M431925 五、新型說明: 【新型所屬之技術領域】 典結構改良,特 與鎖舌片產生死 別曰ίϊ作係涉及一種門鎖之萄1鎖怒撥 乃J疋伯撥塊頂部形成有弧凸面而能 .點卡合機率之創新型態設計者。 用於生活中 產品而§ ’ 構件之間的 鎖頭組所構 動上鎖舌構 塊而能夠帶 意即當使用 撥塊產生旋 時橫向推移 離該抵推部 卡部而達成 構件的鎖片 欲探討者, 組撥塊加以 ,如第1圖 ,而能夠藉 所示,當使用者下 令該帶動構件08帶 設抵推部〇4推移撥 時,係先將卡合件 離鎖片03之嵌卡部 同步解鎖開門之動 各種場 其結構 帶動構 成’其 件,達 動下鎖 者由門 轉而先 鎖片所 與卡合 鎖定之 ’而呈 是針對 研究改 所示, 由按壓 合已經 係具備 件和設 中帶動 成開啟 舌構件 外將鐘 將下鎖 形成之 件,令 目的, 上鎖狀 能夠由 良,以 係於門 内部的 【先前技術】 按’門鎖運 韌蘆鎖此類型的 件以及設於鎖舌 側對應位置處的 驅動而能同時帶 鎖頭組係設有撥 達成上鎖狀態, 頭組時,則會使 向上推移,並同 繼續轉動則會脫 於鎖片上方之嵌 無法帶動下鎖舌 而本創作所 門鎖產品的鎖頭 及作動方式而言 設有門把A、A1 解鎖動作; 復如第1圖 動帶動構件08, 能夠使鎖片03所 塊01作旋轉動作 件止02擋塊05脫 橫向移動而達成 泮常的廣泛,以 有上、下鎖舌構 於下鎖舌構件— 才冓件係藉由門把 門板狀態,又該 么鎖片’使門板 逛插入並轉動鎖 杳構件之卡合件 搀推部’當撥境 肀合件下降抿靠 此k可動構件係 態。 門内同步解鎖之 習知撥塊型態以 板的内、外部皆 門把A1直接達成 A1時,及能夠驅 03橫向移動,並 旋轉動作,當撥 推移,而使卡合 鎖片03能夠繼續 M431925 然,當使周者使同鑰匙由鎖頭組B進行上鎖動作時, 若未將鎖頭組B的撥塊01完全旋轉至定位即停止轉動,此 時該撥塊01的頂面07極可能與鎖片03的抵推部04之間呈現 作動死點的角度狀態(此處請參考第2圖所示,係為第一 段上鎖時未完全旋轉至定位之狀態),進而使鎖片03卡住 無法移動,並喪失同步解鎖的功能,且由於該撥塊01的頂 面通常係設成平面(或趨近平面)型態,導致撥塊01與抵 推部04呈現死點狀態的機率大幅增加(如3圖所示,係為 第二段上鎖時未完全旋轉至定位之狀態,同樣呈現作動死 點),且習知撥塊01設計型態,亦會降低開鎖動作之順暢 性以及使用便利性,進而降低鎖頭組B之使用壽命。 此外,若當發生火警或其他緊急情況的場合而言,受 困者要從門内逃出勢必會直接按壓門把A1來同步解鎖,以 節省開鎖時間*但若撥塊01設計存在死點問題’即導致受 困者無法迅速解鎖開門逃出,進而造成生命危險等問題點 ,因此,撥塊結構目前仍有相當大的改良突破空間存在。 是以,針對上述習知結構所存在之問題點,如何開發 一種更具理想實用性之創新結構,實使用者所企盼,亦係 相關業者須努力研發突破之目標及方向。 有鑑於此,創作人本於多年從事相關產品之製造開發 與設計經驗,針對上述之目標,詳加設計與審慎評估後, 終得一確具實用性之本創作。 【新型内容】 本創作之主要目的,係在提供一種門鎖之葫蘆鎖芯撥 塊結構改良;其所欲解決之問題點,係針對習知葫蘆鎖的 撥塊所存在之問題點加以改良突破;所述之門鎖係包括上 鎖片組、下鎖月組、能夠同時帶動上、下鎖片組之板片式 帶動構件以及設置於下鎖片組一側之葫蘆鎖芯所構成;該 4 M431925 葫蘆鎖芯的一瑞設有能夠同部轉動之一撥塊,藉由該 呈可轉動之狀態,而能夠旋轉並向上推移下鎖片組的 件,同時推移帶動下鎖片組的下舌片所設受推部,令 舌片橫向移動後與卡合件的止擋部相互卡合而呈定位 本創作解決問題之技術特點,主要係藉由該撥塊 部係形成有一弧凸面,且該弧凸面之弧面程度,必須 防止撥塊與受推部相抵靠時產生作動死點的機率,藉 特創新型態設計,使本創作對照先前技術而言,俾可 撥塊頂部的弧凸面以使受推部能夠沿弧凸面呈滑推狀 達到有效防止作動死點的機率,提升開門或開鎖動作 暢性以及使用方便性,且當緊急情況發生時,受困者 以迅速解鎖開門,不因作動死點而影響解鎖開門速度 危險疑慮之諸多實用效益。 本創作之另一目的,進一步藉由該撥塊的頂部設 滾輪的技術特徵,藉以使撥塊頂部與受推部抵靠滑動 作更為順暢、容易,亦同樣能夠達到防止作動死點機 目的。 _【實施方式】 請參閱第3 、4圖所示,係本創作門鎖之葫蘆鎖 塊結構改良之較佳實施例,惟此等實施例僅供說明之 在專利申請上並不受此結構之限制。所述之門鎖09係 上鎖片組10、下鎖片組11、能夠同時帶動上、下鎖片 、:11之板片式帶動構件12以及設置於下鎖片組11 一側 蘆鎖芯13所構成;該葫蘆鎖芯13的一端設有能夠同部 之一撥塊14,藉由轉動葫蘆鎖芯13的鎖鈕部20而能夠 塊14產生旋轉並向上推移下鎖片組11的卡合件15,同 移帶動下鎖片組11的下舌片16所設受推部17,令該下 16橫向移動後與卡合件15的止擋部18相互卡合而呈定 撥塊 卡合 該下 狀態 的頂 能夠 此獨 利用 態, 之順 亦可 產生 有一 的動 率的 芯撥 用, 包括 組10 之葫 轉動 使撥 時推 舌片 位狀 M431925 態;其主要特徵在於: 該撥塊14的頂部141係形成有一弧凸面142 ,且 凸面142之弧西程度,必須能夠防止撥塊14與受推部 抵靠時產生作動死點的機率; 藉此,俾可利用撥塊14頂部141的弧凸面142以 推部17能夠沿弧凸面142呈滑推狀態,達到有效防止 死點的機率,提升開門或開鎖動作之順暢性以及使用 性。 W 藉由上述之結構、組成設計,茲就本創作之使用 情形說明如下: 如第4至6圖所示,當使用者由門外將鑰匙插入 鎖芯13、由門内轉動葫蘆鎖芯13的鎖鈕部20時,即能 撥塊14產生旋轉動作,進而使撥塊14頂部141能夠先 推移下鎖片組11的卡合件15,並同時推移帶動下鎖片 的下舌片16的受推部17,使下舌片16橫向移動後與卡 15的止擋部18相互卡合而呈定位狀態(此處指第一段 狀態,),若當使用者未完成解鎖動作時,即使撥塊 _ 部141抵靠於下舌片16的受推部17,此時若直接驅動 式帶動構件12 (該動板片式帶動構件12係藉由門把驅 本實施例圖未表示)來帶動下舌片16,則可藉由頂部 的弧凸面142而使受推部14能夠沿弧凸面142呈滑推 ,進而防止下舌片16因撥塊14與受推部14產生作動死 無法移動的情形,造成無法開門的問題,藉以能夠增 用便利性。 如第7圖所示,係為撥塊14另一實施型態,其中 塊14的頂部141更設有一滾輪30 (亦可為軸承),藉 撥塊14頂部141與受推部17抵靠滑動的動作更為順暢 易,亦.同樣能夠達到防止作動死點機率的目的。 該弧· 17相 使受 作動 方便 作動 葫蘆 夠使 向上 組11 合件 解鎖 14頂 板片 動, 141 狀態 點而 加使 該撥 以使 、容 6 M431925 功效說明: 本創作功效增進之事實如下: 本創作所揭「門鎖之葫蘆鎖芯撥塊結構改良」,主 藉由該葫蘆鎖芯的撥塊頂部形成有弧凸靣之技術特點, 使受推部能夠沿著弧凸靣呈滑推狀態;藉此獨特創新設 ,使本創作對照【先前技術】而言,俾可利用撥塊頂部 弧凸靣以使受推部能夠沿弧凸靣滑推,不致於使撥塊與 推部產生互相抵推而無法移動之作動死點狀態,進而達 有效防止作動死點的機率,並能有效防止因撥塊呈作動 點狀態而無法開門之情形,同時提升開門或開鎖動作之 暢性以及使用方便性,且當緊急情況發生時,受困者亦 以迅速解鎖開門,不因作動死點而影響解鎖開門速度而 致危險發生之諸多實用效益。 本創作可產生之新功效如下: 進一步藉由該撥塊的頂部設有一滚輪的技術特徵, 使撥塊轉動推移受推部之動作更為順暢、容易,進而能 有效防止作動死點的機率,進而增加葫蘆鎖芯之使用壽 上述實施例所揭示者係藉以具體說明本創作,且文 雖透過特定的術語進行說明,當不能以此限定本新型創 之專利範圍;熟悉此項技術領域之人士當可在瞭解本創 之精神與原則後對其進行變更與修改而達到等效目的, 此等變更與修改,皆應涵蓋於如后所述申請專利範圍所 定之範疇中。 要 以 計 的 受 到 死 順 可 以 夠 命 中 作 作 而 界 7 M431925 [ 圖 式簡單 說明 ] 第 1 圖 習 知 門 鎖 作 動 之 動 第 2 圖 習 知 撥 塊 與 鎖 片 產 第 3 圖 習 知 撥 塊 與 鎖 片 產 第 4 圖 本 創 作 門 鎖 之 内 部 第 5 圖 本 創 作 門 鎖 之 内 部 第 6 圖 本 創 作 撥 塊 推 移 下 第 7 圖 本 創 作 撥 塊 之 另 — 作狀態示意圖。 生作動死點之狀態示意圖。 生作動死點之狀態示意圖。 結構平面圖。 結構立體圖。 舌片受推部動作狀態示意圖。 實施例示意圖。 【主要元件符號說明】 習知件號 撥塊 0 1 鎖片 0 3 止擔塊 0 5 頂面 0 7 門把 A 本創作件號 門鎖 0 9 下鎖組 1 1 韻Μ鎖芯 1 3 頂部 1 4 1 卡合件 1 5 受推部 1 7 鎖名丑部 2 〇 卡合件 〇 2 抵推部 〇 4 嵌卡部 0 6 帶動構件 〇 8 門把 A 1 上鎖片組 _ 1 0 板片式帶動構件 1 2 撥塊 1 4 弧凸面 1 4 下舌片 1 6 止擋部 1 8 滾輪 3 0 8M431925 V. New description: [New technical field] The structure of the code is improved, and the lock tongue is produced by the tongue. The lock is involved in the lock of a door lock. The lock is formed on the top of the J. An innovative type designer who can match the rate of the card. For the products in life and § 'The lock group between the members is configured to move the upper tongue block and can be used to realize the locking piece of the member when the dial is used to generate the rotation laterally from the abutting portion If the user wants to discuss, the group of blocks is provided, as shown in FIG. 1 , and can be shown. When the user orders the driving member 08 to be placed on the pushing portion 〇 4, the engaging member is firstly separated from the locking piece 03. The embedding part synchronizes and unlocks the movement of the door. The structure of each field is driven to constitute 'the piece, and the locker is turned from the door to the first lock piece and the snap lock is locked', which is shown for the research change. The device is provided with a piece and a member which is driven to open the tongue member and the bell will be locked. For the purpose, the locking shape can be good to be tied to the inside of the door. [Prior Art] Press the 'door lock toughness lock' type And the drive provided at the corresponding position on the side of the lock tongue can be simultaneously provided with the lock lock group to achieve the locked state, and when the head group is set, the upward movement is performed, and when the head group is rotated, the lock head piece is removed from the lock piece. The inlay cannot drive the lower locking tongue In the lock and actuation mode of the door lock product of the company, the door handles A and A1 are unlocked; as in the first figure, the moving member 08 can make the block 03 of the lock piece 03 as the rotary action member. The block 05 is laterally moved to achieve a wide range of abnormalities, so that the upper and lower locking tongues are configured on the lower locking tongue member - the only part is the door panel state by the door handle, and the locking piece is used to insert the door panel and rotate the lock. The engaging member 搀 pushing portion of the 杳 member is lowered by the 可 movable member to the k movable member. The conventional dial block type of synchronous unlocking in the door is such that when the door A1 directly reaches A1, and the drive can move laterally, and rotates, when the shift is made, the snap lock piece 03 can continue M431925. However, when the driver is caused to lock the same key by the lock group B, if the dial block 01 of the lock group B is not fully rotated to the position, the rotation is stopped, and the top surface of the dial block 01 is at this time. An angle state of the dead point may be presented between the abutting portion 04 of the locking piece 03 (refer to FIG. 2, which is a state in which the first segment is not fully rotated to the positioning state when locked), thereby making the lock The piece 03 is stuck and cannot be moved, and the function of synchronous unlocking is lost, and since the top surface of the dial block 01 is usually set to a plane (or approaching plane) type, the dial block 01 and the abutting portion 04 are in a dead state. The probability of the increase is greatly increased (as shown in Figure 3, the second stage is locked when it is not fully rotated to the position of positioning, and the same is the action dead point), and the design of the dial block 01 will also reduce the unlocking action. Smoothness and ease of use, thereby reducing the life of the lock group B . In addition, in the event of a fire or other emergency, the trapped person must escape from the door and press the door A1 to unlock it synchronously to save the unlocking time* but if the dial block 01 design has a dead point problem' That is to say, the trapped person can not quickly unlock the door to escape, which causes life-threatening problems. Therefore, there is still a considerable room for improvement in the dial-block structure. Therefore, in view of the problems existing in the above-mentioned conventional structure, how to develop an innovative structure that is more ideal and practical, is expected by users, and is also related to the industry's efforts to develop breakthrough goals and directions. In view of this, the creator has been engaged in the manufacturing development and design experience of related products for many years. After detailed design and careful evaluation of the above objectives, the creator will have a practical and practical creation. [New content] The main purpose of this creation is to improve the structure of the hoist lock cylinder block for providing a door lock; the problem to be solved is to improve the problem of the problem of the dial of the conventional hoist lock. The door lock system comprises a locking piece group, a lower locking group, a plate-type driving member capable of simultaneously driving the upper and lower locking piece groups, and a hoist lock core disposed on one side of the lower locking piece group; 4 M431925 The hoist lock cylinder is provided with a dial that can rotate in the same direction. With the rotatable state, the member of the lower lock piece can be rotated and moved upwards, and the lower lock piece group is pushed down. The pusher portion of the tongue piece is arranged to make the tongue piece move laterally and engage with the stop portion of the engaging member to form a positioning. The technical feature of the present invention is to solve the problem, mainly by forming an arc convex surface by the dial block portion. Moreover, the degree of the arc surface of the arc convex surface must prevent the probability that the dial block and the pushed portion abut against each other, and the special innovative design makes the creation of the arc at the top of the block. Convex to make the pusher Sliding along the convex surface of the arc to achieve the probability of effectively preventing the dead point, improve the smoothness of opening or unlocking, and ease of use, and when an emergency occurs, the trapped person can quickly unlock the door without affecting the dead point. Unlock the many practical benefits of driving door speed hazards. Another object of the present invention is that the technical feature of the roller on the top of the dial block further makes the top of the dial block and the pushed portion a smoother and easier sliding action, and can also achieve the purpose of preventing the action of the dead point. . _[Embodiment] Please refer to Figures 3 and 4, which are preferred embodiments of the hoist lock block structure of the present invention. However, these embodiments are for illustrative purposes only and are not subject to this structure. The limit. The door lock 09 is a locking piece group 10, a lower locking piece group 11, a plate-type driving member 12 capable of simultaneously driving the upper and lower locking pieces, and 11 and a locking core disposed on the side of the lower locking piece group 11. 13 is constructed; one end of the hoist cylinder 13 is provided with a dial 14 of the same portion, and by rotating the lock button portion 20 of the hoist cylinder 13, the block 14 can be rotated and the card of the lower lock group 11 can be moved upward. The engaging member 15 is configured to move the push portion 17 of the lower tongue piece 16 of the lower locking piece group 11 so that the lower portion 16 moves laterally and engages with the stopping portion 18 of the engaging member 15 to form a dial block card. The top of the lower state can be used in this state alone, and the smoothness can also be generated by a core of a dynamic rate, including the rotation of the group 10 so that the dialing position of the tongue is M431925; the main features are: The top portion 141 of the block 14 is formed with an arcuate convex surface 142, and the convexity of the convex surface 142 must be such as to prevent the occurrence of a dead point when the dial block 14 abuts against the pushed portion; thereby, the top of the dial block 14 can be utilized. The arc convex surface 142 of the 141 can be pushed along the arc convex surface 142 by the pushing portion 17, so as to effectively prevent death. Chances to improve the door or unlock smooth and usefulness of action. W With the above structure and composition design, the use case of the present creation is explained as follows: As shown in Figures 4 to 6, when the user inserts the key into the lock cylinder 13 from outside the door, the lock of the hoist lock cylinder 13 is rotated by the door. When the button portion 20 is used, the dial 14 can be rotated, so that the top portion 141 of the dial block 14 can be pushed forward by the engaging member 15 of the lower locking piece group 11, and at the same time, the pushing of the lower tongue piece 16 of the lower locking piece is pushed. The portion 17 moves the lower tongue piece 16 laterally and engages with the stop portion 18 of the card 15 to be in a positioning state (herein, the first segment state), if the user does not complete the unlocking action, even if the user dials the block The _ portion 141 abuts against the pushed portion 17 of the lower tongue piece 16, and at this time, if the direct drive type driving member 12 (the moving plate type driving member 12 is not shown by the door handle driving embodiment), The tongue piece 16 can slide the pushed portion 14 along the arc convex surface 142 by the arc convex surface 142 at the top, thereby preventing the lower tongue piece 16 from being unable to move due to the movement of the dial block 14 and the pushed portion 14. , causing problems that cannot be opened, so that convenience can be added. As shown in FIG. 7 , it is another embodiment of the dial block 14 , wherein the top portion 141 of the block 14 is further provided with a roller 30 (also a bearing), and the top portion 141 of the dial block 14 is slid against the pushed portion 17 . The movements are smoother and easier, and the same can be achieved to prevent the chance of a dead end. The arc·17 phase makes it easy to operate the hoist enough to unlock the upper set 11 joints and the 14 top plate movements, and the 141 state point is added to make the capacity. M M M M M M M M M M M M M M M M M M M M M M M M M M M M M The creation of the "door lock hoist lock core block structure improvement", the main feature of the cucurbit lock core of the dial formed by the arc bulge, so that the push portion can be pushed along the arc squat With this unique and innovative design, in contrast to the prior art, the top can be used to make the push portion slide along the arc convex, so that the dial block and the push portion are mutually generated. The push-and-push state cannot be moved to the state of the dead-end point, thereby achieving the probability of effectively preventing the dead-end point, and effectively preventing the situation in which the door can not be opened due to the state of the dialing block, and improving the smoothness and ease of opening or unlocking operations. Sexuality, and when an emergency occurs, the trapped person also quickly unlocks the door and does not affect the practical benefits of the danger of unlocking the door opening speed due to the dead point. The new functions that can be generated by the creation are as follows: Further, by the technical feature of a roller on the top of the dial, the movement of the dial is more smoothly and easily performed by the pushing portion, thereby effectively preventing the probability of making a dead point. Further, the use of the cucurbit lock cylinder is extended by the above embodiments, and the present disclosure is specifically described, and although the text is explained by specific terms, the scope of the patent can not be limited by this; the person familiar with the technical field When changes and modifications are made to the equivalent purpose after understanding the spirit and principles of this creation, such changes and modifications shall be covered in the scope of the patent application as described later. To be able to hit the dead, you can make a hit. 7 M431925 [Simple diagram of the drawing] Figure 1 shows the movement of the door lock. Figure 2 shows the dial block and the lock sheet. The inside of the lock door is the fourth picture of the inside of the creation of the door lock. Figure 5 shows the inside of the creation of the door lock. A schematic diagram of the state of birth and death. A schematic diagram of the state of birth and death. Structure plan. Structural perspective view. Schematic diagram of the action state of the tongue by the pushing part. A schematic of an embodiment. [Main component symbol description] Conventional part number dial block 0 1 lock piece 0 3 stop block 0 5 top surface 0 7 door handle A creation part number door lock 0 9 lock group 1 1 rhyme lock cylinder 1 3 top 1 4 1 Snap fitting 1 5 Pushing part 1 7 Locking ugly part 2 〇 合 〇 2 推 pushing part 〇 4 Inserting part 0 6 Driving part 〇 8 Door handle A 1 Upper locking piece _ 1 0 board Plate-driven member 1 2 Block 1 4 Arc convex 1 4 Lower tongue 1 6 Stop 1 8 Roller 3 0 8