EP1284332A2 - Lock cylinder - Google Patents

Abstract

Lock cylinder (10) comprises at least one closing device (30) arranged between a rotor (11) and a stator (21) and moved via at least one control device (15, 35) between a position at least partly closing the tumbler channels (12) in the rotor and a position releasing the tumbler channels. Preferred Features: The closing device is a plate (31) which moves in a longitudinal direction. The plate has openings (32) lying over the tumbler channels in the release position. The closing device or the plate is arranged in a recess (22) in the stator. The control device is arranged on the rotor.

Description

The invention is directed to a lock cylinder in the preamble of Such type of locking cylinder are e.g. at Locks used for automotive or front doors.

In the development of locking systems, the keys keep getting bigger reduced to the lock cylinder by a corresponding reduction of the key channels to make them safer against attempts to break out. With the Reduced keys can no longer have such high torques the lock cylinder, and thus to those connected to the cylinder core Lock elements are exercised. The cylinder core is said to be entirely are commonly referred to as "rotor". This disadvantage is more recent Lock cylinder types compensated by the fact that the rotation path leading to a Actuation of a lock element is necessary is enlarged. in this connection rotation paths of up to 180 ° and more can be achieved.

The disadvantage of such locking cylinders is that in a 180 ° key removal possible in the offset position of the rotor in the cylinder jacket is. This unwanted key withdrawal in the wrong position of the rotor can cause the lock to be released beforehand, i.e. not completely closed remains. E.g. a vehicle with one in such a position located lock moves, so an unintentional opening of the door respectively.

It is known (DE 42 16 801 A1) the withdrawal of the key after a Rotation path of 180 ° by a forced axial displacement of the To prevent the rotor from facing the stator. You use a Cam positive control, to which an axial cam at the inner end of the Stator on the one hand and a counter cam at the corresponding end of a Gear serve on the other hand. The gear is non-rotatable on an extended one Fixed inside end of the cylinder core. With the axial longitudinal movement moves relatively large masses, namely in addition to the rotor tumblers and springs mounted therein, also the end gear and finally the key in the rotor. So there is a combined Rotational and longitudinal movement of these parts, which is undesirable. At the Turning the key also performs a distracting key Axial movement. The axial movement of the rotor corresponds approximately to that half the distance between two adjacent tumbler channels. After a 180 ° rotation therefore aligns the front ends of the tumblers with the web walls, which in the zero position of the rotor radially with the Distances between the tumbler channels of the rotor are aligned. As a result, the tumblers can no longer be in the 180 ° position of the rotor dodge into the free spaces of the stator between the webs. The Withdrawal of the key is therefore blocked.

The invention has for its object a reliable Lock cylinder without axially movable rotor or key in the The preamble of claim 1 to develop the type mentioned Key removal in a position other than the intended turning position impossible makes. This is according to the invention by those mentioned in claim 1 Measures achieved, which have the following special importance.

The peculiarity of the measures described there is that between Cylinder core and cylinder jacket a means for at least partial Sealing at least part of the tumbler channels in each other, is provided as the key withdrawal position, but the agent in the Key withdrawal position the tumbler channels towards the cylinder jacket releases, so that the tumblers in the, located in the cylinder jacket Locking channels can enter if the key is removed. A axial movement of the rotor and the key are avoided.

The closure means which e.g. as a plate or as a sleeve with it arranged breakthroughs can be carried out via controls between those that release the tumbler channels and those that Locking channels moved completely or partially covering layers.

By partially or completely closing the tumbler channels in The non-key trigger positions are prevented that the tumblers in the Try not to remove the key from the one in the cylinder jacket Recess can occur with the tumbler channels of the rotor are aligned. The key is therefore removed in these positions Cylinder core impossible.

In the embodiment of the closure means as a plate, this can e.g. be guided in a longitudinally displaceable manner along the cylinder axis in the cylinder jacket. Also in the embodiment as a cylindrical part or as a sleeve this is guided in a longitudinally displaceable manner between the cylinder core and the cylinder jacket his.

By arranging the closure means in a recess of the Cylinder jacket is a compact design of the invention Lock cylinder enables. Also by e.g. the arrangement of the Closure means in a recess in the cylinder core is a comparable compact design enables.

Further measures and advantages of the invention result from the Subclaims of the following description and the drawings. In The drawings show the invention in two exemplary embodiments.

Fig. 1

schematisch, eine perspektivische Ansicht einer ersten Ausführungsform des erfindungsgemäßen Schließzylinders im Teilanschnitt, mit dem Verschlußmittel in der Verschlußstellung,

Fig. 2

schematisch, die erste Ausführungsform des Schließzylinders aus Fig. 1, mit dem Verschlußmittel in der Freigabestellung,

Fig. 3

einen Schnitt durch die erste Ausführungsform des Schließzylinders entlang der Linie III - III aus Fig. 1,

Fig. 4

einen Schnitt durch die erste Ausführungsform des Schließzylinders entlang der Linie IV - IV aus Fig. 2,

Fig. 5

schematisch, eine perspektivische Ansicht einer zweiten Ausführungsform des erfindungsgemäßen Schließzylinders im Teilanschnitt, mit dem Verschlußmittel in der Verschlußstellung,

Fig. 6

schematisch, die zweite Ausführungsform des Schließzylinders aus Fig. 5, mit dem Verschlußmittel in der Freigabestellung,

Fig. 7

einen Schnitt durch die zweite Ausführungsform des Schließzylinders entlang der Linie VII - VII aus Fig. 5

Fig. 8

einen Schnitt durch die zweite Ausführungsform des Schließzylinders entlang der Linie VIII - VIII aus Fig. 6.

Show it:

Fig. 1

schematically, a perspective view of a first embodiment of the locking cylinder according to the invention in partial gating, with the closure means in the closed position,

Fig. 2

schematically, the first embodiment of the lock cylinder from FIG. 1, with the locking means in the release position,

Fig. 3

2 shows a section through the first embodiment of the locking cylinder along the line III-III from FIG. 1,

Fig. 4

3 shows a section through the first embodiment of the locking cylinder along the line IV-IV from FIG. 2,

Fig. 5

schematically, a perspective view of a second embodiment of the locking cylinder according to the invention in partial gating, with the closure means in the closed position,

Fig. 6

schematically, the second embodiment of the lock cylinder from FIG. 5, with the locking means in the release position,

Fig. 7

5 shows a section through the second embodiment of the locking cylinder along the line VII-VII from FIG. 5

Fig. 8

6 shows a section through the second embodiment of the locking cylinder along the line VIII-VIII from FIG. 6.

The embodiment shown in Figures 1 to 4 of a Lock cylinder 10 includes a cylinder jacket or stator 21 and one therein rotatably mounted cylinder core or rotor 11, which is a key channel 41 has a suitable key 40 inserted into it. In the cylinder core 11 tumbler channels 12 are embedded which are shown in FIG are arranged in a row and perpendicular to the longitudinal axis of the Cylinder core 11 are aligned. Are in the tumbler channels 12 Tumblers 16 arranged in the direction of the cylinder jacket 21 are spring loaded. Is a suitable key 40 in the key channel 41 inserted, the tumblers 16 in the tumbler channels 12 are such sorted that a rotation of the cylinder core 11 in the cylinder jacket 21 possible is. When the key is removed, the tumblers 16 partially protrude from the Tumbler channels 12 out and into the jacket-side tumbler channels 32 into it, so that rotation of the cylinder core 11 in the cylinder jacket 21 is not is possible.

At the rear end of the cylinder core 11 is a transmission member 19 arranged, which an actuating movement of the cylinder core 11 e.g. to a Lock can transfer.

At the front end of the cylinder core, at which the opening of the Key channel 41 is a head part 14 which is connected to the cylinder core 11 is molded. This head part 14 has at least in some areas larger diameter than the actual cylinder core 11 and covered therefore the lateral surface 13 of the cylinder core 11 in the front region of the Cylinder core 11.

A channel 22, which is open toward the cylinder core, is arranged in the cylinder jacket 21 the parallel to the longitudinal axis of the lock cylinder 10 or the cylinder core 11 runs. A closure means 30 is arranged in this channel 22, which is designed as plate 31 in the present exemplary embodiment. In this plate 31 openings 32 are arranged, which in the present Embodiment act as a tumbler ducts. At the rear end 33 of the plate 31 and the closure means 30 are Spring elements 34 arranged, via which the plate 31 resiliently against supports an end surface 24 of the channel 22. About the spring load Plate 31 against one, on the rear end face of the head part 14 arranged control surface 15 pressed. At the front end 36 of the plate 31 is a scanning element 35 which on the control surface 15 of the Head part 14 abuts.

In the closed position 37, which is shown in FIGS. 1 and 3, this is Scanning element 35 on a recess 17 of the control surface 15. In this Closure layer 37 close the lying between the openings 32 Web 39 of the plate 31, the tumbler channels 12 below Cylinder core 11. In the closed position 37 is thus an extension of the Key 40 from the key channel 41 is not possible because the in the Tumbler channels 12 tumblers 16 not in the Engage tumbler channels 32 or into openings 32 in plate 31 can.

If the cylinder core 11 is rotated via the key 40 in the direction of the arrow 42 or 43 until the scanning element 35 has been moved out of the recess 17 on the control surface 15 onto the raised surface 18 of the control surface 15, the plate 31 is now in the position shown in FIG 2 and 4 shown release position 38. In this it is possible to disengage the tumblers 16 from the tumbler channels 12 into the openings 32 in the plate 31 when the key is in its key withdrawal position.
When the scanning element 35 moves from the recess 17 onto the raised surface 18 of the control surface 15, the plate 31 is displaced in the direction of the arrow 25 by a predetermined path against the spring loading of the springs 34. This path corresponds exactly to the movement required to position the openings 32 exactly above the tumbler channels 12 in the cylinder core 11 when the key is in its key withdrawal position.

5 to 8, the invention is in a second embodiment shown. This differs from that previously described Embodiment essentially in that the closure means 30 'in its front area is designed as a sleeve on two sides Plates 31 and 31 'are formed. These plates 31, 31 'lie opposite the game gel, so that in the key position in which the Cylinder core 11 is rotated by 180 ° with respect to the key withdrawal position, the tumbler channels 12 via the webs 39 arranged on the plates 31, 31 ' are closed on both sides of the cylinder core 11. This points to Closure means 30 'in turn a scanning element 35 at its front end 36 on which is then moved into the recess 17 on the control surface 15 (see FIGS. 7 and 5).

If a key 40 is inserted into the bowl channel 41 in the direction of the arrow 42 or 43 moves and thus the cylinder core 11 in the cylinder jacket 21 moves, the scanning element 35 runs out of the recess 17 and becomes from the raised surface 18 on the control surface 15 in the direction of arrow 25 moved against the spring loading of the spring elements 34. 6 and 8 shown key withdrawal position are then the Breakthroughs / tumbler channels 32 in the plates 31, 31 'in a form-fitting manner the underlying tumbler channels 12 in the cylinder core 11. The Key 40 can now be removed and the tumblers 16 can move out of the tumbler channels 12 into the openings 32.

With regard to all other functions, reference is made to the previous explanations of the first embodiment in FIGS. 1 to 4th

LIST OF REFERENCE NUMBERS

10

lock cylinder

11

Cylinder core / rotor

12

Tumbler channels in 11

13

Lateral surface of 11

14

Headboard from 11

15

Control surface / control means at 14

16

tumblers

17

Depression on 15

18

raised areas on 15

19

transmission member

21

Cylinder jacket / stator

22

Recess / channel in 21

24

End face of 22

25

Arrow (movement path of 30, 30 ')

30

closure means

30 '

closure means

31

plate

31 '

plate

32

Breakthroughs / tumbler channels in 30, 30 '

33

rear end of 30, 30 '

34

spring element

35

Sensing element / control means

36

front end of 30, 30 '

37

Lock position of 30, 30 '

38

Release position of 30, 30 '

39

Stege

40

key

41

keyway

42

Arrow (rotation of 11)

43

Arrow (rotation of 11)

Claims (9)

Locking cylinder comprising a stator (21) and a rotor (11) as well as spring-loaded tumblers (16) which are movably arranged in tumbler channels (12, 32) between the stator (21) and the rotor (11),
the locking cylinder (10) having a key channel (41) for receiving a key (40),
and the tumblers (16) when the suitable key (40) inserted in the key channel (41) is in a sorted position defining the unlocking position of the locking cylinder (10), in which the stator (21) and rotor (11) can rotate relative to one another,
and the tumblers (16) without a suitable key (40) inserted into the key channel (41) are in a locking position in which the stator (21) and rotor (11) are secured against rotation against one another,
characterized in that at least one closure means (30, 30 ') is arranged between the rotor (11) and the stator (21),
which can be moved via at least one control means (15, 35) between a position which at least partially closes the tumbler channels (12) located in the rotor (11) and a position which releases the tumbler channels (12) overall. Lock cylinder according to claim 1, characterized in that the closure means (30) is designed as a plate (31, 31 ') which is arranged to be longitudinally displaceable. Lock cylinder according to claim 1 or 2, characterized in that the plate (31, 31 ') has openings (32) which lie in the release position of the plate (31, 31') over the tumbler channels (12). Lock cylinder according to one or more of claims 1 to 3, characterized in that the closure means (30, 30 ') or the plate (31, 31') is arranged in a recess (22) in the stator (21). Lock cylinder according to one or more of claims 1 to 4, characterized in that the inner contour of the closure means (30, 30 ') or the plate (31, 31') is adapted to the outer contour of the outer surface (13) of the rotor (11) in terms of shape. Lock cylinder according to one or more of claims 1 to 5, characterized in that a control means (15) is arranged on the rotor (11). Lock cylinder according to one or more of claims 1 to 6, characterized in that the control means is designed as an annular control surface (15) which is arranged on the head part (14) of the rotor (11). Lock cylinder according to one or more of claims 1 to 7, characterized in that at the end (36) of the closure means (30, 30 ') or the plate (31, 31') which faces the head part (14) of the cylinder core, a scanning element (34) is arranged, which scans the control surface (15) when the rotor (11) rotates in the stator (21). Lock cylinder according to one or more of claims 1 to 8, characterized in that at least one spring-elastic element (34) is arranged on the closure means (30, 30 ') or the plate (31, 31'), over which the plate (31 , 31 ') or the closure means (30, 30') against an end face (24) of the recess (22).

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