M333392 八、新型說明: 【新型所屬之技術領域】 一種瓶口閥。 【先前技術】 一般已知如:酒瓶、飲料瓶、水瓶等液體容器的瓶口,因無 缓衝導流的閥體設計,所以在傾倒輪出液體時,由於空氣間斷的 從瓶口被吸入瓶内,導致瓶内液體倒出時,形成忽大忽小的狀態 • 輸出,其原因在於沒有通暢的將空氣導入瓶内,所以瓶内的液體 也就無法順暢的輸出。同時,由於瓶口開瓶後無相關缓衝導流的 閥體設計,也就造成了忽大忽小的液體輸出狀態,極易發生濺撒 及傾倒輸出液體時的輸出量不易控制等困擾。 【新型内容】 本案創作「瓶口閥」係為一種適用於如:酒瓶、飲料瓶、水 瓶等液體容器瓶口的閥體設計。 • 其特徵在於:瓶口閥具有一座體及-閥體,座體後端為-可 接合瓶口的接合部,前端為一供閥體組裝的中空組配管,接合部 〃、且配間為連通通道,且接合部與組配管彼此間為一設定傾 斜角度。她崎與接合觸的連通通道具有輸ώϋ道及導氣通 道,並在組配管前端管壁設計有貫穿孔。 又’閥體為-朝下開口的管狀_設計,於其—觸壁設有 一输液口及一導氣管。 藉本創作設計,於閥體關閉狀態時,該閥體輸液口與座體輸 5 M333392 出通道錯置不相通,閥體導氣管亦與座體導氣通道錯置不相通, 但閥體導氣管與座體組配管前端管壁的貫穿孔相通。 當閥體於開啟狀態時,則閥體經旋轉,而使閥體導氣管與座 體組配管前端管壁的貫穿孔錯置不相通,但閥體輸液口與座體輪 出通道相通,閥體導氣管亦與座體導氣通道相通,達到輪出液同 時能經由導氣而使液體順暢的排出。 【實施方式】 # 請參閱同附的圖式部分第!圖、第2圖及第3圖所示為本案 創作「瓶口閥」實施例,該瓶口閥具有一座體(1)及一閥體(2)。 座體(1)後端為一可接合容器瓶口的接合部(11)(如第丨圖所示螺 接於瓶口外部的設計,或如第7圖所示塞插於瓶口内的另一實施 例),‘端為一供閥體(2)組裝的中空組配管(丨2),接合部(丨丨)與 組配管(12)間為-連通通道⑽,且該接合部⑻的橫向輛線與 組配官(12)的縱向軸線彼此間的夾角可依設計而設定為非垂直夾 • 角的設定傾斜角度(A)(如第1圖所示例)或為-垂直爽角的垂直角 度(B)(如第8圖所示例)。 於組配管(12)與接合部⑴)間的連通通道⑽具有輸出通道 (131)及導氣通道(132),並在組配管⑽前端管壁設計有貫穿孔 (121) ’供閥體⑵關閉後,閥體⑵内殘液的迅速排出。在組配管 (12)上緣设有一可限制閥體(2)旋轉位距的限位塊(μ)。 又,閥體⑵為-朝下開口的管狀閥體設計,於其—侧闕壁設 有-輸液π(21)及-導氣管(22)。導氣管(22)係隱麟閥體⑵一 6 M333392 處壁内,且該導氣管(22)下管口係貫通於對應處的閥體(2)外壁, 但不與閥體(2)内部相通,而導氣管(22)上管口係貫通於閥體(2) 的頂端。於閥體(2)上段配合組配管(12)限位塊(14)之設計,設置 有突塊(23),藉該突塊(23)隨閥體(2)的旋轉位移,而限定閥體(2) 操作開、關旋轉時的準確角度。 使閥體(2)處於關閉狀態時(如第1圖至第3圖所示),該閥體 (2)輸液口(21)與座體(1)輸出通道(131)錯置不相通,閥體(2)導 氣管(22)亦與座體(1)導氣通道(132)錯置不相通,但閥體(2)導氣 管(22)與座體(1)組配管(12)前端管壁的貫穿孔(121)相通。 當閥體(2)處於開啟狀態時(如第4圖至第6圖所示),則閥體 (2)經旋轉,而使閥體(2)導氣管(22)與座體(1)組配管(12)前端管 壁的貫穿孔(121)錯置不相通,但閥體(2)輸液口(21)與座體(1)輸 出通道(131)相通,閥體(2)導氣管(22)亦與座體(1)導氣通道(132) 相通,達到輸出液同時能經由導氣而使液體順暢的排出。 藉本創作「瓶口閥」的設計’得廣泛適用於各式傾倒出液的 谷器瓶口安裝使用,並能確實達到關閉時,閥内不殘留液體,開 啟時,導氣出液順暢的實用效果與目的。 【圖式簡單說明】 第1圖:本創作瓶口閥實施例(關閉狀態時)。 第2圖:第1圖之左側視圖。 〇 第3圖:第2圖之3-3剖面圖 7 M333392 第4圖:本創作瓶口閥實施例(開啟狀態時)。 第5圖:第4圖之左側視圖。 第6圖:第5圖之6-6剖面圖。 第7圖:本創作瓶口閥另一實施例。 第8圖:本創作瓶口閥又一實施例。 【主要元件符號說明】 g 1座體 11接合部 12組配管 121貫穿孔 13連通通道 131輸出通道 132導氣通道 14限位塊 2閥體 21輸液口 22導氣管 23突塊 A設定角度 B垂直角度M333392 VIII, new description: [New technical field] A bottle valve. [Prior Art] It is generally known that the mouth of a liquid container such as a wine bottle, a beverage bottle, or a water bottle is designed by a valve body without a buffer flow, so that when the liquid is poured out, the air is intermittently removed from the bottle mouth. When the bottle is sucked into the bottle, the liquid in the bottle is poured out. The output is large and small. • The reason is that the air is not smoothly introduced into the bottle, so the liquid in the bottle cannot be smoothly discharged. At the same time, due to the design of the valve body without the relevant buffer diversion after opening the bottle mouth, it also causes a large and small liquid output state, which is prone to splashing and the output of the output liquid is difficult to control. [New content] The creation of the "bottle mouth valve" is a valve body design suitable for the mouth of liquid containers such as wine bottles, beverage bottles and water bottles. • It is characterized in that the bottle mouth valve has a body and a valve body, the rear end of the seat body is a joint portion that can be engaged with the bottle mouth, and the front end is a hollow group pipe for valve body assembly, the joint portion is 〃, and the matching room is The communication channel is connected, and the joint portion and the group pipe are set to an inclination angle with each other. The communication channel between her and the contact has a tunnel and a gas passage, and a through hole is formed in the wall of the front end of the piping. Further, the valve body is a tubular _ design with a downward opening, and an infusion port and an air guiding pipe are provided on the contact wall. According to the original design, when the valve body is closed, the valve body infusion port and the seat body 5 M333392 out of the channel are misaligned, and the valve body air pipe is also misaligned with the seat body air channel, but the valve body guide The gas pipe communicates with the through hole of the front end pipe wall of the pipe body of the seat body. When the valve body is in the open state, the valve body is rotated, so that the valve body air pipe is misaligned with the through hole of the front end pipe wall of the seat body pipe, but the valve body infusion port communicates with the seat body wheel passage passage, the valve The body airway tube is also in communication with the air conduction channel of the seat body, and the fluid can be smoothly discharged through the air conduction at the same time. [Embodiment] # Please refer to the attached drawing section! The figure, Fig. 2 and Fig. 3 show an example of creating a "bottle valve" for the present case, which has a body (1) and a valve body (2). The rear end of the seat body (1) is a joint portion (11) that can engage the mouth of the container (as shown in the figure, screwed to the outside of the bottle mouth, or inserted into the bottle mouth as shown in Fig. 7 In one embodiment, the end is a hollow group pipe (丨2) assembled by the valve body (2), and the communication passage (10) is formed between the joint portion (丨丨) and the group pipe (12), and the joint portion (8) is The angle between the transverse line of the transverse line and the longitudinal axis of the group (12) can be set as a non-vertical clamp according to the design. • The angle of inclination of the angle (A) (as shown in Figure 1) or the vertical angle Vertical angle (B) (as shown in Figure 8). The communication passage (10) between the group piping (12) and the joint portion (1) has an output passage (131) and a gas guiding passage (132), and a through hole (121) is provided in the front end wall of the group piping (10) for the valve body (2) After closing, the residual liquid in the valve body (2) is quickly discharged. A limit block (μ) for restricting the rotational distance of the valve body (2) is provided at the upper edge of the group pipe (12). Further, the valve body (2) is designed as a tubular valve body which is open downward, and has an infusion liquid π (21) and an air guide tube (22) on its side wall. The air guiding tube (22) is in the wall of the hidden body (2)-6 M333392, and the lower nozzle of the air guiding tube (22) penetrates the outer wall of the corresponding valve body (2), but does not interact with the valve body (2) The communication port (22) has a nozzle that penetrates the top end of the valve body (2). In the upper part of the valve body (2), the design of the limiting block (14) of the grouping pipe (12) is provided with a protrusion (23) by which the valve is defined by the rotational displacement of the valve body (2). Body (2) The correct angle when the rotation is turned on and off. When the valve body (2) is closed (as shown in Figures 1 to 3), the valve body (2) infusion port (21) is misaligned with the seat (1) output channel (131). The valve body (2) air guiding tube (22) is also misaligned with the seat body (1) air guiding passage (132), but the valve body (2) air guiding tube (22) and the seat body (1) group piping (12) The through holes (121) of the front end pipe wall communicate with each other. When the valve body (2) is in the open state (as shown in Figures 4 to 6), the valve body (2) is rotated, and the valve body (2) air pipe (22) and the seat body (1) The through hole (121) of the front end pipe wall of the group pipe (12) is misaligned, but the valve body (2) infusion port (21) communicates with the seat body (1) output channel (131), and the valve body (2) air pipe (22) It is also in communication with the air passage (132) of the seat body (1), and the output liquid can be discharged at the same time through the air guide. The design of the "bottle mouth valve" is widely applicable to the installation and use of various types of pour-out bottles. It can be surely closed when there is no liquid left in the valve. When it is opened, the air is discharged smoothly. Practical effect and purpose. [Simple description of the drawing] Fig. 1: The embodiment of the bottle mouth valve of the present invention (when it is in the closed state). Figure 2: The left side view of Figure 1. 〇 Fig. 3: Section 3-3 of Figure 2 7 M333392 Figure 4: Example of the creation of the bottle valve (when in the open state). Figure 5: The left side view of Figure 4. Figure 6: Section 6-6 of Figure 5. Figure 7: Another embodiment of the present bottle mouth valve. Figure 8: A further embodiment of the inventive bottle mouth valve. [Main component symbol description] g 1 seat 11 joint portion 12 group pipe 121 through hole 13 communication passage 131 output passage 132 air guide passage 14 limit block 2 valve body 21 infusion port 22 air pipe 23 projection A set angle B vertical angle