201217622 六、發明說明: 【發明所屬之技術領域】 本創作係關於一種具有電磁管及陰極鎖結構 的電子裝置’特別是指有利用電磁管作動之陰極鎖 或陽極鎖的電磁管發明’以及關於一種陰極鎖防風 ㈣是指—種陰極鎖防風壓結構發明。 習用機械鎖由於機構組成較為複雜,因此製造 Φ 組裝較為麻煩,相對成本也較高,因此電子鎖具因 應而生,而電子鎖具雖可解決習用機械鎖具所產生 的問題’但在製造及使用上’仍具有下列問題及缺 點· 1.習用電子鎖通常用在公共場所普遍為斷電開門 型,當長時間鎖門時,需長時間輸入電流,導致 耗電量大。 鲁 2.習用電子鎖通常用在自家及商家門口普遍為送 電開門型,當長時間開門時,需長時間輸入電 流,導致耗電量大。 3·習用電子鎖在門扇變形或被風吹壓時,常造成鎖 具結構卡住難以開門之箸況。 由此可見,上述習用電子鎖具所衍生之問題及 不足,實非一良善之設計者,而亟待加以改良。 本案創作人鑑於上述習用電子鎖具所衍生的 201217622 各項問題及不足’乃亟思加以改良創新,並經多年 苦心孤詣潛心研究後,終於成功研發完成本件具有 電磁管及陰極鎖結構的電子裝置。 【發明内容】 本創作之目的係在於近幾年環保意識提高,大 家提倡節能減碳的觀念’進而改善電磁管在保持長 時間開門或關門狀態下,需持續輸入電流問題,提 供一種節能減碳不需長時間供電的電子鎖。 本創作之其一目的即在於提供一種門扇變形 或在有風壓情況下依舊可正常開關門的陰極鎖。 ^本創作之又一目的係在於提供一種構件精 簡、組裝簡單、維修容易、使用壽命長、製造成本 低等優點之陰極鎖。 可達成上述創作目的之一種具有電磁管及陰 極鎖結構的電子裝置,係由本體框架組、遮修片、 電磁管、卡榫切換組、扣件防風壓組、壓件組、鎖 扣組及電路組所組成,其中該本體框架組係由本體 框架組、本體、上蓋板、前蓋板、防拆螺絲及組裳 螺絲所組成’該電磁管係由電磁管磁鐵、電磁管前 蓋:電磁管大塑膠圈、電磁管活動鐵蕊長插銷、電 磁管外殼、電磁管銅管、電磁管活動鐵蕊、電磁管 活動鐵蕊短插銷、電磁管小塑膠圈、電磁管後蓋及 電磁管磁鐵所Μ ’該卡榫城㈣㈣換支撐件 及切換件所組成,該扣件防風壓組係由 壓件、切換撥桿、扣件彈菁及扣件支撐件所組成,[ 7 201217622201217622 VI. Description of the invention: [Technical field to which the invention pertains] The present invention relates to an electronic device having a magnet tube and a cathode lock structure, particularly an invention of an electromagnetic tube having a cathode lock or an anode lock that is actuated by a solenoid tube, and A cathode lock windproof (four) refers to a kind of cathode lock windproof structure invention. Due to the complicated structure of the mechanical locks, the manufacturing of Φ is more troublesome and the relative cost is higher. Therefore, the electronic locks are born, and the electronic locks can solve the problems caused by the conventional mechanical locks, but in manufacturing and use. Still have the following problems and shortcomings: 1. Conventional electronic locks are commonly used in public places to open the door type. When locking the door for a long time, it takes a long time to input current, resulting in large power consumption. Lu 2. The use of electronic locks is commonly used in the door opening of their own homes and merchants. When opening the door for a long time, it is necessary to input current for a long time, resulting in large power consumption. 3. The conventional electronic lock often causes the lock of the lock to be difficult to open when the door leaf is deformed or blown by the wind. It can be seen that the problems and deficiencies derived from the above-mentioned conventional electronic locks are not a good designer and need to be improved. In view of the problems and shortcomings of 201217622 derived from the above-mentioned conventional electronic locks, the creators of this case have improved and innovated, and after years of painstaking research, they have successfully developed and completed this electronic device with electromagnetic tube and cathode lock structure. [Summary of the Invention] The purpose of this creation is to improve the awareness of environmental protection in recent years. Everyone advocates the concept of energy saving and carbon reduction. In turn, the electromagnetic tube needs to continuously input current when maintaining the door opening or closing for a long time, providing an energy saving and carbon reduction. Electronic locks that do not require long periods of power. One of the purposes of this creation is to provide a cathode lock that can be normally opened and closed when the door leaf is deformed or in the presence of wind pressure. Another object of the present invention is to provide a cathode lock which has the advantages of simple structure, simple assembly, easy maintenance, long service life and low manufacturing cost. An electronic device having a magnet tube and a cathode lock structure capable of achieving the above-mentioned creation purpose is a body frame group, a cover plate, a electromagnetic tube, a cassette switching group, a fastener wind pressure group, a pressure piece group, a lock group and The circuit frame is composed of a body frame group, a body, an upper cover, a front cover, a tamper-removing screw and a set of screws. The electromagnetic tube is composed of an electromagnetic tube magnet and a front cover of the electromagnetic tube: Electromagnetic tube large plastic ring, electromagnetic tube movable iron core long bolt, electromagnetic tube shell, electromagnetic tube copper tube, electromagnetic tube movable iron core, electromagnetic tube movable iron core short pin, electromagnetic tube small plastic ring, electromagnetic tube back cover and electromagnetic tube The magnet Μ 'The card 榫 ( (4) (4) is composed of a support member and a switching member, and the wind-proof pressure group of the fastener is composed of a pressing member, a switching lever, a fastener, and a fastener supporting member, [7 201217622
係由卡榫件、受壓件、壓件彈簧及壓件支 撐::組成,該鎖扣組係鎖舌'門位感應開關、鎖 扣彈簧、門位感應球、門位感應元件及鎖扣支撐件 該電路組係由電路基板、基板支撐件及電 g感應7L件所組成’其電磁管動作原理經由切換 線圈輸入的電流方向,讓電磁場方向變更,使活動 ,蕊左右移動’並在左右兩㈣磁鐵讓活動鐵蕊固 疋位置,電流只需瞬間輸入,減少長時間耗電,進 而達到節錢碳的功效,其陰極鎖動作原理是以電 磁管左右移動方式來變更鎖開關的狀態。利用電磁 管活動鐵蕊左右位移,當電磁管通電產生向右的電 磁场,將電磁管活動鐵蕊往右側位移撥動切換桿, 讓扣件防壓組向右移動,而卡榫件能往下,使鎖扣 可自由轉動開門’當電磁管向左推動扣件防風壓組 向左,與壓件組相互卡榫使鎖扣固定無法轉動成上 鎖狀態,達成電子鎖具之功效者;當門處於鎖住的 狀態時,鎖扣會因門板變形或被風吹壓住,而壓件 組與扣件防風壓組互相卡住,當做開門動作時因 防風壓件為圓柱可滾動,讓扣件防壓組不會被壓件 組壓住而不能往右移動,即可完成開門動作,將上 述組件結合後’即可成為一陰極鎖。 【實施方式】 請參閱第一圖,為本創作陰極鎖結構之分解示 意圖,由圖中可知,本創作陰極鎖100 ,是由本體 框架組1 、遮修片2、電磁管3、卡榫切換組4、 201217622 壓件組5、扣件防風屢組6、鎖扣組7及電路植$ 所組成,其中該本體框架組!係由本㈣、上蓋板 12、前蓋板13、防拆螺絲Μ及組裝螺絲15組成, 該電磁f 3係由電磁管磁鐵31、電磁管前蓋32、 電磁管大塑膠圈33、電磁管活動鐵蕊長插銷3“ 電磁管外殼35、電磁管銅管36、電磁管活動鐵蕊 37、電磁管活動鐵蕊短插銷%、電磁管小塑膠圈 φ 電磁苢後蓋3A及電磁管磁鐵3B所組成,該卡 棒切換組4係由切換支撐件41及切換件42組成, 該壓件組5係由卡榫件51、受壓件52、壓件彈簧 53及壓件支撐件54組成’該扣件防風壓組6係由 扣件61、防風壓件62、切換撥桿63、扣件彈簧料 及扣件支撐件65組成,該鎖舌組7係由鎖扣71、 門位偵測開關72、鎖扣彈簧73、門位感應球74、 • 門位感應元件75及鎖扣支撐件76組成,該電路組 8係由電路基板81 、基板支撐件82及電磁管感應 元件83組成’其動作原理電磁管3經由變更電流 輸入方向’產生不同方向電磁場吸引電磁管活動鐵 蕊37左右位移,並利用左右兩側電磁管磁鐵3 j、 3B固定位置,當電磁管3輸入電流方向產生向右 的電磁場,讓電磁管活動鐵蕊37向右推動切換件 42帶動扣件防風壓組6向右,讓壓件組5可向下移 9 201217622 動,使鎖扣71可轉動開門,當電磁管3輸入電流 方向變更產生向左的電磁場,讓電磁管活動鐵蕊37 向左拉動切換件42帶動扣件防風壓組6向左,與 壓件組5相互卡榫使鎖扣固定無法轉動成上鎖狀 態,將上述組鎖1 00是基本架構由本體11、上蓋板 Ϊ 2如蓋板13、遮修片2、鎖扣71、門位债測開關 72及電路基板81所組成所形成。 si 請參閱第六圖及第七圖,為本創作陰極鎖之内 部動作結構及原理示意圖,由圖可知,本創作陰極 鎖1〇〇是由本體11、前蓋板13、電磁管3、卡榫切 換組4、壓件組5、扣件防風壓組6、鎖扣組7、電 路基板81、基板支撐件82、電磁管感應元件以所 成、.星由鎖舌組7係由鎖舌71、門位偵測開關 72、鎖舌彈簧73、門位感應球74、門位感應元件 75及鎖舌支撐件76所組成,感應電磁管3左右位 移並推動卡榫切換组4係由切換支撐件W及切 :件42所組成’推動扣件防風壓組6,該扣件防風 β、”係由扣件61、防風壓件62、切換撥桿63、 彈簧64及扣件支撐件65組成,當電磁管3往 移動推動卡榫切換組4,將扣件防風壓組6往右 ,動:讓壓件組5可往下移動,使鎖扣71可往下 動達到開門動作,壓件組5係由卡榫件5卜受壓 201217622 件52、壓件彈簧53及壓件支撐件54組成,當電磁 管3往左推動扣件防風壓組向左,與壓件組相互卡 榫使鎖扣固定無法轉動成上鎖狀態;本創作係使電 磁管3激磁,驅使壓件組6上下位移,進而連動鎖 扣71活動,達成電子鎖具之功效者。 請參閱第八圖及第九圖為本創作陰極鎖開門 狀態及鎖門狀態圖,其第八圖為開門狀態時,電磁 管3為向電磁管感應元件83伸出狀態,因卡摔切 換組4帶動切換撥桿63使扣件61轉動,讓卡榫件 51可往下移動,使鎖舌可轉動形成開門狀態,其第 九圖為關門狀態時,電磁管3為向壓件支撐件54 伸出狀態,因卡榫切換組4帶動切換撥桿63使扣 件61回轉,讓卡榫件51跟扣件61及防風壓件62 形成互相卡榫狀態,使鎖舌固定無法轉動形成鎖門 狀態。 si 請參閱第十圖、第十一圖、第十二圖、第十三 圖及第十四圖為本創作陰極鎖防風壓結構及動作 原理圖’其鎖扣71間扇變形或被風吹而壓住時, 卡榫件5 1會被鎖扣往下壓在防風壓件62上,當電 磁管3被通電產生瞬間向右的電磁場,推動切換件 42向右並帶動扣件61往右逆時針轉動,因防風壓 件62為圓柱形狀,可在卡榫件51上向右滾動,使 201217622 扣件61不會被風壓關係而被卡榫件5i壓住無法轉 動’移動順序請參閱第十-圖、第十二圖、第十三 圖及第十四圖,利用防關件62為園柱形狀可在 卡榫件51平面上滾動,讓扣件61可向右逆時針轉 動,使卡榫件51可向下轉動,而鎖扣^也可往下 轉動,陰極鎖則可形成開門狀態,達成陰極鎖在風 壓狀態下還可開門之目的。 請參閲第十五圖,為本創作陰極鎖結構之外觀 組成示意圖’本體n、上蓋板12、前蓋板13、防 拆螺:η、組裝螺絲15及遮羞片2所組合而成。 一 ,閱第十/、圖,為本創作陰極鎖結構之實施 示意圖,經由門9一關上,其門上之鎖芯A卡入鎖 4内並壓觸門位偵測開關72,其門位偵測開關 72 一_觸其内部之門位感應元件75,使鎖體作 上鎖之動作。 為使本創作更加顯示出進步性與實用性,兹與習 用電子鎖具作一比較分析如下: 習用技術缺Mk : K習用電子鎖通常用在公共場所普遍為斷電開型 鎖’當需要在長時間鎖門狀態時,會長時間電流 輸入’導致耗電量大。 2·習用電子鎖通常用在自家及商家門口普遍為 201217622 電開型鎖,當需要在長時間開門狀態時,會長時 間電流輸入,導致耗電量大。 3.習用電子鎖在門扇變形或被風吹壓時,常造成鎖 具結構卡住難以開門之窘況。 本創作之優點:It is supported by a clamping member, a pressure member, a pressing member spring and a pressing member: the locking group is a locking tongue 'door position sensing switch, a lock spring, a door position sensing ball, a door position sensing element and a buckle The support unit is composed of a circuit board, a substrate support member and an electric induction 7L. The principle of the electromagnetic tube operation is the direction of the current input through the switching coil, so that the direction of the electromagnetic field is changed, so that the activity and the core move to the left and right. The two (four) magnets allow the movable iron core to be fixed, the current needs to be input instantaneously, and the power consumption for a long time is reduced, thereby achieving the effect of saving carbon. The principle of the cathode lock operation is to change the state of the lock switch by the electromagnetic tube moving left and right. Using the electromagnetic tube to move the iron core to the left and right, when the electromagnetic tube is energized to generate the electromagnetic field to the right, the movable iron core of the electromagnetic tube is displaced to the right side to toggle the switching rod, so that the buckle anti-pressure group moves to the right, and the clamping member can go to Next, the lock can be freely rotated to open the door. When the electromagnetic tube pushes the buckle to the left, the windproof pressure group is turned to the left, and the pressing member group is locked with each other so that the locking buckle can not be rotated into a locked state, and the function of the electronic lock is achieved; When the door is in the locked state, the buckle will be deformed by the door panel or pressed by the wind, and the pressing member group and the buckle windproof pressure group are stuck with each other. When the door opening operation is performed, the windproof pressing member is cylindrical and can be rolled to make the fastener The pressure-proof group will not be pressed by the pressing member group and cannot be moved to the right, and the door opening operation can be completed, and the above components can be combined to become a cathode lock. [Embodiment] Please refer to the first figure, which is an exploded view of the cathode lock structure of the present invention. As can be seen from the figure, the cathode lock 100 of the present invention is switched by the body frame group 1, the cover plate 2, the electromagnetic tube 3, and the cassette. Group 4, 201217622 presser group 5, fastener windproof group 6, lock group 7 and circuit planting $, which is the body frame group! The utility model is composed of the fourth (4), the upper cover 12, the front cover 13, the tamper-proof screw Μ and the assembly screw 15. The electromagnetic f 3 is composed of an electromagnetic tube magnet 31, a electromagnetic tube front cover 32, a large plastic ring 33, and an electromagnetic tube. Active iron core long bolt 3" electromagnetic tube shell 35, electromagnetic tube copper tube 36, electromagnetic tube movable iron core 37, electromagnetic tube movable iron core short pin%, electromagnetic tube small plastic ring φ electromagnetic 苢 back cover 3A and electromagnetic tube magnet 3B The card bar switching group 4 is composed of a switching support member 41 and a switching member 42 which is composed of a latching member 51, a pressure receiving member 52, a pressing member spring 53, and a pressing member support member 54. The fastener windproof pressure group 6 is composed of a fastener 61, a windproof member 62, a switching lever 63, a fastener spring material and a fastener supporting member 65. The locking tongue group 7 is composed of a latch 71 and a door position detecting switch. 72. A lock spring 73, a door position sensing ball 74, a door position sensing element 75 and a lock support member 76. The circuit group 8 is composed of a circuit board 81, a substrate support member 82 and a solenoid sensing element 83. Action principle The electromagnetic tube 3 generates electromagnetic fields in different directions by changing the current input direction to attract the electromagnetic tube. The iron core 37 is displaced to the left and right, and the position is fixed by the left and right electromagnetic tube magnets 3 j, 3B. When the electromagnetic tube 3 inputs the current direction, the electromagnetic field to the right is generated, so that the movable metal core 37 pushes the switching member 42 to the right to drive the fastener. The wind pressure group 6 is turned to the right, so that the pressure piece group 5 can be moved downward 9 201217622, so that the lock 71 can be rotated to open the door. When the input direction of the electromagnetic tube 3 is changed, a magnetic field to the left is generated, and the electromagnetic tube is moved to the left. The left pull switching member 42 drives the fastener windproof pressure group 6 to the left, and the pressing member group 5 is locked with each other so that the lock buckle can not be rotated into a locked state, and the above group lock 100 is a basic structure from the body 11 and the upper cover plate. Ϊ 2 is formed by the cover plate 13, the cover piece 2, the lock 71, the door position debt measuring switch 72 and the circuit board 81. si Please refer to the sixth and seventh figures for the internal action of the cathode lock Schematic diagram of the structure and principle, as can be seen from the figure, the cathode lock 1 is composed of the body 11, the front cover 13, the electromagnetic tube 3, the cassette switching group 4, the pressing member group 5, the fastener windproof group 6, and the buckle Group 7, circuit substrate 81, substrate support member 82, electromagnetic tube sensing element The star is composed of a lock tongue 71, a door position detecting switch 72, a lock tongue spring 73, a door position sensing ball 74, a door position sensing element 75 and a bolt supporting member 76, and an induction electromagnetic tube. 3 displacements and pushing the cassette switching group 4 are composed of the switching support member W and the cutting member 42. The pushing member windproof pressure group 6 is fastened by the fastening member 61 and the windproof member 62. The switch lever 63, the spring 64 and the fastener support member 65 are formed. When the electromagnetic tube 3 moves to push the card switch group 4, the buckle wind pressure group 6 is turned to the right, and the press member group 5 can be moved downward. The lock 71 can be moved downward to achieve the door opening action, and the press set 5 is composed of the clamp member 5, the pressed 201217622 member 52, the press member spring 53 and the press member support member 54. When the electromagnetic tube 3 pushes the fastener to the left The windproof pressure group is turned to the left, and the pressing member group is locked with each other so that the locking buckle can not be rotated to be locked. The present invention causes the electromagnetic tube 3 to be excited to drive the pressing member group 6 to be displaced up and down, thereby interlocking the locking 71 to achieve the electronic The function of the lock. Please refer to the eighth figure and the ninth figure for the state of the cathode lock opening door and the lock door state. The eighth figure shows that the electromagnetic tube 3 is extended to the electromagnetic tube sensing element 83 when the door is opened, and the card is switched. 4 driving the switching lever 63 to rotate the fastener 61, so that the latching member 51 can be moved downward, so that the locking tongue can be rotated to form a door opening state, and the ninth figure is the closing state, the electromagnetic tube 3 is the pressing member support member 54. In the extended state, the latching switch 63 drives the switch lever 63 to rotate the fastener 61, so that the latching member 51 and the windshield member 61 and the windshield retaining member 62 are mutually locked, so that the latching tongue cannot be rotated to form a locking door. status. Si Please refer to the tenth, eleventh, twelfth, thirteenth and fourteenth drawings for the cathode lock windproof structure and the action principle diagram of the lock. The lock 71 is deformed or blown by the wind. When pressed, the clamping member 51 will be pressed down on the windproof member 62. When the electromagnetic tube 3 is energized, an electromagnetic field instantaneously to the right is generated, pushing the switching member 42 to the right and driving the fastener 61 to the right. When the hour hand rotates, since the windproof member 62 has a cylindrical shape, it can be rolled to the right on the latching member 51, so that the 201217622 fastener 61 is not pressed by the latching member 5i due to the wind pressure relationship, and cannot be rotated. In the tenth, twelfth, thirteenth and fourteenthth views, the shape of the cylinder 62 can be rolled on the plane of the latching member 51, so that the fastener 61 can be rotated counterclockwise to the right, so that the fastener 61 can be rotated counterclockwise to the right. The latching member 51 can be rotated downward, and the latching button can also be rotated downwards, and the cathode lock can form a door opening state, so that the cathode lock can be opened under the wind pressure state. Please refer to the fifteenth figure, which is a combination of the appearance of the cathode lock structure of the present invention, the main body n, the upper cover 12, the front cover 13, the tamper-proof screw: η, the assembly screw 15 and the shame sheet 2. First, read the tenth/picture, which is a schematic diagram of the implementation of the cathode lock structure. After the door 9 is closed, the lock core A on the door is locked into the lock 4 and presses the door position detecting switch 72, and the door position thereof The detecting switch 72 touches the inner door sensing element 75 to lock the lock body. In order to make this creation more progressive and practical, a comparative analysis with the electronic locks is as follows: The lack of customary technology Mk: K custom electronic locks are commonly used in public places to open power locks when needed When the time is locked, the current input for a long time will result in a large power consumption. 2. The conventional electronic lock is usually used in the door of the home and the business. The 201217622 electric open lock is used. When it is necessary to open the door for a long time, the current input is long, resulting in large power consumption. 3. The conventional electronic lock often causes the lock of the lock to be difficult to open when the door leaf is deformed or blown by the wind. The advantages of this creation:
1. 本創作電磁管’利用瞬間電流產生電磁場改變電 磁管活動鐵蕊位置’並藉由強力磁鐵將電磁管活 動鐵蕊位置定位,即可輕易達成開關鎖之設定。 2. 本創作電磁管,利用左右強力磁鐵將電磁管活動 鐵搞固定在左右其中一侧,即可減少長時間的電 流使用,以達到節能減碳的功效。 3·本創作陰極鎖結構,係具有門及陰極鎖在風麼情 況下,可以將門開鎖之結構。 4’本創作陰極鎖結構,係具有構件精簡、組裝簡 〇維t合易、使用壽命長及製造成本低等優 【圖式簡單說明】 圖為該陰極鎖結構之分解示意圖。 一圖為該電磁管内部結構示意圖。 ==磁管活動鐵蕊移動位置示意圖及 第四圖為該電磁管活動鐵蕊移動位置*意圖及m 13 201217622 電路示意圖。 C =該陰極鎖外觀結構圖。 圖圖為該陰極鎖結構之内料作原理示意 第y為該陰極鎖結構之内部動作原理示意 陰極鎖結構開門狀態示意圖。 笛+固為該陰極鎖結構鎖門狀態示意圖。1. The creative electromagnetic tube 'uses an instantaneous electric current to generate an electromagnetic field to change the position of the movable iron core of the electromagnet tube', and the position of the switch lock can be easily achieved by positioning the electromagnetic tube with the strong magnet. 2. The electromagnetic tube of this creation uses the left and right powerful magnets to fix the movable iron of the electromagnetic tube to one side of the left and right, so as to reduce the use of current for a long time, so as to achieve the effect of energy saving and carbon reduction. 3. The cathode lock structure of the present invention has the structure that the door and the cathode lock can be unlocked under the condition of the wind. 4' The cathode lock structure of the present invention has the advantages of simple structure, simple assembly, long service life, low service life and low manufacturing cost. [Simplified schematic diagram] The figure shows an exploded view of the cathode lock structure. A picture shows the internal structure of the electromagnetic tube. == Schematic diagram of the moving position of the magnetic tube moving iron core and the fourth figure is the moving position of the electromagnetic tube moving iron core * Intention and m 13 201217622 circuit diagram. C = the structure of the cathode lock. The figure shows the principle of the internal structure of the cathode lock structure. The first schematic diagram shows the internal operation principle of the cathode lock structure. Flute + solid is a schematic diagram of the state of the cathode lock structure locking door.
十,為本創作陰極鎖防風壓結構圖。 =圖圖為本創作陰極鎖防風壓結構之動作原 第圖為本創作陰極鎖防風壓結構之動作原 第十三圖為本創作陰極鎖防風壓結構之動作原 理圖。 、 第十四圖為本創作陰極鎖防風壓結構之動作原 理圖。 、 第十五圖為本創作陰極鎖結構之外觀組成示聋 圖。 、 第十六圖為本創作陰極鎖結構之實施示音 【主要元件符號說明】 u 100·..陰極鎖 1…本體框架組 11...本體 12—L蓋板 E S1 14 201217622 13.. .前蓋板 14.. .防拆螺絲 15.. .組裝螺絲 2...遮修片Ten, for the creation of the cathode lock wind pressure structure diagram. The figure is the action of the original cathode lock windproof structure. The first figure is the action of the original cathode lock windproof structure. The thirteenth figure is the action principle diagram of the creation of the cathode lock windproof structure. The fourteenth figure is the action principle diagram of the creation of the cathode lock windproof structure. The fifteenth figure is a schematic diagram showing the appearance of the cathode lock structure. The sixteenth figure shows the implementation of the cathode lock structure. [Main component symbol description] u 100·.. cathode lock 1... body frame group 11... body 12-L cover E S1 14 201217622 13.. .Front cover 14.. tamper-resistant screws 15...Assembling screws 2...shading sheets
...電 磁 管 31... 電 磁 管磁鐵 32... 電 磁 管前蓋 33... 電 磁 管大塑膠 圈 34... 電 磁 管活動鐵 蕊長插 銷 35... 電 磁 管外殼 36... 電 磁 管銅管 37... 電 磁 管活動鐵 蕊 38... 電 磁 管活動鐵 蕊短插 銷 39... 電 磁 管小塑膠 圈 3A·. •電 磁 管後蓋 3B ·· 電 磁 管磁鐵 4.. .卡榫切換組 41.. .切換支撐件 42.. .切換件 5.. .壓件組 51.. .卡榫件 [S1 52.. .受壓件 15 201217622 53.. .壓件彈簧 54.. .壓件支撐件 6.. .扣件防風壓組 61.. .扣件 62.. .防風壓件 63.. .切換撥桿 64.. .扣件彈簧 65.. .扣件支撐件 7.. .鎖扣組 71…鎖扣 72.. .門位偵測開關 73.. .鎖扣舌彈簧 7 4...門位感應球 75.. .門位感應元件 76.. .鎖扣支撐件 8.. .電路組 81.. .電路基板 82.. .基板支撐件 83.. .電磁官感應元件 9.. .門扇 A...鎖芯 16...Electromagnetic tube 31... Electromagnetic tube magnet 32... Electromagnetic tube front cover 33... Electromagnetic tube large plastic ring 34... Electromagnetic tube movable iron core long bolt 35... Electromagnetic tube housing 36.. Electromagnetic tube copper tube 37... Electromagnetic tube movable iron core 38... Electromagnetic tube movable iron core short pin 39... Electromagnetic tube small plastic ring 3A·. • Electromagnetic tube back cover 3B ·· Electromagnetic tube magnet 4. .. card switch group 41.. switch support member 42.. switch member 5.. press member group 51.. card clamp [S1 52.. . pressure member 15 201217622 53.. press member Spring 54.. Pressing member support member 6.. Fastening member for wind pressure group 61.. Fastener 62.. Windproof pressing member 63.. Switching lever 64.. Fastener spring 65.. Supporting member 7... Locking group 71...Locking 72.. Door position detecting switch 73.. Locking tongue spring 7 4... Door position sensing ball 75.. Door position sensing element 76. .. Locking support 8.. Circuit group 81.. . Circuit board 82.. Substrate support 83.. Electromagnetic sensor element 9.. Door leaf A... lock core 16