• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a key (1) for locking a lock, comprising at least one first surface (2) and at least one second surface (2 '), with at least one scanning position (4) provided along the longitudinal extension of the key (1) on the first surface (2) at least one first coding (3) for interrogation in the lock and I or on the second surface (2 ') is provided at least one second coding (3') for interrogation in the lock, wherein at least one coding ( 3) of the first surface (2) at at least one scanning position (4) differs from the second encoding (3 ') at the same scanning position (4). The invention further relates to a lock for such a key, and a system of at least two locks or groups of locks and at least one key according to the invention.
    公开号:AT516237A1
    申请号:T692/2014
    申请日:2014-09-11
    公开日:2016-03-15
    发明作者:Walter Baumhauer
    申请人:Evva Sicherheitstechnologie;
    IPC主号:
    专利说明:

    Key and associated lock
    The invention relates to a key for locking a lock having at least a first face and at least one second face and at least one scanning position provided along the longitudinal extension, on the first face at least one first coding for interrogation in the lock and / or on the second face at least one second coding for Query in the lock is provided. The invention further relates to a lock for such a key.
    Such keys are known from the prior art with two coded surfaces, in particular as a reversible key. Reversible keys are keys whose shank has identically arranged profiles, guide grooves, trough holes, elevations and / or notches on both sides. The key thus has the same features, rotated about its longitudinal axis, and therefore, irrespective of which side of the key points upwards, can also be inserted rotated into the keyway of the associated lock cylinder, which is not possible with a normal one-notched key.
    Since the encodings on reversible keys are identical on both sides, most in the lock, the encodings on each page are alternately scanned to reduce the number of scanning elements. The term " identical codings " in this context means that the codings on the respective surfaces considered are equal when the key is rotated about its longitudinal axis.
    However, with such reversible keys, the mapping of a page is sufficient to reproduce the key. This is disadvantageous in terms of modern reproduction methods (high resolution smartphone cameras in combination with 3D printing) since illegal keys can be easily circulated.
    Another problem is that in practice for two locking systems, each having lock cylinders with reversible keys, it would be advantageous to realize higher-level keys that lock in both locking systems.
    Moreover, reversible keys with lateral groove coding have the problem that the individual curves on both sides of the key must be identical. However, this results in restrictions for the execution of the grooves on the key tip: The middle position of the guard at the key tip can not be used, otherwise there is an increased risk of breakage.
    The object of the invention is to remedy these and other problems, in particular the problems of easy reversible wrench copying. It should also be possible to create a way to lock several different reversible key locking systems with the same key. Furthermore, the described restriction in the lateral Nutencodierung be remedied werden.Außerdem the variations on the key can be increased, and it should be ensured a higher locking security. The same effects should also be achieved with regard to the new design of the castle.
    These and other objects are achieved according to the invention in that at least one coding of the first surface of the key at at least one scanning position differs from the second encoding at the same scanning position on the second surface, so that at least the codes at this scanning position must be interrogated at both surfaces in order to lock the lock ,
    This has the advantage that the codes on both sides of the key are different, thereby making it much more difficult for unauthorized persons to copy the key.
    The solution according to the invention makes it possible with a key to lock one or more locking cylinders of a locking system and, when the key is rotated about its longitudinal axis 90 ° to 180 °, one or more locking cylinders of another locking system. It can be provided that a key that has the same coding on both sides has no blocking authorization. However, it can also be provided that a key which has the same coding on both sides has locking authorization. An advantage of the solution according to the invention is that the authorization feature for locking a plurality of lock cylinders need not be accommodated in the lock cylinders of the lock systems, but is designed with at least two or more features on different surfaces of the lock itself. Thereby, a key can be designed which has superordinate function in two different reversible key locking devices, but does not even have the reversing key function. This may be, for example, a parent key for authorized persons, such as fire brigades, night watchmen, home helpers or the like.
    A further advantage of the solution according to the invention in the execution of the key with curve codes is that the different shape of the curves on the two sides of the key now also allows the middle tumbler on the key tip to be used, since it does not have to be milled out on both sides in the form of a groove ,
    According to the invention, it can be provided that at least one coding of the first surface at at least one scanning position is identical to the coding at the same scanning position on the second surface, so that in order to lock the lock, at least the codings at this scanning position need only be interrogated on one surface of the key. There may also be multiple encodings at a scan position, one or more of which are identical on all surfaces of the key, and one or more different on at least one surface of the key.
    According to the invention it can be provided that, in addition to the said codings, further codings are provided on the surfaces and / or at other locations of the key. Said codings and / or further codings may be substantially rectilinear, angular or curved, horizontally or vertically extending grooves, grooves, millings, indentations or elevations, control surfaces, control paths, depressions, wells with identical or different diameters and / or depths, supported balls, circular or ellipsoidal segment recesses, spherical segmental protrusions or hollows, magnetic encodings, electronic encodings, and / or combinations of these elements.
    According to the invention, it can be provided that the surfaces are key flat sides of a flat key. According to the invention, it can also be provided that the surfaces are key narrow sides of a flat key. According to the invention, it can further be provided that the first surface is a key narrow side, and the second surface is a key flat side. The second surface may include any angle, in particular about 90 ° or about 180 °, with the first surface of the key.
    According to the invention, it may be provided that the codings are formed by control points provided at certain control levels transversely to the longitudinal extent of the key, wherein the control points are preferably connected to one another by control grooves.
    According to the invention it can be provided that at least one control groove with control points on the first surface and also at least one control point with control points is provided, the control points of each control groove being provided at a defined scanning position, and at least one control point of at least one control groove at at least one scanning position the first surface has a different control height than the control point of the corresponding control groove at the same scanning position on the second surface.
    According to the invention, it can be provided that at least one control point of at least one control groove at at least one scanning position on the first surface has the same control height as the control point of the corresponding control groove at the same scanning position on the second surface. According to the invention, provision can be made, in particular, for at least six scanning positions A-F and at least six control heights a-f to be provided.
    According to the invention it can be provided that at least three control grooves are provided, at least one of which is designed as a deep control groove with deep control points, and the remaining as shallow control grooves with shallow control points, wherein the deep control grooves have a greater groove depth than the shallow control grooves, and the shallow control grooves in Essentially parallel to each other.
    According to the invention, it can be provided that at least three, preferably five, control heights are provided for at least one of the control grooves, preferably for the shallow control grooves.
    According to the invention, it can be provided that the codes starting from the wiper tip in the direction of the key crop are first of all identical on at least one scanning position on both surfaces, and are continuously executed differently from a specific scanning position. Specifically, it can be provided that the deep control groove or grooves extend from the key tip towards the key grain only to a certain scanning position, so that up to this scanning position at each scanning position on each surface there are two shallow and one low control groove, and from that scanning position only one shallow or two deep control grooves are provided at each scanning position.
    The invention further extends to a lock for keys according to the invention, comprising a keyway having at least two sides, with scanning positions provided along the longitudinal extent of the keyway, at each scanning position being provided at least one control for interrogating at least one coding on at least one surface of the key, wherein at least one locking element is provided, which is engageable with appropriate position of the control in the release position for actuating the lock, and wherein at least one scanning position on at least two sides of the key channel controls for querying different codes are provided on at least two surfaces of the key.
    According to the invention, it can be provided that at least at a further scanning position on at least two sides of the key channel, control elements for querying the same coding, in particular for interrogating different features of the same coding, are provided on at least two surfaces of the key.
    It can be provided, in particular, that the control elements comprise control elements for engaging in codes, in particular for engaging in control grooves on the key.
    According to the invention, it can be provided that the control elements comprise first control elements for engagement in deep control grooves and second control elements for engagement in shallow control grooves. Furthermore, it can be provided that the control elements for controlling the blocking elements comprise engagement means, in particular one or more interrogation grooves, which cooperate in one or more positions of the control element with the blocking element such that it can be brought into the release position for actuating the lock.
    According to the invention, it can be provided that the key is a flat key and / or the lock is a cylinder lock, in particular a cylinder lock for receiving a flat key.
    The invention further extends to a system of at least two locks or groups of locks according to the invention and at least one associated key according to the invention, wherein at least one lock or a first group of locks at least at a certain scanning position at least only the first coding on the first surface, and at least a second lock or a second group of locks at said sampling position polls at least only the second encoding on the second surface of the key so that the key in a first position locks the first lock or the first group of locks and in a second position locks the second lock or group of locks.
    Other features of the invention will become apparent from the description of the embodiments, the claims and the drawings.
    The invention will be explained in more detail below with reference to non-limiting exemplary embodiments:
    Figures 1a-1d show cross-sections through embodiments of conventional (left) underhand (right) keys;
    FIGS. 2a-2c show cross sections through exemplary embodiments of conventional key-lock combinations according to the invention;
    Fig. 3a - 3b show an embodiment of a key according to the invention;
    Figures 4a-4b show another embodiment of a key according to the invention;
    Figures 5a-5b show another embodiment of a key according to the invention;
    FIGS. 6a-6b show the key from FIGS. 3a-3b in a detailed view;
    FIGS. 7a-12b show further embodiments of keys according to the invention;
    Figures 13a-13b show a schematic representation of the tumblers inside the cylinder core of a lock according to the invention;
    FIGS. 14-15 show further schematic representations of the tumblers inside the cylinder core of a lock according to the invention;
    16 shows a schematic three-dimensional representation of the tumblers inside the cylinder core of a lock according to the invention.
    Figures 1a-1d show cross-sections through embodiments of conventional keys 1 according to the invention at a certain scanning position, with a cross-section through the key shank of a conventional reversible key on the left-hand side and a cross section through the key shank of a key 1 according to the invention on the right. The keys 1 each have a first surface 2 with first codes 3 and a second surface 2 'with second codes 3'. While the codes 3, 3 'of the conventional keys are made to coincide with rotation of the key by 180 °, this is not the case with the embodiments of the keys 1 according to the invention.
    It therefore makes a difference whether the key is inserted in the normal position or in a position rotated by 180 ° into the lock. In the lock, at least at this scanning position, both surfaces 2, 2 'of the key 1 must be interrogated.
    FIGS. 2a-2c show cross sections through exemplary embodiments of conventional key-lock combinations according to the invention. Fig. 2a shows a cross section through a conventional lock with a core 23 which is rotatably mounted in a housing 24, in which a conventional key 1 is inserted. On both sides of the key 1, control elements 13, 13 'are displaceably arranged, which interact with locking elements 14, 14', which engage in housing grooves. Key 1 is a key with lateral groove coding. The lock is designed in a conventional manner and scans on the side 2, the two shallow grooves with the control members 18, and on the other side 2 ', the deep groove with the control member 17' from. The position of the deep groove on face 2, and the shallow grooves on face 2 'is not scanned, because it is assumed that the codes on both faces 2, 2' are the same because of the reversible key system.
    Fig. 2b shows a cross section through an embodiment of a key-lock combination according to the invention. In this case, the codings in the form of deep grooves on the surfaces 2, 2 'of the key are different and are also interrogated on both sides of the key independently of each other. In order to be able to interrogate both codings on each surface 2, 2 ', the blocking elements 13, 13' engage on both sides via first control elements 17, 17 'into the deep groove.
    However, since the deep groove, depending on the rotation of the key 1, is at a different position, the control elements 13, 13 'each have two query grooves 19, 19' for engaging the blocking elements 14, 14 '. The blocking elements 14, 14 'are thus activated in each case at two different positions of the controls 13, 13' and lock the lock. Although the key 1 is not a reversible key-since the encodings on areas 2 and 2 'are different - it functions as a reversal key because in both positions both areas of the key are queried.
    Fig. 2c shows an analogous embodiment to Fig. 2b, with the difference that at the scanning position of the key 1 shown the coding is not carried out by one deep groove per face 2, 2 ', but by two shallow grooves per face 2, 2'. The control elements 13, 13 'each have two control elements 18, 18' for engagement in the shallow grooves, as well as two interrogation grooves 19, 19 'for engagement of the blocking elements 14, 14'. Thus, as in the embodiment of Fig. 2b, the blocking elements 14, 14 'are activated at two different positions of the control elements 13, 13' and lock the lock, although it is not a reversible key.
    In an embodiment not shown, the lock has a further mechanical interrogation logic, in particular the locking elements 14,14 ', which ensures that the lock of Fig. 2b or Fig. 2c not by a conventional reversible key with identical codes on the surfaces 2, 2', but exclusively can be locked by keys with different encodings.
    3a-3b show an embodiment of a key 1 according to the invention, which is designed as a flat key with a key 10 and a key tip 20 and two opposite surfaces 2, 2 '. The surfaces 2, 2 'are the key flat sides 16, 16'. For both surfaces 2, 2 ', scanning positions 4 are provided along the longitudinal extension of the key 1, namely six scanning positions A - F. At each scanning position 4 on both surfaces 2, 2' of the key 1 there is an encoding 3, 3 ', the first coding 3 on the surface 2 and the second coding 3 'is provided on the surface 2'.
    The codings are different at the sampling position A and identical at the sampling positions B-F. A lock scanning only one side of the key can thus be operated only in one position of the key. In order to be able to interrogate both codings at the scanning position A, the lock must be designed in such a way that, at least at the scanning position A, it interrogates both surfaces 2, 2 'of the key 1 independently of one another.
    FIGS. 4a-4b show a further embodiment of a key 1 according to the invention, which is designed as a flat key with a key bit 10 and a key point 20 as well as two opposite faces 2, 2 '. The surfaces 2, 2 'are the key flat sides 16, 16'. For both surfaces 2, 2 'are provided along the longitudinal extension of the key 1 scanning positions 4, namely six scanning positions A - F. At each scanning position 4 is on both surfaces 2, 2' of the key 1 is a coding 3, 3 ', wherein the first Coding 3auf the surface 2 and the second coding 3 'on the surface 2' is provided.
    The codings are different at the sampling position A and identical at the sampling positions B-F. In this embodiment, the codings 3, 3 'are designed as wellbores 21, 21' with different depths and / or diameters.
    FIGS. 5a-5b show a further embodiment of a key 1 according to the invention, which is designed as a flat key with a key bit 10 and a key tip 20 as well as two opposite faces 2, 2 '. The surfaces 2, 2 'are the key narrow sides 15. For both surfaces 2, 2', scanning positions 4 are provided along the longitudinal extent of the key 1, namely six scanning positions A - F. At each scanning position 4 there are two surfaces 2, 2 'of the key 1 a coding 3, 3', wherein the first coding 3 on the surface 2 and the second coding 3 'on the surface 2' is provided. The codings are different at the sampling position A and identical at the sampling positions B-F. In this embodiment, the codings 3, 3 'are made as notches 22, 22' of different depth and / or extension.
    Figs. FIGS. 6a-6b show the key from FIGS. 3a-3b in a detailed view. The key 1 is designed as a flat key with a key tip 20 and two surfaces lying opposite 2, 2 '. The surfaces 2, 2 'are the key flat sides 16, 16'. For both surfaces 2, 2 ', scanning positions 4 are provided along the longitudinal extension of the key 1, namely six scanning positions A - F.
    At each scanning position 4 is on both surfaces 2, 2 'of the key 1 a coding 3, 3', wherein the first coding 3 on the surface 2 and the second coding 3 'on the surface 2' is provided. The codings are identical on the scanning position A and identical on the scanning positions B-F.
    The codings 3, 3 'comprise deep control points 6, 6' and shallow control points 7, 7 ', which are each connected to each other by a deep control groove 8, 8' and two shallow control grooves 9, 9 '. The deep control grooves 8, 8 'have a greater groove depth than the shallow control grooves 9, 9'. The shallow control grooves 9, 9 'are substantially parallel to one another.
    The control points 6, 6 ', 7, 7' are arranged at the interrogation positions at control heights 5 transverse to the longitudinal extent of the key 1. In this embodiment, six control levels a - f are provided. While the control points 6, 6 ', 7, 7' are identical at the scanning positions B - F on both surfaces 2, 2 'of the key 1, at the scanning position A the deep control point 6, 6' on the two surfaces 2, 2 'is at one arranged different tax height 5.
    The Figs. FIGS. 7a-9b show further embodiments of keys according to the invention.
    In these exemplary embodiments, the deep control groove 8, 8 ', starting from the wrench tip 20 to the key ridge 10, initially runs identically on a few scanning positions on both surfaces 2, 2' of the key 1. From a certain scanning position, the deep control groove 8, 8 'is designed differently on the surfaces 2, 2'.
    The shallow control grooves 9, 9 'extend, starting from the key tip 20, only up to this specific scanning position.
    It is thereby achieved that only one side of the key must be scanned up to this scanning position, while from this scanning position both sides of the key (as shown in Fig. 2b) must be scanned.
    The Figs. Figures 10a-12b show further embodiments of keys according to the invention. In these exemplary embodiments, the shallow control grooves 9, 9 ', starting from the key tip 20 to the key collar 10, initially run identically at some scanning positions on both surfaces 2, 2' of the key 1.
    From a certain scanning position, the shallow control grooves 9, 9 'are designed differently on the surfaces 2, 2'. The deep cam groove 8, 8 'extends, starting from the key tip 20, only up to this particular scanning position. As a result, it is necessary to scan to one side of the key only up to this scanning position, while from this scanning position both sides of the key (as shown in Fig. 2c) must be scanned.
    Figures 13a-13b show a schematic representation of the tumblers inside the cylinder core of a lock according to the invention, with the key and cylinder core and housing not shown for the sake of clarity. Fig. 13a shows a view into the keyway 11 and shows the control elements 13, 13 'which interrogate the key channel with control elements 15, 17', 18, 18 '. Laterally, the controls 13, 13 'on query grooves 19, 19', which interact with locking elements 14, 14 '. Fig. 13b shows a top view of the closure channel 11, and the scanning positions 12A-F are shown.
    At each scanning position are on both sides of the key channel 11, two control elements 13, 13 ', either the first control members 17, 17' for querying the deep grooves on the key, or second control members 18,18 'have to query the shallow grooves. Right and left of the keyway 11, the controls 13,13 'once again shown rotated by 90 ° position. This embodiment of the lock is designed for a key as shown in Figs. 3a-3b, as the grooves extend the full length of the key shank.
    In Fig. 14, an embodiment of the key lock as shown in Figs. 9a-9b is shown. It will be sampled at the sampling positions A, B and C alternately the deep and deep groove of the key. At the scanning positions D, E and F, only the deep groove is scanned on both sides.
    In Fig. 15, an embodiment of the lock for a key is as shown in Figs. 12a-12b. It will be sampled at the sampling positions A, B and C alternately the deep and deep groove of the key. At the scanning positions D, E and F, the shallow grooves are scanned only on both sides.
    16 shows a schematic three-dimensional representation of the tumblers inside the cylinder core of a lock according to the invention, the control elements 13 and 13 'being shown on both sides of the keyway 11. In the detail drawn out, the first control members 17 'for scanning the deep groove, and the second control members 18 for scanning the shallow grooves are shown. The control members 17, 17 ', 18, 18' are substantially cylindrical bosses.
    Also visible are the interrogation grooves 19, 19 'in the form of slots of substantially rectangular cross-section which serve to cooperate with the locking element 14, 14' as shown in Figs. 2a-2c.
    The invention is not limited to the illustrated embodiments, but includes all embodiments within the scope of the following claims.
    List of Reference Numerals 1 key 2 first surface 2 'second surface 3,3' coding 4 scanning position of the key 5 control height 6, 6 'depth control point 7, 7' shallow control point 8, 8 'depth control groove 9, 9' shallow control groove 10 key chalk 11 key channel 12 Scanning position of the lock 13, 13 'control element 14, 14' blocking element 15, 15 'key narrow side 16, 16' key flat side 17, 17 'first control element 18, 18' second control element 19, 19 'interrogation groove 20 key top 21, 21' boring grooves 22, 22 'indentations 23 core 24 housing
    权利要求:
    Claims (23)
    [1]
    Claims 1. A key (1) for locking a lock comprising a. at least one first surface (2) and at least one second surface (2 '), b. with at least one scanning position (4) provided along the longitudinal extent of the key (1), c. in that at least one first coding (3) for interrogation in the lock and / or on the second face (2 ') is provided on the first face (2) for encoding at least one second coding (3') in the lock, characterized in that at least distinguishing an encoding (3) of the first surface (2) at at least one scanning position (4) from the second coding (3 ') at the same scanning position (4).
    [2]
    A key (1) according to claim 1, characterized in that the codings (3, 3 ') are made at at least one scanning position so as to interrogate at least the codings at that scanning position on both faces (2, 2') in order to lock the lock have to.
    [3]
    A key (1) according to claim 1 or 2, characterized in that at least one coding (3) of the first face (2) at at least one scanning position (4) is identical to the coding (3 ') at the same scanning position (4) on the second Face (21) is such that in order to lock the lock, at least the codes (3, 3 ') at this scanning position need only be interrogated at one face (2, 2') of the key.
    [4]
    4. Key according to one of claims 1 to 3, characterized in that in addition to the codings (3, 3 ') on the surfaces (2, 2') and / or other locations of the key (1) further codings are provided.
    [5]
    5. key (1) according to one of claims 1 to 4, characterized in that the codings (3, 3 ') and / or further coding substantially geradadlinige, angled or curved, horizontally or vertically running grooves, grooves, grooves, notches (22 , 22 ') or bumps, control surfaces, control tracks, troughs, wells (21, 21') of identical or different diameters and / or depths, supported balls, circular or elliptic segment recesses, spherical segmented bosses or troughs, magnetic encodings, electronic encodings, and / or combinations thereof Includes elements.
    [6]
    6. key (1) according to one of claims 1 to 5, characterized in that it is at the surfaces (2, 2 ') to key flat sides (16,16').
    [7]
    7. key (1) according to one of claims 1 to 5, characterized in that it is at the surfaces (2, 2 ') to key narrow sides (15,15').
    [8]
    8. key (1) according to one of claims 1 to 5, characterized in that it is at the first surface (2) around a key narrow side (15), and at the second surface (2 ') around a key flat side (16') is.
    [9]
    9. key (1) according to one of claims 1 to 8, characterized in that the codings (3, 3 ') by transversely to the longitudinal extent of the key (1) provided at certain control levels (5) arranged control points (6, 6' , 7, T), the control points preferably being interconnected by control grooves (8, 8 ', 9, 9').
    [10]
    10. key (1) according to claim 9, characterized in that a. at least one control groove (8, 9) with control points (6, 7) on the first surface (2) and also at least one control groove (8 ', 9') with control points (6 ', T) on the second surface (2'). is provided, b. the control points of each control groove are provided at respective defined scanning positions (4), and c. at least one control point of at least one control groove at at least one scanning position on the first surface (2) has a different control height than the control point of the corresponding control groove at the same scanning position on the second surface (2 ').
    [11]
    A key (1) according to claim 10, characterized in that at least one control point of at least one control groove on at least one scanning position on the first surface (2) has the same control height as the control point of the corresponding control groove on the same scanning position on the second surface (2 '). ,
    [12]
    12. Key (1) according to claim 10 or 11, characterized in that at least six scanning positions A - F and at least six Steuerhöhena - f are provided.
    [13]
    A key (1) according to any one of claims 10 to 12, characterized in that at least three control grooves are provided, at least one of which has a deep control groove (8, 8 ') with deep control points (6, 6'), and the remaining shells Control grooves (9, 9 ') are formed with shallow control points (7, 7'), a. the deep control grooves (8, 8 ') having a greater groove depth than the shallow control grooves (9, 9'), b. and the shallow control grooves (9, 9 ') are substantially parallel to each other.
    [14]
    14. key (1) according to any one of claims 10 to 13, characterized in that at least three, preferably five, control heights are provided for at least one control groove, preferably for the shallow control grooves (9, 9 ').
    [15]
    A key according to any one of claims 1 to 14, comprising a key tip (20) and a key bit (10), characterized in that the codings (3, 3 ') starting from the key tip (20) towards the key bit (10) are initially at least A scanning position (4) aufbeiden surfaces (2, 2 ') are made identical, and are carried out continuously different from a certain scanning position.
    [16]
    A key according to any one of claims 13 to 15, comprising a key tip (20) and a key bit (10), characterized in that the deep control groove (8, 8 ') or the shallow control grooves (9, 9') originate from the wrench tip (20) extend towards the key crop (10) only to a certain scanning position (4).
    [17]
    17. Lock for key (1) according to one of claims 1 to 16, comprising a. a keyway (11) with at least two sides, b. with at least one scanning position (12) provided along the longitudinal extent of the key channel (11), c. wherein at least one control element (13, 13 ') is provided at each scanning position (12) for interrogating at least one coding (3, 3') on at least one surface (2, 2 ') of the key (1), d. wherein at least one blocking element (14, 14 ') is provided, which can be brought into the release position for actuating the lock when the control element (13, 13') is in the release position, characterized in that at least one scanning position (12) has two sides of the key channel (11). Control elements (13, 13 ') for interrogating different codes (3, 3') are provided on two surfaces (2, 2 ') of the key.
    [18]
    18. Lock according to claim 17, characterized in that at least at another scanning position (12) on two sides of the key channel (11) controls (13, 13 ') for querying the same encoding (3, 3'), in particular for interrogating different features of the same coding (3, 3 '), on two surfaces (2, 2') of the key are provided.
    [19]
    19. Lock according to claim 18, characterized in that the control elements (13, 13 ') control members (17, 17', 18, 18 ') for engaging in codings (3, 3'), in particular for engagement in Steuemuten (8, 8 ' , 9, 9 ') on the key (1).
    [20]
    A lock according to claim 19, characterized in that the control elements (13, 13 ') comprise first control members (17, 17') for engagement with deep control grooves (8, 8 ') and second control members (18, 18') for engagement with shallow control grooves (17, 17 '). 9, 9 ').
    [21]
    21. Lock according to one of claims 17 to 20, characterized in that the control elements (13,13 ') for controlling the locking elements (14,14') engagement means, in particular one or more Abfragenuten (19, 19 ') which in a or in a plurality of positions of the control element (13, 13 ') with the blocking element (14, 14') in such a way that this release position can be brought to actuate the lock.
    [22]
    22. Lock according to one of claims 17 to 21, characterized in that it is a cylinder lock, in particular a cylinder lock for receiving a flat key is.
    [23]
    23. System of at least two locks or groups of locks according to one of claims 17 to 22 and at least one associated key (1) according to one of claims 1 to 16, characterized in that a. at least one first lock or a first group of locks at least at a certain scanning position at least only the first coding (3) on the first surface (2), and b. at least a second lock or a second lock group at said scan position interrogates at least only the second coding (3 ') on the second face (2') of the key, c. such that the key (1) in a first position disables the first lock or the first group of locks, and in a second position disables the second lock or the second group of locks.
    类似技术:
    公开号 | 公开日 | 专利标题
    EP0335069B1|1992-04-01|Flat key for cylinder locks, and cylinder lock for this key
    EP2890856B1|2017-04-12|Blank, security key, lock system, and production method
    EP3219884B1|2019-07-17|Key, corresponding lock and system comprising key and locks
    WO2018188971A1|2018-10-18|Key and cylinder lock
    DE2817966C2|1986-01-30|Flat key for a locking cylinder of a locking system
    DE3314511A1|1984-10-31|Key for lock cylinders
    EP0607993B1|1997-01-02|Group of cylinder locks, cylinder lock for forming such a group, hierarchical locking device on the basis of such a group, key for the cylinder lock and method of manufacturing the key
    DE102010012261B4|2015-08-20|locking system
    AT518317B1|2018-04-15|Key and associated lock
    DE202006003869U1|2006-06-01|Cylinder lock and flat key
    DE10042070A1|2002-02-28|Lock and key system
    EP3092359B1|2018-12-26|Cylinder lock
    EP1746226B1|2013-01-30|Key
    DE102005030408B3|2007-02-08|Cylinder lock has code pin with longitudinal axis parallel to that of associated core pin|, displaced by reversible key to control associated core pin and hence also the housing pin in separating plane
    EP3266962B1|2020-03-11|Key for a lock cylinder and lock cylinder for such a key
    DE202020105333U1|2020-10-30|Cross-sectional profile for a flat key or the keyway of a cylinder lock
    EP3205796B1|2020-11-11|Key for a lock cylinder, lock cylinder and locking device
    DE10212798A1|2003-01-16|Cylinder lock has rotary core, identification blocks, key, pins, protuberances and recesses and slide system
    DE2930425A1|1980-02-14|CYLINDLE LOCK
    AT516818B1|2018-05-15|Flat key and cylinder lock
    AT514892B1|2017-09-15|locking
    AT521181A4|2019-11-15|Flat key for a cylinder lock and cylinder lock
    EP2522796B1|2019-02-20|Key for closing a lock cylinder
    DE1140834B|1962-12-06|Rotary cylinder lock with a number of radially movable tumblers, at least one of which consists of several locking elements
    DE2242152A1|1974-03-07|SOCKET LOCK WITH LOCKING CYLINDER AND KEY
    同族专利:
    公开号 | 公开日
    RU2017107848A3|2018-10-11|
    PL3219884T3|2019-12-31|
    DK3219884T3|2019-10-07|
    LT3219884T|2019-08-26|
    IL256901A|2018-12-31|
    SI3219884T1|2019-09-30|
    PL3191663T3|2021-12-27|
    NZ730385A|2021-09-24|
    ES2746024T3|2020-03-04|
    AU2015314499C1|2020-07-02|
    US20170306649A1|2017-10-26|
    IL256901D0|2018-02-28|
    AU2015314499A1|2017-04-20|
    PT3191663T|2021-08-12|
    RU2727954C2|2020-07-27|
    RS62126B1|2021-08-31|
    LT3191663T|2021-09-27|
    DK3191663T3|2021-09-06|
    US10458150B2|2019-10-29|
    HUE046574T2|2020-03-30|
    AU2015314499B2|2019-11-21|
    WO2016037882A1|2016-03-17|
    SI3191663T1|2021-12-31|
    IL251075A|2020-02-27|
    ME03632B|2020-07-20|
    RU2017107848A|2018-10-11|
    EP3191663A1|2017-07-19|
    UA120766C2|2020-02-10|
    HRP20191403T1|2019-11-15|
    EP3219884B1|2019-07-17|
    EP3191663B1|2021-06-09|
    RS59422B1|2019-11-29|
    IL251075D0|2017-04-30|
    PT3219884T|2019-08-21|
    ES2881028T3|2021-11-26|
    HRP20211399T1|2021-12-10|
    AT516237B1|2017-11-15|
    EP3219884A1|2017-09-20|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP0440983A2|1990-02-05|1991-08-14|CAS DI A.A. CAMPI S.p.A.|Revolving cylinder and radial piston type safety lock unit with relative key|
    DE102010052473A1|2009-11-28|2011-06-16|Volkswagen Ag|locking system|
    WO2011098405A1|2010-02-10|2011-08-18|Huf Hülsbeck & Fürst Gmbh & Co. Kg|Locking device|
    US20110302972A1|2010-06-10|2011-12-15|Kabushiki Kaisha Tokai Rika Denki Seisakusho|Key and locking device|AT518317A1|2016-03-11|2017-09-15|Evva Sicherheitstechnologie|Key and associated lock|US1669115A|1925-02-06|1928-05-08|Safeway Lock Company|Magnetic key|
    DE515431C|1926-09-02|1931-01-08|Theodor Kromer G M B H Spezial|Guard lock for hotels with a common master key for all locks|
    BE664635A|1965-05-28|1900-01-01|
    DE2003059C3|1970-01-23|1979-11-22|Fa. Aug. Winkhaus, 4404 Telgte|Locking system|
    US4741188A|1985-07-16|1988-05-03|Smith Jerry R|Rekeyable master and user lock system with high security features|
    AT389559B|1988-03-31|1989-12-27|Evva Werke|FLAT KEY FOR CYLINDLE LOCKS AND RELATED CYLINDLE LOCK|
    CH681242A5|1990-01-17|1993-02-15|Ernst Keller|
    AT400968B|1993-03-03|1996-05-28|Evva Werke|CYLINDER LOCK AND FLAT KEY WITH TAXES|
    AT405668B|1995-02-01|1999-10-25|Evva Werke|FLAT KEY FOR CYLINDLE LOCK|
    EP0866907B1|1995-12-11|1999-09-01|Berchtold AG, SEA Schliess-Systeme|Locking device with a cylinder lock and a flat key|
    HU220980B1|1995-12-11|2002-07-29|R.Berchtold AG.|Locking device with a cylinder lock and a flat key|
    JP3709146B2|2000-03-09|2005-10-19|株式会社アルファ|Cylinder lock|
    AT501706B1|2005-04-12|2007-01-15|Evva Werke|FLAT KEY AND ASSOCIATED CYLINDER LOCK|
    DE202008000911U1|2008-01-22|2008-03-27|D. la Porte Söhne GmbH|Cylinder lock with platinum tumblers and key for the lock|
    US8826707B2|2008-04-10|2014-09-09|Huf Hulsbeck & Furst Gmbh & Co. Kg|Locking device comprising a key and a locking cylinder|
    AT506955B1|2008-08-12|2010-01-15|Evva Werke|CYLINDER LOCK WITH CYLINDER HOUSING AND FLAT KEY FOR A CYLINDER LOCK|
    US8950226B2|2011-10-12|2015-02-10|Moshe Dolev|Cylinder lock assembly with non-rotating elements|WO2014124342A1|2013-02-07|2014-08-14|Schlage Lock Company Llc|Lockdown cylinder locks|
    法律状态:
    2021-05-15| MM01| Lapse because of not paying annual fees|Effective date: 20200911 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA692/2014A|AT516237B1|2014-09-11|2014-09-11|Key and associated lock|ATA692/2014A| AT516237B1|2014-09-11|2014-09-11|Key and associated lock|
    NZ730385A| NZ730385B2|2014-09-11|2015-08-31|Key and associated lock|
    PL17165193T| PL3219884T3|2014-09-11|2015-08-31|Key, corresponding lock and system comprising key and locks|
    PCT/EP2015/069843| WO2016037882A1|2014-09-11|2015-08-31|Key and associated lock|
    ES15756656T| ES2881028T3|2014-09-11|2015-08-31|Wrench|
    LTEPPCT/EP2015/069843T| LT3191663T|2014-09-11|2015-08-31|Key|
    PT157566563T| PT3191663T|2014-09-11|2015-08-31|Key and associated lock|
    SI201531650T| SI3191663T1|2014-09-11|2015-08-31|Key|
    EP17165193.8A| EP3219884B1|2014-09-11|2015-08-31|Key, corresponding lock and system comprising key and locks|
    RS20210911A| RS62126B1|2014-09-11|2015-08-31|Key|
    EP15756656.3A| EP3191663B1|2014-09-11|2015-08-31|Key|
    ES17165193T| ES2746024T3|2014-09-11|2015-08-31|Key as well as corresponding lock and key system and locks|
    DK17165193.8T| DK3219884T3|2014-09-11|2015-08-31|KEYS AND RELATED LOCKS AND SYSTEM CONSISTING OF KEYS AND LOCKS|
    UAA201703542A| UA120766C2|2014-09-11|2015-08-31|Key and associated lock|
    RSP20191319| RS59422B1|2014-09-11|2015-08-31|Key, corresponding lock and system comprising key and locks|
    HUE17165193A| HUE046574T2|2014-09-11|2015-08-31|Key, corresponding lock and system comprising key and locks|
    AU2015314499A| AU2015314499C1|2014-09-11|2015-08-31|Key and associated lock|
    PL15756656T| PL3191663T3|2014-09-11|2015-08-31|Key|
    RU2017107848A| RU2727954C2|2014-09-11|2015-08-31|Key and corresponding lock|
    SI201530851T| SI3219884T1|2014-09-11|2015-08-31|Key, corresponding lock and system comprising key and locks|
    PT17165193T| PT3219884T|2014-09-11|2015-08-31|Key, corresponding lock and system comprising key and locks|
    DK15756656.3T| DK3191663T3|2014-09-11|2015-08-31|Key|
    LTEP17165193.8T| LT3219884T|2014-09-11|2015-08-31|Key, corresponding lock and system comprising key and locks|
    MEP-2019-290A| ME03632B|2014-09-11|2015-08-31|Key, corresponding lock and system comprising key and locks|
    US15/509,858| US10458150B2|2014-09-11|2015-08-31|Key and associated lock|
    IL251075A| IL251075A|2014-09-11|2017-03-09|Key and associated lock|
    IL256901A| IL256901A|2014-09-11|2018-01-14|Key and associated lock|
    HRP20191403| HRP20191403T1|2014-09-11|2019-08-02|Key, corresponding lock and system comprising key and locks|
    HRP20211399TT| HRP20211399T1|2014-09-11|2021-09-02|Key|
    [返回顶部]