EP3736399A1 - Umprogrammierbares schloss - Google Patents
Umprogrammierbares schloss Download PDFInfo
- Publication number
- EP3736399A1 EP3736399A1 EP19173845.9A EP19173845A EP3736399A1 EP 3736399 A1 EP3736399 A1 EP 3736399A1 EP 19173845 A EP19173845 A EP 19173845A EP 3736399 A1 EP3736399 A1 EP 3736399A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- lock
- validating
- pin
- key
- plug
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B29/00—Cylinder locks and other locks with plate tumblers which are set by pushing the key in
- E05B29/0013—Cylinder locks and other locks with plate tumblers which are set by pushing the key in with rotating plate tumblers
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B19/00—Keys; Accessories therefor
- E05B19/0017—Key profiles
- E05B19/0041—Key profiles characterized by the cross-section of the key blade in a plane perpendicular to the longitudinal axis of the key
- E05B19/007—Key profiles characterized by the cross-section of the key blade in a plane perpendicular to the longitudinal axis of the key with U- or V-shaped cross-section
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B29/00—Cylinder locks and other locks with plate tumblers which are set by pushing the key in
- E05B29/004—Cylinder locks and other locks with plate tumblers which are set by pushing the key in with changeable combinations
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B29/00—Cylinder locks and other locks with plate tumblers which are set by pushing the key in
- E05B29/0046—Cylinder locks and other locks with plate tumblers which are set by pushing the key in for use with more than one key, e.g. master-slave key
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B29/00—Cylinder locks and other locks with plate tumblers which are set by pushing the key in
- E05B29/0066—Side bar locking
Definitions
- the present invention relates to a reprogrammable lock comprising a housing, a plug and at least one validating element of a first kind configured to cooperate with a key introduced into a keyway to read a key coding.
- Locks with housing, plug and validating elements are e.g. known from US 9,920,548 B2 , WO 2016/162363 A1 and WO 2018/041277 A1 of the same applicant.
- the lock it is desirable to configure the lock such that is reprogrammable so that a key, which with the lock could be opened before reprogramming, is not suited anymore to open the lock.
- a site is provided with multiple locks, it is desirable that during a defined period, which corresponds e.g. the construction period, several locks have the same coding so that they can be opened by the very same key. Subsequently, the locks are individualized by reprogramming so that the key becomes useless as each lock has a different coding and thus needs a different kind of key to open it.
- a lock according to claim 1 is provided. Also, a locking set according to claim 15 is provided. The further claims specify additional embodiments of the lock and the locking set.
- the lock can be mechanically reprogrammed in a simple way by providing at least one validating element of a second kind, which is blockable by a pin, wherein the lock is configured to define a first state, in which the pin blocks the at least one validating element of the second kind so that it is inactive when reading the key coding and a second state, in which the at least one validating element of the second kind is released so that is active when reading the key coding.
- the pin is arranged such that, for reprogramming the lock, it can be extracted from the lock or it can be moved to another position inside the lock.
- the lock may be configured such that it holds the pin in said another position in a radial and axial secured way.
- the pin is held on the plug before and after reprogramming. In another embodiment the pin is held on the plug before reprogramming and in a cavity after reprogramming, the cavity being formed in a member coupled to the plug.
- the embodiments of the lock described hereinafter may comprise the following components:
- a blocking bar is preloaded such that in the locked state of the lock it is pushed into a longitudinal groove which is formed in the housing (see longitudinal groove 52, 52' in Fig. 36 ).
- Said longitudinal groove extends along a longitudinal direction which is arranged parallel to the rotation axis, around which the plug is rotatable with respect to the housing in the unlocked state of the lock.
- the pushing force is e.g. produced by elastic means, e.g. in the form of one or more springs 34 (see Fig. 25 ).
- a blocking bar is arranged between the plug and the housing, which has the effect that a rotation of the components including the plug, the blocking bar(s), and the validating elements with respect to the housing is disabled.
- the components including the plug, the blocking bar(s), and the validating elements can be rotated relative to the housing around the rotation axis, whereby a driver (see driver 85 in Fig. 31 ) unlocks or locks the actual locking mechanism, e.g. a bolt of a door or the like.
- Fig. 1 and 2 show part of a lock, which comprises a cap 10, a plug 20a, and validating elements 40b, 40c of the second kind.
- the plug 20a has ribs 27a between which validating elements 40a of a first kind can be arranged in a manner as shown in Fig. 25 .
- the plug 20a includes further a receiving groove 22, which extends alongside of the plug 20a and which serves for receiving a blocking bar 30 in the unlocked state of the lock.
- Another receiving groove 22' is formed in the plug 20a opposite to the groove 22 for receiving a second blocking bar 30' in the unlocked state of the lock (see groove 22, 22' and blocking bars 30, 30' in Fig. 35 ).
- the lock further comprises a housing 50 (see also Fig. 35 ), which has a circular cylindrical opening for receiving the components 20a, 30, 30', 40a, 40b, 40c.
- the cap 10 may be arranged fully or partly outside of the housing 50.
- the plug 20a is configured to receive the key and to carry the blocking and validating components 30, 30', 40a, 40b, 40c.
- the plug 20a comprises a keyway 21 (see Fig. 7 ), which extends in the insertion direction of the key and which serves for receiving the shank of the key.
- the plug 20a has slits 23, each being arranged tranversely to the rotation axis 11a and serving for receiving a portion of a validating element 40a, 40b, 40c so that the latter can cooperate with the blocking bar 30 or 30'.
- the validating elements 40a, 40b, 40c are disc-shaped and arranged on an axle 11 (see Fig. 6 ), which is attached to the cap 10 and to the plug 20a.
- the latter is secured against axial movement by a clip, e.g. a circlip, which is mounted in a circumferential groove formed at the rearward end of the plug and abuts against the rearward end of the housing (see e.g. the right-hand side of the plug in Fig. 26 showing a groove arranged transversally to the rotation axis 11a and having two holes).
- the lock is shown in the programmable state, in which the two validating elements 40b and 40c are blocked which - seen in the insertion direction of the key - are arranged foremost of the keyway 21.
- the validating elements 40a of the first kind which are arranged between the ribs 27a, are rotatable with respect to the plug 20a to read a coding of the key, whereas the validating elements 40b, 40c are blocked in the plug 20a and are thus not active when reading the key coding.
- the validating elements 40b, 40c are secured to the plug 20a by means of a release pin 60a, see the detailed illustration in Fig. 3 .
- the plug 20a includes ribs 27a, 27b, 27c which are arranged between a validating element 40a, 40b, 40c.
- the foremost ribs 27b and 27c serve for holding the release pin 60a and have each a recess 28 to receive a portion of the release pin 60a.
- the validating elements 40b, 40c have also a recess 48b, 48c to receive a portion of the release pin 60a.
- Holding means are provided to hold the release pin 60a securely in the recesses 28, 48b, 48c.
- holding means are provided in that the recesses 28 and 48b have an open end with a maximum distance d (see Fig. 3 and 5 ) that is smaller than the maximum diameter of the portion 61a, 65a of the release pin 60a received in said recess.
- d maximum distance
- the validating elements 40b, 40c and the ribs 27b, 27c which extend around a portion of the pin 60a to that extent that the latter cannot be moved radially out of a recess.
- the recess 28, when seen in a front view may be defined by a circular arc, which extends over an angle of more than 180 degrees.
- the validating elements 40b, 40c are prestressed by means of an elastic mean (see spring 49 in Fig. 6 ). Thereby, the validating elements 40b, 40c exert a side pressure on the pin 60a, which impedes a movement in the axial direction. Securement in the axial direction is also achieved in that the pin 60a has an intermediate part 63a, which has a smaller diameter than the two end parts 61a, 65a of the pin 60a such that tapered parts 62a, 64a are formed. Due to the elastic mean 49 the validating element 40c extending around the intermediate part 63a is a bit rotated to a position in which it contacts the intermediate part 63a (see Fig. 6 ). Thus, the latter butts against a tapered part 62a or 64a when the pin 60a is moved in the axial direction.
- Fig. 4 shows a validating element 40a of the first kind. It comprises a first arm 41a, which is configured to contact a coding part of the key, a second arm 42a, which is configured to cooperate with a blocking bar 30 or 30', and a hole 45, which is arranged between the arms 41a and 42a and which serves for receiving the axle 11 for a rotational arrangement around the axis 11a.
- the validating element 40a includes a protrusion 43, which cooperates with the elastic mean 49, e.g. a spring such as a coil spring, see Fig. 6 .
- the plug 20a includes blind holes 24, which are arranged transversally to the axis 11a and radially offset thereto (see Fig. 6 ).
- Said elastic mean 49 is arranged in a blind hole 24 and acts via the protrusion 43 on the validating element 40a so that the latter is pushed in a specific direction.
- the first arm 41a of the validating element 40a senses the inner side of a key portion, which is provided with the key coding.
- the second arm 42a of the validating element 40a has a recess 44, which serves for receiving a portion of the blocking bar 30 or 30'.
- the recess 44 is defined by side walls 44a, 44b and is arranged with respect to the rotation axis 11a such that its shape is mirror symmetrical around an axis 44c which goes through the middle of the recess 44 and the rotation axis 11a.
- the second arm 42 may have one or more additional recesses 46, which are "false" recesses having no mechanical function, but making it more difficult for someone who tries to pick the lock by finding the correct position of the validating element 40a.
- the at least one false recess 46 is formed such that the blocking bar 30, 30' cannot be received therein.
- the depth of the recess 46 is smaller than the depth of the recess 44.
- a side portion 47 of a validating element 40a is configured to contact a support face 25 formed on the plug 20a such that the validating element 40a can be rotated only within a predetermined angle range (see Fig. 6 ).
- Fig. 5 shows a validating element 40b of the second kind, wherein elements corresponding to those of a validating element 40a of the first kind have the same reference numbers. It comprises a first arm 41b, which is configured to contact a coding part of the key, and a second arm 42b, which is configured to cooperate with the blocking bar 30 or 30'.
- the first arm 41b of the validating element 40b of the second kind is enlarged with regard to the first arm 41a of the validating element 40a of the first kind, so that the recess 48b can be formed therein.
- the recess 48b may be defined by a circular arc, which extends over an angle of more than 180 degrees.
- the recess 44' is enlarged with regard to the recess 44 of the validating element 40a of the first kind. This allows the blocking bar 30 or 30' to be received in the recess 44' in the state when the validating element 40b is inactive as well as in the state when it is active and has the correct position to unlock the lock.
- the validating element 40c is also a validating element of the second kind and may be shaped in the same way as the validating element 40b. Thus, it may have a first arm 41c with a recess 48c and a second arm with a recess 44' (see Fig. 6 ).
- the recess 48c has the same shape as the recess 48b allowing a transfer of the pin 60a as explained below.
- the validating elements 40a, 40b, 40c are arranged in an alternating inverted manner so that the first arms 41a, 41b, 41c point alternatingly to the left and right side.
- Another blocking bar 30' is provided, which e.g. is arranged opposite to the blocking bar 30 and which, in the locked state of the lock, engages into another groove 52' formed in the housing 50.
- the blocking bar 30 is movable between the groove 52 and a receiving space formed by recesses 44, 44' of the validating elements 40a, 40b and the groove 22 in the plug 20a, and the blocking bar 30' is movable between the groove 52' and a receiving space formed by recesses 44, 44' of the validating elements 40a, 40c and by another groove in the plug 20a formed similar to the groove 22.
- the release pin 60a is arranged such it can be extracted from the lock by a specific key.
- an extraction groove 21a is provided which is in alignment to the recesses 28, 48b, 48c and which extends to the outside of the lock.
- Fig. 7 shows the extraction groove 21a which in the present embodiment is formed in the cap 10. It is conceivable that a first part of the groove 21 is formed in the cap 10 and a subsequent part in the plug 20a.
- Fig. 8 shows three different kinds of keys usable with a lock according to the first embodiment:
- Each key 70a, 70b, 70c has a handling part, e.g. a bow, to which the key shank 71a, 71b, 71c is attached.
- a handling part e.g. a bow
- the key 70a has a longitudinal groove 76a, which is preferably arranged along the middle of the key shank 71a.
- the shape of the groove 76a is adapted to the shape of the release pin 60a so that when the key shank 71a is inserted in the keyway 21 the release pin 60a is received in the groove 76a.
- the length of the groove 76a is chosen such that the end of the key shank 71a reaches at least up to the rearward end of the plug 20a, see Fig. 9 .
- the key coding of the key 70a is such that there is no coding at the positions, which would be sensed when the validating elements 40b, 40c were active.
- the key shank 71a has a semi-closed profile enclosing at least partially the coding part.
- the key shank 71a has side portions 73, 74 which are U-shaped and which are connected via an arcuate middle portion 72 (see also Fig. 6 ).
- a side portion 73, 74 encloses a coding cavity 73a, 74a, in which the key coding is formed, e.g. in form of one or more coding tracks.
- a coding track extends along the key shank 71a and may have e.g. a wavelike course.
- the coding track may be formed e.g. by a line of successive channel portions and/or ridge portions.
- the side portions 73, 74 prevent that the coding part of the key 70a is visible from outside. This impedes an unauthorized duplication of the key 70a e.g. by producing a copy based on pictures taken from the key 70a.
- the first arm 41a of a validating element 40a protrudes into the coding cavity 73a or 74b and follows the coding track of the key 70a, whereby it is rotated accordingly around the axle 11.
- each validating element 40a and with it its recess 44 have a specific angular position.
- the validating elements 40b, 40c are blocked by the pin 60a and thus are not active.
- the lock is locked again by rotating the key 70a and with it the components 10, 20a, 30, 30', 40a, 40b, 40c, 60a into the other direction, so that the blocking bar 30, 30' can slide back into the groove 52, 52'.
- Withdrawal of the key 70a causes the validating elements 40a by means of the elastic means 49 in the blind holes 24 to be returned back to the initial position, in which at least one of the recesses 44 is not in the correct position anymore.
- the key of the second kind 70b has a key shank 71b constituted substantially by the middle portion 72 of the key 70a, in which the groove 76a is formed. At the inner end of the groove 76a a pocket 77 is provided for receiving the release pin 60a.
- the key 70b is fully inserted into the keyway 21, turned into the direction, where the pocket 77 is located, so that the pin 60a is received therein (see Fig. 10 ), and pulled out (see Fig. 11 ).
- the pin 60a is now withdrawn and all validating elements 40a, 40b, 40c are active when reading the coding of a key.
- the key of the third kind 70c has a key shank 71c which is shaped in a similar way as the key of the first kind 70a.
- the groove 76a may be left away and in order to open a lock, the coding of the key 70c has to be such that also the recesses 44' of the validating elements 40b, 40c have the correct position allowing the coding bar 30 or 30' to enter therein.
- a key 70a can be configured such that it can open more than one lock.
- the key 70c can be configured such that it can open only one lock.
- Fig. 12-20 show a second embodiment of a lock, in which corresponding elements have the same reference numbers as those of the first embodiment, in particular the blocking bars 30, 30', the validating elements 40a and the housing 50.
- the plug 20b is designed differently, the release pin 60b has another position and another kind of validating elements 40d, 40e, 40f are provided.
- the release pin 60b provided remains in the lock also after reprogramming so that the extraction groove 21a as shown in Fig. 7 is not needed.
- Fig. 12 shows the plug 20b, which comprises ribs 27a, between which validating elements 40a of the first kind according to Fig. 4 may be arranged, and ribs 27d-27h each provided with a recess 28d-28h, which may configured like the recess 28 in the first embodiment.
- a short release pin 60b is provided to block only one validating element 40d of the second kind
- the recesses 28d and 28h are not needed.
- the recess 28e-28g is configured such that it may extend around a release pin 60b to that extent that the latter cannot be moved radially out of the recess.
- the recesses 28e-28g may have an open end with a maximum distance d (see Fig. 13 ) that is smaller than the maximum diameter of the portion 61b, 65b of the release pin 60b received in said recess (see Fig. 14 ).
- the recess 28e-28g when seen in a front view, may be defined by a circular arc, which extends over an angle of more than 180 degrees.
- Fig. 13 and 14 show a release pin 60b, which is held in the recesses 28e and 28f of ribs 27e and 27f. Therebetween a validating element 40d of Fig. 15 is arranged, which is blocked due to the presence of the pin 60b.
- the latter has an intermediate part 63b, which is arranged between the two end parts 61b and 65b. Tapered parts 62b, 64b are formed between parts 63b and 61b and between parts 63b and 65b.
- the validating element 40d of the second kind shown in Fig. 15 differs from the validating element 40b of the second kind of Fig. 5 in that the first arm 41d has a recess 48d, which is adapted to the size of the pin 60b.
- the recess 48d may be larger than the size of the intermediate part 63b.
- the recess 48d may be defined by a circular arc, which extends over an angle of more than 180 degrees.
- the validating element 40d As the validating element 40d is prestressed (see Fig. 16 ), it exerts a side pressure on the pin 60b, which impedes a movement in the axial direction. Securement in the axial direction is also achieved by the tapered parts 62b, 64b of the pin 60b, against which the validating element 40d butts when the pin 60b is moved in the axial direction.
- FIG. 17 Another validating element 40e of a third kind shown in Fig. 17 is arranged between the ribs 27f and 27g of the plug 20b.
- the validating element 40e of the third kind differs from a validating element 40a of the first kind of Fig. 4 in that the first arm 41e has a contour 48e, which is adapted to secure the pin 60b, when it is arranged between the ribs 27f and 27g, see Fig. 18 .
- the contour 48e has end portions and an intermediate portion arranged therebetween.
- An end portion of the contour 48e is concavely curved and merges into the intermediate portion, which is convexly curved and is defined by a circular arc. This arc is arranged such that it corresponds to the lower edge of the recess 28e - 28h enabling the release pin 60b to be axially transferred.
- the pin 60b In order to activate the validating element 40d the pin 60b is moved from the position, in which it is held on the ribs 27e and 27f to the position, in which it is held on the ribs 27f and 27g.
- the latter position is shown in Fig. 19 and 20 .
- the pin 60b is radially secured in the recesses 28f and 28g of the ribs 27f and 27g.
- Axial securement is achieved by means of the first arm 41e of the validating element 40e.
- the first arm 41e contacts the pin 60b.
- the validating element 40e moves via the contour 48e along the pin 60b, whereby the contact between validating element 40e and pin 60b and with it a friction force therebetween persists so that the pin 60b is secured in the axial direction irrespective of the rotational position of the validating element 40e.
- the validating elements 40d and 40f prevent axial movement of the pin 60b in the standby state as shown on the Fig. 22 .
- Fig. 21 shows two different kinds of keys usable with a lock according to the second embodiment:
- Each key 70d, 70e has a handling part, to which the key shank 71d, 71e is attached.
- the key 70d has a longitudinal groove 76d, which is preferably arranged along the middle of the key shank 71d.
- the shape of the groove 76d is adapted to the shape of the release pin 60b so that when the key shank 71d is inserted in the keyway 21 the release pin 60b is received in the groove 76d.
- the length of the groove 76d is chosen such that the pin 60b when held on the ribs 27e, 27f is located at the end of the groove 76d when the key shank 71d is fully inserted into the keyway 21, see Fig. 22 .
- the key coding of the key 70d is such that there is no coding at the position, which would be sensed when the validating element 40d was active.
- the key 70e has a longitudinal groove 76e, which is preferably arranged along the middle of the key shank 71e.
- the shape of the groove 76e is adapted to the shape of the release pin 60b so that when the key shank 71e is inserted in the keyway 21 the release pin 60b is received in the groove 76e.
- the length of the groove 76d is chosen such that the pin 60b when hold on the ribs 27f, 27g is located at the end of the groove 76d when the key shank 71e is fully inserted into the keyway 21, see Fig. 23 .
- the key 70e with the shorter groove 76e may be used to move the pin 60b from the position shown in Fig. 22 to the position shown in Fig 23 .
- the key shank 71d, 71e may include portions 72, 73, 74 to define a semi-closed profile enclosing at least partially the coding part.
- the recesses 28d, 28h in ribs 27d and 27h are not needed and the validating element 40f, which is shaped here the same way as the validating element 40e, may be designed in the same way as the validating element 40a of Fig. 4 , i.e. as a validating element without the specific contour 48e.
- Fig. 13 shows an embodiment, in which only one validating element 40d is blocked before reprogramming the lock. It is conceivable to block more than one validating element and to liberate them after reprogramming.
- Fig. 24 shows a variant in which a release pin 60c is held on ribs 27d and 27f.
- the pin 60c corresponds substantially to the pin 60b, but has a longer intermediate part 63c so that it is enclosed by the recesses 48d, 48g of the validating elements 40d, 40g of the second kind, whereby the latter are inactivated.
- the pin 60c is moved to the position, in which it is held on ribs 27f and 27h to liberate the validating elements 40d, 40g. In this position, the validating elements 40e and 40f of the third kind contact the pin 60c and exert via their contour 48e, 48f a friction force thereon, so that it is axially secured.
- Fig. 25-36 show a third embodiment of a lock, in which corresponding elements have the same reference numbers as those of the first and second embodiments, in particular the blocking bars 30, 30', the validating elements 40a and the housing 50.
- the plug 20c is designed differently, the release pin 60d has another position and another kind of validating elements 40h, 40i are provided.
- the release pin 60d provided remains in the lock also after reprogramming so that the extraction groove 21a as shown in Fig. 17 is not needed.
- the plug 20c shown in Fig. 25-27 has ribs 27a, between which validating elements 40a as shown in Fig. 4 are arranged, and ribs 27g' and 27h' each provided with a recess 28g' and 28h', respectively, which is configured similar to the recess 28 in the first embodiment.
- the recess 28g', 28h' is configured such that it may extend around the release pin 60d to that extent that the latter cannot be moved radially out of the recess 28g', 28h'.
- the recesses 28g', 28h' may have an open end with a maximum distance d that is smaller than the maximum diameter of the portion of the release pin 60c received in said recess.
- the recess 28g', 28h' when seen in a front view, may be defined by a circular arc, which extends over an angle of more than 180 degrees.
- the rearward end of the plug 20c is provided with an accommodation space 29, in which a clutch member 80 as shown in Fig. 28 can be accommodated.
- the accommodation space 29 includes a slit 29a for receiving a protrusion 80a of the clutch member 80 to connect it in a rotationally secured manner with the plug 20c.
- the clutch member 80 includes a protruding portion 80b with a cavity 80c and a bore 80d, which is arranged transversally to the cavity 80c.
- the cavity 80c is configured to receive the release pin 60d (see Fig. 34 ) such that the latter cannot be moved radially out of the cavity 80c. This is achieved e.g. in that seen in a front view the cavity 80c is defined by a circular arc, which extends over more than 180 degrees.
- the bore 80d is configured to receive a magnet 81 (see Fig. 33 ) for securing the pin 60d when received in the cavity 80c.
- the release pin 60d is permanently magnetic, e.g. by forming it as a cylindrical magnet polarized transversally.
- the clutch member 80 is made of a magnetizable material e.g. magnetic steel such that the magnetic forces of the release pin 60d cause it to be attracted to the clutch member 80. In this case, there is no need for use of the magnet 81.
- the magnetic forces of the release pin 60d assist to hold it in the standby position as depicted in Fig. 29 .
- Fig. 29 shows the release pin 60d hold on the ribs 27g' and 27h'.
- the pin 60d has a circular cylindrical shape and engages into the recesses 28g' and 28h' of ribs 27g', 27h' and the recesses 48h and 48i formed in the validating elements 40h and 40i of the second kind.
- the validating elements 40h and 40i are designed in the same way, but are arranged rotated by 180 degrees with respect to each other on the axle 11.
- Fig. 30 shows the validating element 40i of the second kind in more detail.
- the first arm 41i of the validating element 40i includes a recess 48i which is adapted to the shape of the pin 60d, so that the latter cannot be moved radially out of the recess 48i.
- the recess 48i may e.g. be defined by a circular arc, which extends over more than 180 degrees.
- the other elements 42b, 43, 44', 45-47 of the validating element 40i may be designed in the same way as the corresponding elements 42b, 43, 44', 45-47 of the validating element 40b of the second kind shown in Fig. 5 .
- the last rib 27a acts as a stopper for the pin 60d, so that it cannot be moved in the axial direction towards the entry of the keyway 21.
- a validating element 40h, 40i is also prestressed by means of an elastic mean 49, e.g. a spring received in the blind hole 24 formed in the plug 20c, see Fig. 31 . Thereby, a validating element 40h, 40i exerts a side pressure on the release pin 60d to secure it in the axial direction.
- Fig. 31 shows also a driver 85 with a cam 85a, which is rotatable in the unlocked state of the lock to act on the actual locking mechanism.
- the driver 85 includes a seat for receiving the clutch member 80 so that it is connected with the driver 85 in a rotational secured manner.
- Fig. 32 and 33 show further views of the lock in the state, in which the release pin 60d blocks the validating elements 40h and 40i such that they are in the inactive position.
- Fig. 35 shows also the lock in the state, in which the validating elements 40h, 40i are blocked by the release pin 60d.
- the recess 44' of the validating elements 40h, 40i is positioned such that the blocking bar 30, 30' can be received therein when the validating elements of the first kind 40a have the correct position.
- the lock is in the unlocked state and the components 10, 20c, 30, 30', 40a, 40h, 40i, 49, 60d are rotated in the clockwise direction with respect to the housing 50.
- Fig. 36 shows the lock in the state, in which the validating elements 40h, 40i are released and thus are active when the key coding is read.
- the validating elements 40h, 40i do not have the correct position for opening the lock, as the blocking bar 30, 30' abuts against the end of the second arm 42b.
- the pin 60d is moved in the axial direction towards the clutch member 80, so that the pin 60d is received in the cavity 80c and secured therein by means of the magnet 81, see Fig. 34 .
- This transfer of the pin 60d may be done e.g. with a key 70g of a second kind as shown in Fig. 37 .
- the key 70g of a second kind has a longitudinal groove 76g, which is preferably arranged along the middle of the key shank 71g.
- the shape of the groove 76g is adapted to the shape of the release pin 60d so that when the key shank 71g is inserted in the keyway 21 the release pin 60d is received in the groove 76g.
- the end of the groove 76g is chosen such that it defines the position of the pin 60d in the cavity 80c, when the key 70g is fully inserted into the keyway 21, see Fig. 34 .
- the further key 70f shown in Fig. 37 is a key of a first kind, which is usable in the state in which the validating elements 40h, 40i are inactive and the lock is not yet reprogrammed.
- the key 70f has a longitudinal groove 76f, which is preferably arranged along the middle of the key shank 71f.
- the shape of the groove 76f is adapted to the shape of the release pin 60d so that when the key shank 71f is inserted in the keyway 21 the release pin 60d is received in the groove 76f.
- the groove 76f is longer than the groove 76g.
- the groove 76g ends at the front face of the pin 60d when arranged on the ribs 27g' and 27h'.
- the key coding of the key 70f is such that there is no coding at the position which would be sensed when the validating elements 40h, 40i were active.
- the key shank 71f, 71g may include portions 72, 73, 74 to define a semi-closed profile enclosing at least partially the coding part.
- a key of a third kind is usable, which may free of the groove 76f or 76g and which may be e.g. configured similar to the key 70c of the third kind of the first embodiment.
- Fig. 38 and 39 show further views of the lock in the state in which the release pin 60d is arranged in the cavity 80c of the clutch member 80, so that the validating elements 40h and 40i are in the active position for reading the key coding of a key of a third kind.
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- Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Quick-Acting Or Multi-Walled Pipe Joints (AREA)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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EP19173845.9A EP3736399A1 (de) | 2019-05-10 | 2019-05-10 | Umprogrammierbares schloss |
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EP19173845.9A EP3736399A1 (de) | 2019-05-10 | 2019-05-10 | Umprogrammierbares schloss |
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EP3736399A1 true EP3736399A1 (de) | 2020-11-11 |
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EP19173845.9A Withdrawn EP3736399A1 (de) | 2019-05-10 | 2019-05-10 | Umprogrammierbares schloss |
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Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3059462A (en) * | 1960-04-07 | 1962-10-23 | Yale & Towne Mfg Co | Construction key tumbler cylinder assembly |
US3099151A (en) * | 1961-01-16 | 1963-07-30 | Schlage Lock Co | Pin tumbler cylinder key system |
US8056379B2 (en) * | 2007-01-04 | 2011-11-15 | Schlage Lock Company | Lock cylinder with offset pin |
WO2016162363A1 (en) | 2015-04-09 | 2016-10-13 | Urbanalps Ag | Lock and key |
WO2018041277A1 (en) | 2016-09-01 | 2018-03-08 | UrbanAlps Czech s.r.o. | A key for controlling a lock with a cylindrical plug and a lock for validating this key |
US9920548B2 (en) | 2013-10-11 | 2018-03-20 | Urbanalps Ag | Key and lock |
-
2019
- 2019-05-10 EP EP19173845.9A patent/EP3736399A1/de not_active Withdrawn
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3059462A (en) * | 1960-04-07 | 1962-10-23 | Yale & Towne Mfg Co | Construction key tumbler cylinder assembly |
US3099151A (en) * | 1961-01-16 | 1963-07-30 | Schlage Lock Co | Pin tumbler cylinder key system |
US8056379B2 (en) * | 2007-01-04 | 2011-11-15 | Schlage Lock Company | Lock cylinder with offset pin |
US9920548B2 (en) | 2013-10-11 | 2018-03-20 | Urbanalps Ag | Key and lock |
WO2016162363A1 (en) | 2015-04-09 | 2016-10-13 | Urbanalps Ag | Lock and key |
WO2018041277A1 (en) | 2016-09-01 | 2018-03-08 | UrbanAlps Czech s.r.o. | A key for controlling a lock with a cylindrical plug and a lock for validating this key |
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