiece 2 can be fitted with a balloon 3 〇 Refer to the second figure, which shows a perspective view of the gas valve mouthpiece 2, and the third image shows a sectional view of the 3_3 if surface in the second figure The fourth figure shows a three-dimensional exploded view of the discouraged flute 2. The structural design of the gas valve mouth flute 2 includes a pipe body 21, the inside of which is formed into a tubular internal space 22, and the ends are open at both ends. At the first end 21a of the tube body 21, a set of connection ends 23 can be socketed. The sleeve end 23 also has a tubular structure. Its end is used for the end socket combination of the writing instrument. The connecting end 23 can be separated by the first end of the pipe body 21. An enlarged ring edge M is formed at the second end 21b of the tube body 21, so that the random mouth end M of the delay ball 3 can be fixedly placed on the second end claw of the tube body 2m. ί: The picture shows: the second end of the tube body 21 2lb can be sleeved-the balloon 3 is shown the second is the second end of the tube body 21 training sleeve-the balloon 3 and the milk ball 3 is filled with the rolling body schematic diagram. -, The sound generating valve sheet structure 4 is fixed in the pipe body 2ι, and the flute sound generating valve sheet structure 4 packs; 〃 円. P workshop 22, the second escape plate 43, wherein the first barrier piece 41 / the first loader, the space 22 towels, the first baffle plate 42 is in the inner tubular interior space of the tubular body 21 One of the half-runner spaces 22 is a circular plate-shaped structure, which blocks the top edge 421 of the first baffle 42 at the center of the tubular inner space 22. M265234 The second baffle 43 is also formed in the tubular internal space 22 of the pipe body 21 and has a proper distance from the first baffle 42. The second baffle plate 43 has a semi-circular plate-like structure, and blocks one half of the flow passage space of the tubular inner space 22. Therefore, the top edge 431 of the second baffle plate 43 is approximately in the tubular inner space 22 ~ , And corresponding to the top edge 421 of the first baffle 42. One end of the air valve plate 41 is fixed on the top edge 421 of the first baffle plate 42, and it is also known that it extends to the top edge 431 of the second baffle plate 43, but is at the top of the second baffle plate 43. The edge 431 maintains a proper air gap. Therefore, when an air flow passes through the air gap, the air valve plate 41 is vibrated by the air flow and can make a sound. An air-blocking member 5 is disposed in the pipe body 21 in a movably manner. A groove 25 is provided, and the groove body 25 extends in the direction of the long axis of the pipe body 21. The gas plate = making member 5 has a pushing portion 51 and a sliding block 52. The pushing portion 51 protrudes from the top surface of the lunar moving block 52, and protrudes slightly from the tube through the groove 25. The surface of the body 21 can therefore be operated by the user. The sliding block 52 is combined with a blocking plate 53 and protrudes into the tubular internal space 22 of the tube body 21. The airflow blocking member 5 can be moved to a first position (a blowable position) and a first position (a closed position). When the airflow blocking member 5 is moved to the first position (as shown in the seventh figure), the tubular internal space 22 of the pipe body 21 forms an airflow path, and the airflow A can be guided by the first end 2U of the pipe body 21 It is introduced to the second end 2 ratio, so the user can use this to blow gas into the balloon 3. When the airflow blocking member 5 is moved to the second position (not shown in FIG. 8), the airflow path of the tubular internal space 22 of the pipe body 21 is blocked, and the flow of airflow is blocked. At this time, the gas previously blown into the balloon 3 can be held in the balloon 3. The above description is only a description of the preferred embodiment of this creation. Anyone skilled in this technique M265234 can make other improvements based on the above description, but these changes still belong to the creative spirit of this creation and defined below Within the scope of patents. [Brief description of the drawings] The first diagram is a perspective view showing a preferred embodiment of a pen structure having a controllable gas valve mouth flute; the second diagram is a perspective view showing the air valve mouth flute of the creation; the third diagram is a second diagram A cross-sectional view of the section 3-3 in the figure; the fourth figure shows a three-dimensional exploded view of the creative valve valve flute; the fifth figure shows a three-dimensional schematic diagram of a balloon that can be placed in the creative tube; the sixth figure shows the creative tube body cover After placing a balloon and the balloon is filled with gas, the seventh diagram shows a cross-sectional view of the airflow blocking member of this creation being moved to the first position (the blowable position); the eighth diagram shows the 8-8 fracture in the sixth diagram A cross-sectional view of the surface shows a cross-sectional view of the airflow blocking member being pushed to the second position (closed position) of this creation. [Description of main component symbols] 1 Pen tool 2 Air valve mouthpiece 21 Tube body 21a First end 22 Tubular internal space 21b Second end 23 Socket end 24 Enlarged ring groove balloon air valve end flute sound valve valve structure valve Piece first stretcher top edge second baffle top edge airflow blocking member moving part sliding block blocking plate 10