M305894 其中,該擊發機構(1 6 )係包含有一設於槍管(1 „ 1 )上部之擊發管(1 6 1 ),該擊發管(1 6 1 )之下侧 設有一連接桿(1 6 2 )以連接一平行擊發管(1 6 1 ) 之擊鎚(163),擊鎚(163)異於擊發管(21)之 一側設有一限位槽(1 6 3 1 )(如第三圖所示),另擊鎚 (1 6 3 )與側接合件(1 2 )之間設有一彈性體(1 6 4 ); • 又該活門組(1 7 )係包含一活塞體(1 7 1 )、一活 門(1 7 2 )及一軸桿(1 7 3 ),該活塞體(1 7 1 )設 有一貫穿之軸孔(1 7 1 1 )及縱孔(1 7 1 2),且該軸 孔(1 7 1 1 )及縱孔(1 7 1 2 )間成互相連通狀,另 該軸孔(1 7 1 1 )内穿設有一軸桿(1 7 3 ),該軸桿(1 7 3) —側設有一平面部(1 7 3 1 ),而異於平面部(1 7 3 1 )之一端則設有一螺紋部(1 7 3 2 ),該螺紋部(1 _ 7 3 2 )係螺合於活門(1 7 2 )之螺孔(1 7 2 1 )内, 該活門(1 7 2 )之周緣係形成有缺口,且活門(1 7 2 ) ' 異於軸桿(1 7 3 )之一端設有一彈性體(1 7 2 2 ),使 得該活塞體(1 7 1 )與彈性體(1 7 2 2 )間形成一氣 室(1 7 4 ); 上述大部分為習知結構,本創作之特徵更包括:該槍 管(1 1 )位於擊發機構(1 6 )之一側處,穿設有一通 孔(1 1 3)(如第二、五圖所示),該通孔(1 1 3)向 9 M305894 前延伸至活門組(1 7 )之軸桿(i 7 3 )處,並朝槍管 .^ (11)內穿設,與氣室(174)形成連通; 外,前述側接合件(1 2)係包括有-可插設於搶 官(1 2 )之接桿部(1 2 1 )(如第二圖所示),該接桿 部(1 2 1 )相對於拾势广, ^ 、g ( 1 2 )另一端向下略微傾斜延 伸出一接合部(1 p 9、 ζ 2 ) ’該接合部(1 2 2 )位於接桿部 (121)之交界虛,# / 係形成一較大之接合面(1 2 3 ), 泰藉以抵靠於該搶管(]〇、 2 )之後端面(如第二至五圖所示、, 該接合面(1 2 3 )璧+ ;&认 )對應於前述通孔(1 1 3 ),朝接合部 (1 2 2 )内穿設有一办^ ^ 牙孔(1 2 2 1 )(如弟五圖所示), 又該接合部(1 2 2 )夕&丄 ^ '^自由端面朝内凹設有一接合孔( 2 2 2 ),該接合孔f Ί 0 ^ 2 2 2)之内底面周緣,朝前述接 桿部(1 2 1 )之方向# < + 白牙故有一連接孔(1 2 2 3 ),兮遠 接孔(1 2 2 3 )係开也★ ^ 係了與穿孔(1 2 2 1 )形成連通;萨 _此’該接合孔(1 2 9 ς>、 9 並使 乙4 2)内可接設一氣瓶(4〇: 呑亥氣瓶(4 0 )得η姿至丨 行以釋出氣體,並由連接孔(1 2 流出至通孔(1 1 Ί 1 ' 丄ό )(如苐五圖所示)。 其中,該穿孔(》1 9 1 2 2 1 )與通孔(1 1 3 )間之交 接處,可設有一連拉丛,i A ^ (124),藉已避免該氣體外 該連接件(丄2 蒞外漏, 」係呈一圓桿體,該連接件( 軸設一貫穿孔( ^124) ^4 1),並於該連接件(1 雨端處,各環狀凹 )罪近 有一凹緣(12 4 2 ),而得以套設〇 M305894 、型環。 _ 藉由上述之設計,當使用空氣槍時,係將一手握住於 槍身槍柄,另一手握住於前端進氣槍柄,而後端氣瓶(4 0 )係抵於肩窩(如第六圖所示)。 另外,空氣槍處於常態時,前端氣瓶之會流至氣室(1 7 4 ),而後端之氣瓶(4 0 )亦會由連接孔(1 2 2 3 ) 流出至通孔(1 1 3 ),而由通孔(1 1 3 )流至氣室(1 籲 7 4 )。 當空氣搶使用時,如第三圖至第五圖所示,係先將擊 發機構(1 6 )向後拉移,使擊鎚(1 6 3 )之限位槽(1 6 3 1 )受限位板(1 5 )之扣制,同時球體(5 0 )則 由入彈口 ( 1 1 2 )掉落至槍管(1 1 )内; 接著扣下板機(1 4 )(如第四圖所示),使板機(1 4 )將限位板(1 5 )推起,令限位板(1 5 )脫離限位 _槽(1 6 3 1 ),此時因彈性體(1 6 4 )之彈力將擊發機 構(1 6 )向前推移,使擊鎚(1 6 3 )之碰撞至軸桿(1 7 3 ),讓軸桿(1 7 3 )及設於軸桿(1 7 3 )上之活門 (1 7 2 )因碰撞力向前位移; 此時,如第五圖所示,氣室(1 7 4)内之氣體會由 軸桿(173)之平面部(1731)與活塞體(171) 間之空隙流竄; 而上述兩種氣體皆會流竄至軸孔(1 7 1 1 )與縱孔 11 M305894 ' (1 7 1 2 )内,並使氣體從縱孔(1 7 1 2 )流入擊發 -管(1 6 1 )内向外衝出,其所衝出之氣體可辅助擊發管 (1 6 1 )向前作動之力造成球體(5 〇 )向外發射出(如 第五圖所示); 同時因設於活門(i 7 2 )上之彈性體(1 7 2 2 ) 之彈力將活門(i 7 2 )及軸桿(1 7 3 )向後推移,使 軸桿(1 7 3 )末端碰撞到擊鎚(χ 6 3 ),而藉由氣體之 籲衝力使擊發機構(丄6 )向後位移至使擊鎚(1 6 3 )之 限位槽(16 31)受限位板(16)之扣制;藉以完成 自動上膛使空氣搶可達到連續擊發之功效。 由於本創作除了習知技術可由前端進氣外,亦可由後 端進氣,可增加氣體所使用之時間,而使連續擊發之功效 車父為持久。 $外’請參閱第六圖所示’由於本創作於後端裝設氣 瓶(4 〇 ),可由後端進氣,所以可增加空氣搶之長度,使 .用f空氣搶時,使用者可利用氣瓶(4 0 )抵住肩窩,讓 二轧知了如衝鋒搶使用,而可增加增加使用之 射擊出之子彈較為準確。 —納上述的說明’本創作同時具有上述眾多的效能與 貫則貝值,並可有效提升整體的經濟效益,因此本創作確 實為-創意極佳的創作,且在相同的技術領域中未見相同 或近似的產品公^ m A開使用,故本創作已符合新型專利的要 12 M305894 件,乃依法提出申請,並祈請賜准本新型專利。 _【圖式簡單說明】 第一圖係本創作之立體外觀示意圖。 第二圖係本創作之立體分解示意圖。 第三圖係本創作上膛之狀態示意圖。 第四圖係本創作擊發之狀態示意圖。 第五圖係本創作後進氣剖面示意圖。 _ 第六圖係本創作之使用示意圖。 【主要元件符號說明】 (1 〇)搶身 (1 1 )槍管 (1 1 1 )出彈口 (1 1 2 )入彈口 (113)通孔 籲(1 2 )側接合件 (1 2 1 )接桿部 * ( 1 2 2 )接合部 (1 2 2 1 )穿孔 (1 2 2 2 )接合孔 (1 2 2 3 )連接孔 (1 2 3 )接合面 (1 2 4 )連接件 13 M305894 、(1 2 4 1 )貫穿孔 „ ( 1 2 4 2 )凹緣 (1 4 .)板機 (15)限位板 (1 6 )擊發機構 (1 6 1 )擊發管 (1 6 2 )連接桿 • ( 1 6 3 )擊鎚 (1 6 3 1 )限位槽 (1 6 4 )彈性體 (1 7 )活門組 (1 7 1 )活塞體 (1 7 1 1 )軸孔 (1 7 1 2 )縱孔 籲(1 7 2 )活門 (1 7 2 1 )螺孔 ‘ (1 7 2 2 )彈性體 (1 7 3 )軸桿 (1 7 3 1 )平面部 (1 7 3 2 )螺紋部 (1 7 4 )氣室 (4 0 )氣瓶 14 M305894 \ ( 5 Ο )球體M305894, wherein the firing mechanism (16) comprises a firing tube (1 6 1 ) disposed on an upper portion of the barrel (1 „ 1 ), and a connecting rod is disposed on a lower side of the firing tube (1 6 1 ) (16) 2) A hammer (163) connected to a parallel firing tube (1 6 1), the hammer (163) is provided with a limiting slot (1 6 3 1 ) on one side of the firing tube (21) (such as the third As shown in the figure), an elastic body (1 6 4 ) is provided between the other hammer (1 6 3 ) and the side joint member (1 2 ); • The shutter group (17) further comprises a piston body (1 7 1), a shutter (1 7 2 ) and a shaft (1 7 3 ), the piston body (1 7 1 ) is provided with a through hole (1 7 1 1 ) and a vertical hole (1 7 1 2), and The shaft hole (1 7 1 1 ) and the vertical hole (1 7 1 2 ) are connected to each other, and the shaft hole (1 7 1 1 ) is internally provided with a shaft (1 7 3 ), the shaft ( 1 7 3) - One side is provided with a flat portion (1 7 3 1 ), and one end of the flat portion (1 7 3 1 ) is provided with a threaded portion (1 7 3 2 ), the threaded portion (1 _ 7 3 2) screwed into the screw hole (1 7 2 1 ) of the shutter (1 7 2 ), the periphery of the shutter (1 2 2 ) is formed with a gap, and the shutter (1) 7 2) 'An elastomer (1 7 2 2 ) is provided at one end of the shaft (1 7 3 ) to form a gas chamber between the piston body (1 7 1 ) and the elastomer (1 7 2 2 ) (1) 7 4 ); Most of the above are conventional structures, and the features of the present invention further include: the barrel (1 1 ) is located at one side of the firing mechanism (16), and is provided with a through hole (1 1 3) (such as In the second and fifth figures), the through hole (1 1 3) extends to the front of the 9 M305894 to the shaft (i 7 3 ) of the shutter group (1 7 ) and is worn toward the barrel. ^ (11) The first side joint member (12) includes a post portion (1 2 1 ) that can be inserted into the grabbing member (1 2 ) (as shown in the second figure). Shown that the post portion (1 2 1 ) is wide with respect to the pick-up, and the other end of ^, g (1 2 ) is slightly inclined downward to extend a joint portion (1 p 9 , ζ 2 ) 'the joint portion (1) 2 2) at the junction of the post (121), the #/ system forms a larger joint (1 2 3 ), which is used to abut the end of the pipe (]〇, 2) (such as the second As shown in the fifth diagram, the joint surface (1 2 3 ) 璧 + ; & recognizes the corresponding through hole (1 1 3 ) A contact hole (1 2 2 1 ) is disposed in the joint portion (1 2 2 ) (as shown in the fifth figure), and the joint portion (1 2 2 ) is eve & 丄 ^ '^ free end An engagement hole (2 2 2 ) is disposed in the concave surface, and the periphery of the bottom surface of the engagement hole f Ί 0 ^ 2 2 2) faces the direction of the connecting portion (1 2 1 ) # < + white teeth The connection hole (1 2 2 3 ), the far-reaching hole (1 2 2 3 ) is also open to connect with the perforation (1 2 2 1 ); Sa_this 'the joint hole (1 2 9 ς> , and make a cylinder (4〇: 呑海气瓶(4 0) get the η posture to the 丨 line to release the gas, and the connection hole (1 2 flows out to the through hole (1 1 Ί 1 ' 丄ό ) (as shown in Figure 5). Wherein, the intersection between the perforation ("1 1 1 2 2 2 1 ) and the through hole (1 1 3 ) may be provided with a lining, i A ^ (124), by avoiding the connection of the gas (丄2 outside leakage, "" is a round rod body, the connecting piece (the shaft is always perforated (^124) ^4 1), and there is a concave near the joint (1 rain end, each annular concave) Edge (12 4 2 ), and can be set to 〇M305894, ring. _ With the above design, when using the air gun, the hand is held by the gun body handle, the other hand is held at the front end of the air gun The handle, while the rear cylinder (40) is in the shoulder socket (as shown in Figure 6.) In addition, when the air gun is in the normal state, the front cylinder will flow to the air chamber (1, 4 4), and the gas at the back end. The bottle (40) will also flow out from the connection hole (1 2 2 3 ) to the through hole (1 1 3 ), and the through hole (1 1 3 ) will flow to the air chamber (1 call 7 4 ). When, as shown in the third to fifth figures, the firing mechanism (16) is first pulled backward, so that the limit slot (1 6 3 1 ) of the hammer (1 6 3 ) is limited to the position plate (1) 5) The buckle is made, while the sphere (50) is inserted into the bullet (1 1 2 ) Dropped into the barrel (1 1 ); then deduct the trigger (1 4 ) (as shown in the fourth figure), so that the trigger (1 4 ) pushes the limit plate (1 5 ) to the limit The plate (1 5 ) is disengaged from the limit_slot (1 6 3 1 ), at which time the firing mechanism (16) is pushed forward due to the elastic force of the elastic body (1 6 4 ), causing the impact of the hammer (1 63) To the shaft (1 7 3 ), let the shaft (1 7 3 ) and the shutter (1 7 2 ) provided on the shaft (1 7 3 ) move forward due to the collision force; at this time, as shown in the fifth figure It is shown that the gas in the gas chamber (174) flows from the gap between the flat portion (1731) of the shaft (173) and the piston body (171); and both of the above gases flow to the shaft hole (1 7 1 1 ) and the vertical hole 11 M305894 ' (1 7 1 2 ), and let the gas flow out from the vertical hole (1 7 1 2 ) into the firing tube (1 6 1 ), and the gas it rushes out can be The force of the auxiliary firing tube (1 6 1) to move forward causes the sphere (5 〇) to be emitted outward (as shown in Figure 5); at the same time, due to the elastic body (i 7 2 ) on the shutter (i 7 2 ) (1 7 2 2) The elastic force moves the shutter (i 7 2 ) and the shaft (1 7 3 ) backwards, causing the end of the shaft (1 7 3 ) to collide (χ 6 3 ), and the firing mechanism (丄6) is displaced backward by the gas impulsive force to buckle the limiting slot (16) of the hammer (16 3); In order to complete the automatic captain, the air can be grabbed to achieve the effect of continuous firing. Since this creation can be used by the front end of the intake air, it can also be used by the rear end to increase the time used for the gas, so that the effect of continuous firing is long lasting. $External' Please refer to the figure in the sixth figure. 'Because this creation is equipped with a gas cylinder (4 〇) at the rear end, it can be aired by the rear end, so the length of the air can be increased, so that the user can use the f air to grab the time. The cylinder (40) can be used to hold the shoulder socket, so that the second rolling knows that it can be used as a charge, and it can increase the bullets that are used for shooting. - The above description "This creation has many of the above-mentioned performance and consistent value, and can effectively improve the overall economic benefits, so this creation is indeed - creative creation, and not seen in the same technical field The same or similar products are used by the public, so this creation has already met the requirements of the new patent 12 M305894, which is an application in accordance with the law, and pray for the grant of this new patent. _[Simple diagram description] The first picture is a three-dimensional appearance of the creation. The second figure is a three-dimensional exploded view of the creation. The third picture is a schematic diagram of the state of the creation. The fourth picture is a schematic diagram of the state of the creation of this creation. The fifth picture is a schematic diagram of the intake air profile after the creation. _ The sixth picture is a schematic diagram of the use of this creation. [Main component symbol description] (1 〇) grab body (1 1) barrel (1 1 1) exit port (1 1 2) into the bullet port (113) through hole hole (1 2) side joint piece (1 2 1) Post portion* (1 2 2) joint portion (1 2 2 1 ) perforation (1 2 2 2 ) joint hole (1 2 2 3 ) joint hole (1 2 3 ) joint surface (1 2 4 ) joint 13 M305894, (1 2 4 1 ) through hole „ ( 1 2 4 2 ) concave edge (1 4 .) trigger machine (15) limit plate (1 6 ) firing mechanism (1 6 1 ) firing tube (1 6 2 ) Connecting rod • ( 1 6 3 ) Hammer (1 6 3 1 ) Limiting groove (1 6 4 ) Elastomer (1 7 ) Valve group (1 7 1 ) Piston body (1 7 1 1 ) Shaft hole (1 7 1 2 ) Vertical hole (1 7 2 ) Throttle (1 7 2 1 ) Screw hole ' (1 7 2 2 ) Elastomer (1 7 3 ) Shaft (1 7 3 1 ) Plane (1 7 3 2 Threaded part (1 7 4) gas chamber (40) cylinder 14 M305894 \ ( 5 Ο ) sphere
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