|Publication number||CN102741490 A|
|Application number||CN 201180007352|
|Publication date||17 Oct 2012|
|Filing date||25 Jan 2011|
|Priority date||25 Jan 2010|
|Also published as||EP2529069A1, US8544302, US20120324969, WO2011089612A1, WO2011089612A4|
|Publication number||201180007352.4, CN 102741490 A, CN 102741490A, CN 201180007352, CN-A-102741490, CN102741490 A, CN102741490A, CN201180007352, CN201180007352.4, PCT/2011/85, PCT/IL/11/000085, PCT/IL/11/00085, PCT/IL/2011/000085, PCT/IL/2011/00085, PCT/IL11/000085, PCT/IL11/00085, PCT/IL11000085, PCT/IL1100085, PCT/IL2011/000085, PCT/IL2011/00085, PCT/IL2011000085, PCT/IL201100085|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (6), Referenced by (2), Classifications (21), Legal Events (4)|
|External Links: SIPO, Espacenet|
圆筒门锁 Cylinder locks
技术领域 Technical Field
 本发明涉及圆筒门锁且更具体而言涉及基本上防破坏的电子门锁。  The present invention relates to a cylinder lock electronic door locks and more particularly relates to a substantially vandal proof.
 用于门的圆筒锁传统上包含弹簧加载的回缩器，所述回缩器用于回缩和释放用于打开和闩锁门的碰簧销。  contains a spring-loaded cylinder lock retractor traditionally used door, said retractor is used to retract and release the latch used to open and lock the door latch bolt. 锁外壳安装在延伸穿过门的钻孔中。 Lock housing is mounted in a borehole extending through the door. 通过旋转内旋钮和外旋钮的任一个来操作锁，其中所述外旋钮一般配备有钥匙可开启的锁用于防止解锁所述锁，例如通过旋转外旋钮及/或与所述锁关联的把手。 By any of the rotary knob and the outer knob to operate a lock, wherein the outer knob are generally equipped with a key to open the lock to unlock the lock to prevent, for example, by rotating the outer knob and / or associated with the handle lock . 圆筒锁在其制造和安装方面通常被认为是经济的，但圆筒锁易被破坏者和窃贼破坏，诸如通过所述圆筒锁的外旋钮的破坏性操纵。 A cylinder lock is often considered in terms of their manufacture and installation it is economical, but susceptible to vandals and thieves cylinder lock damage, such as through the outer knob of the cylinder lock destructive manipulation. 这种操纵可能会对将锁链接至旋钮的机构造成破坏并且会阻止锁的开启而因此阻止门随后的打开。 This manipulation might cause damage to the lock mechanism linked to the knob and lock prevents the door open and thus prevent subsequent open.
 WO 2004/020767公开一种门锁中使用的电动机械圆筒锁类型，其包括外插销、内插销、适于移动门锁的门栓的旋转凸轮以及适于接合至所述旋转凸轮用于旋转所述外插销的离合器。  WO 2004/020767 discloses a mechanical cylinder lock types used in power door locks, comprising an outer plug, the plug, adapted to move the lock bolt and the rotary cam adapted to engage said rotary cam for rotating the clutch outer latch. 所述圆筒锁还包括电子闭锁装置（EBD)和驱动器，所述驱动器适于在所述EBD接收从门的外侧发出的解锁信号之后产生的来自所述EBD的解锁命令时启动所述离合器，从而能够通过所述外插销的旋转移动所述门栓。 The cylinder lock further comprises an electronic blocking device (EBD) and a drive, the drive is adapted to start when the clutch is unlocked from the EBD generated after receiving the unlocking command signal from the outside of the door in the EBD, it is possible by the rotational movement of the outer latch bolt. 所述圆筒锁包括在门的内侧附接至所述圆筒锁的内把手/旋钮，所述EBD和所述驱动器被整体容纳在所述内把手/旋钮内。 The cylinder lock comprises a door on the inside of the cylinder lock is attached to the inner handle / knob, the EBD and the drive are integrally accommodated in the inner handle / knob. 所述信号是由电子钥匙或控制板发出而且可以是机械振动信号、光信号或无线电信号。 The signal was sent by electronic key or the board, but may be a mechanical vibration signal, an optical signal or a radio signal.
 本发明涉及一种防破坏的电子圆筒锁，其包括圆筒外壳、电子圆筒锁机构、内旋钮和外旋钮。  The present invention relates to a tamper resistant electronic lock cylinder, comprising a cylinder housing, electronic cylinder lock mechanism, the inner and outer knobs knob. 根据本发明，所述外旋钮被构造来占据第一不可接达的、基本上不可操作的回缩位置以及第二可接达的操作位置，其中所述外旋钮被构造来从所述圆筒外壳突出并且可从外部接达。 According to the present invention, the outer knob is configured to occupy the first not providing access to, and a retracted position and a second operating position can be accessed by up to substantially inoperable, wherein the outer knob from the cylinder is configured to protruding shell and can be accessed by up from the outside.
 根据本发明的一个实施方案，所述电子圆筒锁可由螺线管启动，所述螺线管被构造来装配在所述内旋钮内。  According to one embodiment of the present invention, the electronic cylinder lock solenoid may be activated, the solenoid is configured to fit within the inner knob.
 根据本发明的另一个实施方案，所述旋钮可滑动地但受限制地容纳于提供在所述圆筒外壳中的旋钮空腔内。  According to another embodiment of the present invention, but the knob is slidably received in restricted knob cavity provided in the cylinder housing. 根据本发明的另一个实施方案，在操作位置，所述外旋钮从所述圆筒突出并且因此可接达。 According to another embodiment of the present invention, in the operating position, the outer knob protruding from the cylinder and therefore can be connected up.
 根据本发明的一个实施方案，在所述电子锁启动之后，所述旋钮可以被构造来占据可以在所述外旋钮向内轴向移位时实现的所述操作位置。  According to one embodiment of the present invention, after the start of the electronic lock, the knob can be configured to occupy the operating position can be achieved when the outer knob axially inwardly displaced. 根据这个实施方案，在所述按钮的轴向移位之后，所述旋钮被向外推向圆筒外壳。 According to this embodiment, after the axial displacement of the push button, the knob is pushed outwardly cylindrical housing.
 本发明涉及一种防破坏的电子圆筒锁，其中外旋钮被构造在基本上不可操作的、回缩、不可接达的位置与其中所述外旋钮从门突出并且可接达的操作位置之间。  The present invention relates to a tamper-proof electronic cylinder lock, wherein the outer knob is constructed in a substantially non-operated retraction, not providing access to a position in which the outer knob protruding from the door and can take up to a operation between the positions. 根据本发明的一个实施方案，在所述不可操作的过程中，所述旋钮容纳于圆筒外壳内。 According to one embodiment of the present invention, during the non-operation, the knob inner cylinder accommodated in the housing.
 本发明公开了一种与被构造用于安装在界定内部和外部的门中的门锁一起使用的圆筒锁，所述锁包括容纳内插销的外壳、外插销和用于操纵所述门锁的门栓的旋转凸轮。  The present invention discloses a cylinder lock and a door lock is configured for mounting in defining internal and external use with door, said lock comprising a housing accommodating the plug, and for manipulating the outer plug said lock bolt of rotation of the cam.
 所述内插销铰接至装配有可以通过电子机构操作的螺线管的内旋钮，并且外插销与外旋钮铰接，所述外旋钮可以在闭合位置与开启位置之间移位，在所述闭合位置，所述外旋钮回缩并且与门的外表面基本上齐平，在所述开启位置，所述外旋钮从所述门的所述外表面突出并且与所述凸轮接合。  hinged to the inner plug can be fitted inside the knob solenoid operated through electronic means, and the outer hinge pins and the outer knob, the outer knob may be displaced between a closed position and an open position, in which said closed position, said outer knob retracted and the outer surface of the door is substantially flush, at the open position, the outer surface of the knob protruding from the outside of the door and engageable with the cam.
 根据本发明的一个实施方案，外旋钮形成圆筒锁外壳的部分。  According to one embodiment of the present invention, the outer knob portion is formed in the cylinder lock housing.
 根据本发明的另一方面，提供一种解锁防破坏电子圆筒锁的方法。  A method of preventing damage to unlock the electronic lock cylinder according to another aspect of the present invention, there is provided. 所述方法包括： The method comprising:
 (a)提供电子圆筒锁机构，其安装于装配在门内的圆筒外壳内，所述电子圆筒锁包括电子圆筒锁机构、内旋钮和外旋钮，所述外旋钮被构造来占据第一不可接达的、不可操作的回缩位置以及第二可接达的操作位置，其中所述外旋钮从所述圆筒外壳突出；、  (a) providing an electronic cylinder lock mechanism, which is attached to the door fitted in the cylindrical housing, the electronic cylinder lock comprising an electronic cylinder lock mechanism, the inner and outer knobs knob, the outside knob is configured to occupy the first of the unacceptable, can not operate a retracted position and a second operating position can be connected up, wherein the outer knob protruding from the cylindrical housing;,
 (b)启动所述锁定机构以解锁所述圆筒锁；  (b) activating the locking means to unlock the lock cylinder;
 (C)在所述旋钮上施加轴向压力，其被构造来实现所述外旋钮向内的轴向移位，从而造成所述旋钮向外轴向移位以从所述圆筒至少部分地突出；和  (C) an axial pressure exerted on the knob, which is configured to achieve the axially inward displacement of the outer knob, causing the knob axially displaced outwardly from said cylinder at least in part, outstanding; and
 (d)旋转所述向外突出的旋钮以打开所述锁。  (d) rotating the knob protruding outwardly to open the lock.
 根据本发明的一个实施方案所述的方法，其中在所述向外突出的旋钮上施加向内的轴向压力将促使所述旋钮处于其初始的回缩位置。  According to one embodiment of the method according to the present invention, wherein the said outwardly projecting knob inward axial pressure is applied to urge the knob is in its initial retracted position.
 根据本发明的另一方面，提供一种装配有包括电子圆筒锁的门锁的门，所述电子圆筒锁包括圆筒外壳、电子圆筒锁机构、内旋钮和外旋钮，其中所述外旋钮被构造来占据第一不可接达的、基本上不可操作的回缩位置以及第二可接达的操作位置，其中所述外旋钮被构造来从所述圆筒外壳突出并且可从外部接达。  There are a cylinder lock comprising an electronic door lock according to another aspect of the present invention, there is provided a method of assembling an electronic cylinder lock comprising a cylindrical housing, an electronic cylinder lock mechanism, the inner and outer knobs knob, wherein the outer knob is configured to occupy the first of the unacceptable, substantially inoperative retracted position and a second operating position can be connected up, wherein the outer knob are configured to protrude from the cylindrical housing and which can be accessed from the outside up.
附图说明 Brief Description
 为了解本发明并且为了明白如何在实践中执行本发明，现将参考附图仅仅举出非限制性的实例来描述实施方案，其中：  In order to understand the present invention and to understand how to implement the present invention in practice, will now only include reference to the accompanying non-limiting examples described embodiments, wherein:
 图IA是根据本发明的圆筒锁的纵截面，圆筒锁处于初始的闭合位置，其中外旋钮完全回缩；  FIG IA is a longitudinal sectional view of the cylinder lock of the present invention, a cylinder lock is in an initial closed position, wherein the outer knob is fully retracted;
 图IB是沿着图IA中的线II取得的截面；  FIG. IB is a sectional view taken along the line II IA achieved;
 图IC是仅示出凸轮和外旋钮的沿着线II的截面；  FIG IC is showing only the cam and the outer knob along the line section II;
 图2是在第一开启步骤中的圆筒锁的纵截面；  FIG. 2 is a first step to open the cylinder lock in a longitudinal section;
 图3是在后续开启步骤中的圆筒锁的纵截面；  FIG. 3 is a longitudinal sectional view of the cylinder lock step in a subsequent open;
 图4是其中外旋钮完全突出的圆筒锁的纵截面；  FIG. 4 is a longitudinal cross-section wherein the outer knob fully projecting cylinder lock;
 图5是在随之发生的锁定步骤中的圆筒锁的纵截面；  FIG. 5 is a step in the ensuing locking of a longitudinal section of the cylinder lock;
 图6A是圆筒锁中所使用的外插销的局部截面图；  FIG 6A is a partial sectional view of the outer lock cylinder plug used;
 图6B和图6C分别是图6A的外插销的右视图和左视图；  FIG. 6B and 6C are outside Figure 6A plug right view and left view;
 图7是沿着图I中的线VI-VI取得的仅仅是凸轮的截面；  FIG. 7 is a diagram I along the line VI-VI sectional achieved merely cam;
 图8A是外旋钮的截面；和  FIG. 8A is a cross-sectional outer knob; and
 图8B是从图8A中的箭头B方向上取得的外旋钮的视图。  FIG. 8B is a view taken from the outer knob on Fig. 8A arrow B direction. 具体实施方式 DETAILED DESCRIPTION
 现将描述根据本发明的电子圆筒锁的一个实例。  will now be described an example of an electronic cylinder lock according to the invention. 关注图IA至图SB来熟悉根据本发明的圆筒锁的组件。 Follow Figure IA to Figure SB to become familiar with a cylinder lock assembly according to the invention. 整体指示为10的锁安装在门锁(未示出）中，所述门锁装配于通过虚线示意性地表示的指示为12的门中，所述门界定里面20和外面22。 Indicated as a whole lock 10 is mounted on the door lock (not shown), the door assembly is indicated by the dotted line in the schematic showing of the door 12, the door 22 defines the inside 20 and the outside.
 圆筒锁10是铰接至整体指示为26的电子旋钮/锁总成的类型，例如是WO2004/020767中详细公开但如下文将更详细地讨论的装配有用于启动圆筒锁10的螺线管的类型。  A cylinder lock 10 is indicated as a whole is hinged to the knob 26 of the electronic / lock assembly of the type, for example, WO2004 / 020767 disclosed in detail below, but the assembly discussed there in more detail for the cylinder lock 10 to start type solenoid.
 如本质上已知，圆筒锁10包括具有普通形状和尺寸的外壳30以用于紧贴地装配并且制动于门锁内。  As known per se, the cylinder lock 10 includes a housing 30 having a general shape and size for fitting snugly within the lock and the brake. 所述外壳的尺寸使得其延伸于门12内并且基本上不会从所述门突出。 The dimensions of the housing such that it extends in the door 12 and substantially does not protrude from the door. 外壳30通过防卡扣板32予以加固，所述防卡扣板32通过延伸穿过其中的销34而锁固至外壳30。 Housing 30 by anti-catching plates 32 to be reinforced by the Anti-catching plate 32 extending therethrough and the locking pin 34 to the housing 30. 外壳30形成有螺纹孔31用于固定地锁固在门锁内。 The housing 30 is formed with a threaded hole 31 for fixedly locking in the lock.
 内插销40通过固定销42被固定在外壳30中，内插销40从外壳30朝向其内端突出以利于通过使用嵌入在钻孔44中的适当的销或螺丝使旋钮26附接至内插销40。  The inner plug 40 by the fixing pin 42 is fixed to the housing 30, the inner pin 40 toward the appropriate pin or screw protruding inner end thereof to facilitate use by embedding in the borehole 44 from the housing 30 so that the knob 26 is attached to the inner plug 40.
 从所述内插销的前面50突出的推销48滑动地容纳于内插销40内，所述推销与旋钮26的锁定总成铰接并且可以由容纳于其中的电子螺线管所操纵。  from the front pin 50 projecting to sell 48 slidably received in the pin 40, the locking knob assembly and marketing of the hinge 26 and may be manipulated by the electronic solenoid housed therein.
 推销48构成缓冲器配置的部分，所述缓冲器配置被绘制为56并且包括右缓冲器握柄58和左缓冲器握柄60，这两者皆在其邻接端分别装配有接合突出部58a和60a，因此所述缓冲器握柄可以在内插销40内仅在分别于护面墙58b与60b之间以及护面墙58c与60c之间界定的有限范围内轴向移位。 Part of the buffer  sell 48 constitute a buffer configured configuration is plotted as 56 and includes a right and left buffer 58 buffers handle grip 60, two seven men at their adjacent ends are equipped with an engaging projection portions 58a and 60a, and therefore the buffers may grip the inner pin only within a limited range between retaining wall, respectively 58b and 60b and 58c and the retaining wall 60c defining axial displacement 40. 缓冲器56是弹簧加载的，因此左缓冲器握柄58和右缓冲器握柄60被促使远离彼此而处于图IA中所示的位置(然而所述位置是卷簧70的未压缩位置)。 Buffer 56 is spring-loaded, so the left and the right buffer 58 buffers the handle grip 60 is urged away from each other in the position shown in Figure IA (however said position is a coil spring 70 is not compressed position).
 缓冲器56用于在通过旋钮26的螺线管启动之后缓冲推销48向前的移动。  After passing through the buffer 56 to the solenoid 26 of the knob 48 starts buffer marketing move forward.
 如下文将讨论，凸轮80安装在外壳30中并且可旋转地固定在内插销40上方而且在外插销的各自一部分上方。  As will be discussed, the cam 80 is mounted in the housing 30 and rotatably secured to the inner pin 40 upward and out the top part of each latch. 然而，内插销40的旋转引起凸轮80的相应旋转，从而在门锁(未示出）的门栓的锁定位置与解锁位置之间启动所述门锁。 However, the rotation of the latch 40 causes a corresponding rotation of the cam 80, whereby the door lock (not shown) of the lock bolt between a starting position and an unlocked position. 凸轮80与内插销40的接合确保旋钮26的旋转引起凸轮80的相应旋转，从而锁定/解锁所述门锁，而不管电子锁定机构的情况。 Engages the cam 80 and the inner bolt 40 ensures rotation of the knob 26 causes a corresponding rotation of the cam 80, thereby locking / unlocking the door, regardless of the case of electronic locking mechanism.
 制动钢珠84容纳于外插销90的钻孔139 (在图6A中也可见）内并且被安装用于在凸轮80中形成的三个径向凹槽141的一个内接合，以用于其旋转接合。  Brake ball 84 accommodated in the bore 139 of the outer pin 90 (also seen in FIG. 6A) engaging a recess within three radially and is mounted to the cam 80 formed in the inner 141, to use its rotational joint.
 现参考圆筒锁12的右侧，示出可旋转地容纳于外壳30内并且被构造有容纳外旋钮100的中心空腔的外插销90，如下文将更详细地讨论，外旋钮100可滑动地但受限地容纳于完全回缩位置（图1A、图2和图3)与突出位置（图4)之间的所述空腔内。  Referring now to the right of the cylinder lock 12, shown is rotatably housed in the outer plug and is configured to accommodate the outer knob 90 of the central cavity 100 of the housing 30, discussed in more detail below, the outer knob 100 is slidably received in limited but fully retracted position (FIGS. 1A, 2 and 3) and the projected position of the cavity (FIG. 4) between the.
 外插销90通过固定环91被锁固在外壳30内，固定环91通过弹簧环92被固定在所述外壳内，以利于将外插销90固定在外壳30内以及还将推杆102锁固在适当位置，所述推杆102通过压缩卷簧98被弹簧加载在延伸于旋钮100内的凹槽94内。  The outer ring 91 by the fixing pin 90 is in the locking housing 30, retaining ring 91 by a spring ring 92 is secured within the housing, in order to facilitate the external pin 90 is fixed in the housing 30 and push rod 102 will locking in place, the push rod 102 by the compression coil spring 98 is spring-loaded in the knob 100 extending within the recess 94. 卷簧98是基本上强有力的弹簧，即，为圆筒锁内最有力的弹簧，下文将讨论其目的。 A coil spring 98 is substantially stronger springs, i.e., the most potent of the inner cylindrical lock spring, its purpose will be discussed below. 在图1A、图2和图3中，所述弹簧施加最大的力。 In FIGS. 1A, 2 and 3, the maximum force applied to the spring.
 为了在下文予以了解的目的，旋钮100是形成有外平坦面108的基本上平坦的元件(但也预想其他构造)，外平坦面108在如图I至图3中的圆筒锁的锁定、回缩位置与门外表面22基本上齐平但可以突出约I毫米或如附图中注释。  In order to be understood in the following purposes, knob 100 is formed with a substantially flat planar surface 108 of the outer member (but also envision other configurations), the outer flat surface 108 as shown in Figure I to the cylinder lock 3 locked, retracted position and the door 22 is substantially flush with the surface but approximately I mm or as prominent figures in the notes. 纵向凹部110 (在图8B中也可见)形成于旋钮100的侧面112的每一个上，所述凹部110的每一个被滑动地接合在从外插销90横向突出的限制销116上，使得旋钮100相对于外插销分别在其各自的回缩位置与完全突出位置之间可滑动地移位。 Longitudinal recess 110 (also seen in FIG. 8B) formed on the knob 100 of each of the side surface 112 on the concave portions each of which is slidably engaged 110 on the outside of the plug 90 laterally projecting restriction pin 116, so that the knob 100 with respect to the outer plug, respectively in their respective positions between a fully retracted position and a projection slidably displaced.
 在所公开的实例中，外旋钮100被构造有向下延伸的突出部11，故外壳中需要相应空腔113 (图4中所见为空腔113t)。  In the disclosed embodiment, the outer knob 100 is configured to have a downwardly extending protrusion 11, so that the housing requires a corresponding cavity 113 (as seen in FIG. 4 cavity 113t). 然而，应了解外旋钮也可以占据不同形状，而不脱离本发明的范围。 However, it should be understood outer knob occupy different shapes, without departing from the scope of the present invention.
 四个调和的滚珠轴承120被提供于外插销90内，其等与两个调和的销116 —起提供防钻孔/防调和的阻障。  four to reconcile the ball bearing 120 is provided in the outer plug 90, and so the two reconcile their pin 116-- from Hypo drilling / anti-barrier reconcile.
 径向钻孔130形成于外壳30内，径向钻孔130容纳由通过压缩卷簧138向上推动的下销134和上销136组成的两级销总成。  The radial drilling 130 is formed in the housing 30 to accommodate the radial drilling 130 is pushed upward by the compression coil spring 138 of pin 134 and the pin under 136 composed of two-pin assembly. 所述配置使得下销134可以在突出位置（图IA和图2)与回缩位置（图3)之间移位，其中在所述回缩位置，下销134的上面142与外壳30 的中心空腔的表面146基本上齐平。 The pin 134 may be configured so that the lower shift between (FIG. IA and FIG. 2) and a retracted position (FIG. 3) in a prominent position, wherein in said retracted position, at the center of the top 134 of the pin 142 and the housing 30 surface of the cavity 146 is substantially flush.
 上销136通过突出进入上销136的凹部152的固定销150被固定在外旋钮内，因此销136可以在向上突出位置（图2)与向下位置（图4)之间受限地移位，其中其底面154延伸为与外旋钮100的底面158基本上齐平。  On the pin 136 by a pin projecting into the recess 152 of the fixing pin 136 of the outer knob 150 is fixed, and therefore the pin 136 may be limited to between upwardly projecting position (FIG. 2) and down position (FIG. 4) shift, which extends to the bottom surface 154 and the bottom surface 100 of the outer knob 158 is substantially flush
 还应注意，圆筒锁10装配有可以在外插销90内轴向移位的中心圆锥销170，所述销170通过压缩卷簧172被弹簧加载，因此所述销可以在回缩位置（图IA和图2)与抵抗卷簧172的偏置作用的完全突出位置（图3和图5)之间移位，但应了解在所述回缩位置，所述销突出进入外旋钮100的空腔176中。  It should also be noted that the cylinder lock 10 can be fitted with an outer pin 90 axially displaced central conical pin 170, the pin 170 by the compression coil spring 172 is spring-loaded, so the pin in the retracted position (Figure IA and Figure 2) and resist the bias of the coil spring 172 is fully projected position shift (Figures 3 and 5), but it should be understood that in the retracted position, said pin protruding into the outer knob 100 cavity 176. 弹簧170的前部是圆锥形的并且在回缩位置（图IA和图2)时，所述圆锥部分抵靠上销136的相应斜面部分139支承。 The front portion 170 of the conical spring and a retracted position (FIG. IA and FIG. 2), the conical portion 136 abuts against the pin supporting a respective ramp portion 139.
 应注意容纳推杆102的凹槽94在外旋钮100的中心线上延伸，而且由于强有力的卷簧98，故存在试图施加至所述旋钮使其处于突出位置（图4)的相当大的力，然而由于外壳30的中心空腔的表面146与外旋钮100的底面158和顶面159之间的公差，故所述旋钮不会自然地移位至图4的突出位置，而是唯有在释放圆筒锁内的夹持接合之后，如下文将讨论。  It should be noted ram receiving recess 102 of the center line 94 of the outer knob 100 extends, and because of a strong coil spring 98, so there is tried to be applied to the knob so that it is in the projecting position (FIG. 4) is quite a large force, but since the surface of the central cavity 146 of the housing 30 and the outer knob 158 and the bottom surface 100 of the tolerances between the top surface 159, so that the knob is not shifted to the projecting position naturally in FIG. 4, but Only after release of the clamping engagement within the cylinder lock, as will be discussed.
 现返回图1A，圆筒锁10被示出为处于其锁定位置，其中推销48是在其回缩位置(突出至旋钮26中），从而造成缓冲器56的膨胀，即，卷簧70处于其基本上未压缩的状态。  Returning now to Figure 1A, the cylinder lock 10 is shown in its locked position, wherein the selling 48 is in its retracted position (projecting to the knob 26), resulting in the expansion buffer 56, i.e., the coil spring 70 in its substantially uncompressed state. 另外在这个位置，中心销170处于其回缩位置但其前端向前突出至空腔176中，然而其中压缩弹簧172处于其基本上未压缩的位置。 Also in this position, the center pin 170 is in its retracted position, but its front end projecting forwardly to the cavity 176, but wherein the compression spring 172 is in its substantially uncompressed position. 还应注意，所述两级销总成，即，下销134和上销136是在其向上位置使得下销134容纳于旋钮100的孔151内，因此被制动并且防止其向外的回缩。 It should also be noted that the two-pin assembly, that is, under the pin 134 and the pin 136 is in its upward position so that the lower pin 134 is received within the knob hole 151 100, and is therefore a brake and prevent its outward return shrink. 同样地，上销136向上突出至空腔176中，其中下销134和上销136两者皆由处于如图IA中所示的基本上未压缩的位置的卷簧138支撑。 Likewise, the pin 136 projecting upward to the cavity 176, wherein the lower pin 134 and the pin 136 rests in both uncompressed position substantially as shown in Figure IA coil springs 138 support.
 在这个位置，推杆102几乎完全容纳于旋钮100的凹槽94内，其中压缩弹簧98处于其基本上完全压缩的位置，现在也由于外壳30的中心开口内的旋钮100的略微倾斜而施加夹持力。  In this position, the push rod 102 almost completely housed within the knob 100 of the recess 94, in which the compression spring 98 is in its substantially fully compressed position since now slightly inclined knob housing 100 within the central opening 30 The clamping force is applied.
 在这个锁定位置，凸轮80可以被操纵以通过旋钮26接合门锁的门栓，因此其旋转会引起凸轮80的相应旋转以开启/锁定所述门锁的门栓。  In the locked position, the cam 80 can be manipulated by the knob 26 engage bolt locks, so its rotation causes a corresponding rotation of the cam 80 to open / lock the lock bolt. 还应注意，外旋钮100与门的外表面22基本上齐平，但从门略微突出约I毫米的范围。 It should also be noted that the outer knob 100 and the outer surface of the door 22 is substantially flush, but the door slightly protruding about I millimeter range. 应了解所述设计方案可以是这样而不是从外表面22突出，外旋钮100的表面108可以与门12的外表面22或外壳30的外表面97完全齐平。 Be appreciated that the design may be such that instead of projecting from the outer surface 22, the outer surface 108 may be surface 22 of the outer surface of the door 12 or 97 of the housing 30 is fully flush with the outer knob 100. 在图IA的位置，外旋钮100被制动于外壳30内并且由于两级销134和136的突出而无法旋转或被拉动/推动。 In Fig. IA's position, the outer knob 100 is a brake on the housing 30 and the pin 134 and 136 due to the levels of prominent and not rotate or pull / push.
 现参考图2，圆筒锁10被示出为处于开启的第一阶段，即，在启动电子锁26之后，从而造成推销48向内（即在箭头191的方向上）推动，造成右缓冲器握柄58逆向左缓冲器握柄60相应移位至回缩位置，从而还造成卷簧70的压缩。  Referring now to FIG. 2, the cylinder lock 10 is shown as the first stage in the open, that is, after the start of electronic lock 26, resulting in selling 48 inward (ie in the direction of the arrow 191) to promote the cause 58 reverse left and right bumper grip handle buffer 60 corresponding to the retracted position shift, which also caused compression coil spring 70.
 如图2中可见，左缓冲器握柄60不会回应于右缓冲器握柄58的轴向移位而推进，这是由于中心圆锥销170仍保持在其未推动位置使得卷簧172仍处于其基本上未压缩的位置。  Figure 2 shows, the left handle buffer 60 buffers the right will not respond to the axial displacement of the handle 58 forward, the center of which is due to the conical pin 170 remains in its non-driven position such that the coil spring 172 is still in its substantially uncompressed position. 应了解由于由推杆102的卷簧98施加的相当大的力，中心圆锥销170由上销136制动，在这个阶段，上销136由于夹持制动和施加在下销134上的偏离力而被防止移位。 It should be appreciated due to the considerable force exerted by the push rod 98 of the coil spring 102, the center of the cone pin 170 by a pin 136 on the brake, at this stage, the pin 136 due to the deviation clamping force applied to the brake and the lower pin 134 It is prevent displacement.
 在预定时间段内，比如说3秒至5秒(然而这个时间跨度可以在旋钮26的电子机构内予以编程)，使用者应在如图3中所示的箭头195的方向上施加轴向力。  In a predetermined period of time, for example 3-5 seconds (However, this time span can be programmed in the electronic mechanism 26 of the knob), the user shall be applied in the direction of the arrow shown in FIG. 3 195 axial force. 这个压力会造成外旋钮100略微向内移位，其中外表面108现与圆筒外壳30的外表面197基本上齐平。 This pressure will cause the outer knob 100 slightly inward shift, wherein the outer surface of the outer surface of the cylinder is now 108 30 197 housing substantially flush. 外旋钮100在箭头195的方向上的微小轴向移位造成下销134的夹持制动的释放，从而造成卷簧172在中心圆锥销170上施加轴向力以向前推动至空腔176中，从而造成抵抗现将压缩的弹簧138的偏置作用的上销136的向下移位以及下销134相应的向下移位。 100 small outer knob in the direction of arrow 195 axial displacement of the pin holding brake caused the release of 134, the resulting axial force is applied to the coil spring 172 in the center of the cone pin 170 to push forward to the cavity 176 the resulting resistance now compressed spring 138 biasing the pin 136 and the lower pin 134 downward shift of the corresponding downward shift.
 应注意上销136的向下移位达到比销170的向前移位更多的范围，然而不从旋钮100的底面158突出（同样见图4)。  should be noted that the pin 136 is displaced downward than the pin 170 reaches the forward shift range more, but not from the bottom surface 100 of the knob 158 projecting (also see FIG. 4). 同样地，下销134现完全容纳于径向钻孔130内，因此不构成促进外插销90或旋钮100向前移位的杆，因此在箭头195的方向上施加的瞬间的压力的释放现造成外旋钮100在箭头199的方向上的自然移位，在其中外旋钮100从圆筒外壳30完全突出的图4的位置，外旋钮100在弹簧98的压缩力下向外偏置。 Similarly, pin 134 is now completely accommodated under radial bore 130, and therefore does not constitute the outer plug 90 to promote or knob 100 forward displacement of the lever, thus releasing the instantaneous pressure in the direction of arrow 195 causes current applied the outer knob 100 natural shift in the direction of the arrow 199, the position in which the outer knob 100 protruding from the cylindrical housing 30 is completely Figure 4, the outer knob 100 outwardly biased under compressive force of the spring 98.
 在图4的位置，钢珠84容纳于凸轮80的径向凹槽141的一个内（图7)，因此外旋钮100的旋转引起凸轮80的相应旋转，从而启动门锁的门栓。  In the position of FIG. 4, the ball 84 accommodated in the radial groove 80 of a cam 141 (FIG. 7), thus rotating the outer knob 100 causes a corresponding rotation of the cam 80, to initiate the lock bolt.
 在图4的突出位置，由于抵着牢固地固定于外壳30内的固定环91的钢珠84的接合，故外旋钮100被防止过度移位（即与外壳30分离）。  FIG. 4 in a prominent position, as against the firmly fixed to engage the retaining ring 91 within the housing 30 ball 84, so the outer knob 100 is to prevent excessive displacement (ie separate from housing 30).
 通过在图5中的箭头202的方向上在外旋钮100上施加力而使圆筒锁10返回至其图I的原始位置，从而造成所述旋钮移位回其原始位置，同时在这段时间期间，旋钮26的电子机构的螺线管可能已经返回至其未启动位置，从而容许推杆48移位回其初始位置，因此缓冲器总成56移位回其初始位置，接着中心圆锥销170被卷簧70促使而相应移位回其回缩位置。  The direction of the arrow 202 in FIG. 5 and the upper 100 external force is applied to the cylinder lock knob 10 returns to its original position in Figure I, resulting in displacement of the knob back to its original position while in this During the period of time, the electronic solenoid knob mechanism 26 may not have returned to its starting position, thereby allowing the push rod 48 shifts back to its original position, thus shifting the buffer assembly 56 back to its initial position, then the center of the cone pin 170 is a coil spring 70 urge the corresponding shift back to its retracted position.
 本发明所属的本领域技术人员将容易地了解可以做出许多更改、变更和修改，作出必要的修正后也不脱离本发明的范围。 Nor after departing from the scope of the present invention  skilled in the art of the present invention pertains will readily recognize many modifications may be made, changes and modifications to make the necessary corrections.
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|Citing Patent||Filing date||Publication date||Applicant||Title|
|CN105378197A *||25 Feb 2014||2 Mar 2016||Utc 消防及保安公司||Lock core with recessed pop out knob|
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|International Classification||E05B47/06, E05B5/00|
|Cooperative Classification||Y10T70/5761, Y10T70/7057, Y10T70/7102, Y10T70/7062, Y10T70/5416, Y10T70/713, Y10T70/5827, E05B47/0642, E05B47/0615, E05B47/063, E05B47/0004, E05B5/006, E05B15/1614, E05B9/048, E05B2015/0448, E05B17/047|
|European Classification||E05B47/06C4R1, E05B47/06C6A, E05B47/06C2|
|17 Oct 2012||C06||Publication|
|24 Apr 2013||C10||Entry into substantive examination|
|2 Aug 2013||REG||Reference to a national code|
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