EP3117056A1 - Locking cylinder for a lock device - Google Patents

Abstract

The invention relates to a locking cylinder (10) of a lock device (100) having a cylinder core (20) which is mounted in a cylinder housing (30) rotatable around a locking axis (22), wherein at least three locking members (40) are arranged in the cylinder core (20) along the locking axis (22) spaced apart from each other by locking member spacings (42a, 42b, 42c), wherein the locking members (40) lock the rotation of the cylinder core (20) in a locking position and release the rotation of the cylinder core (20) in a release position, and wherein the cylinder core (20) has a keyway (24) for the insertion of a key (200) to move the locking members (40) between the release position and the locking position, wherein at least two locking member spacings (42a, 42b, 42c) are designed to be dissimilar.

Description

 Locking cylinder for a lock device

Description

The present invention relates to a lock cylinder of a lock device according to the preamble of claim 1, a corresponding lock device according to claim 9, in particular for a vehicle, a method for the production of a lock cylinder according to claim 10 and an insertion method according to claim 1 1 for the insertion of a key in a keyway of a lock cylinder.

It is known that for locking doors, especially in vehicles, lock cylinders are used for a mechanical lock device. In this case, such lock cylinders usually have a cylinder core which is mounted rotatably about a locking axis to a housing. Depending on the configuration, a plurality of blocking elements are provided, which can prevent or release the rotation of the cylinder core between a blocking position and a release position. This way is a Lock or unlock the door provided with the corresponding lock device possible. In order to move the individual blocking elements back and forth between the release position and the blocking position, a correlating mechanical key is usually necessary with the geometric dimension of the blocking elements. In this case, the individual locking elements are often biased with spring devices in the direction of the locking position.

A disadvantage of known lock cylinders is that upon insertion of the key into the corresponding key channel, the insertion force from locking member to locking member increases, which is sometimes considered to be hooking and thus disturbing. In other words, the key is inserted into the keyway, reaching the first locking member. The first locking member is displaced by the key in the keyway usually against a bias of a spring device. This spring force must be overcome when inserting the key. Upon further insertion of the key in the key channel this meets the second locking member, while all other locking members have a uniform blocking member spacing from each other. This means that when the second locking member is reached by the key, the first and second locking members lock together in the key. When moving further now a displacement of both locking members must be done simultaneously against corresponding spring biasing forces. This problem continues as you continue to insert the key with the following lock. In other words, a summation of the individual biasing forces will take place from position to position, ie from blocking element to blocking element, so that the resistance, which is opposed to the introduction of the key, increases gradually until the final insertion position of the key is reached. This is often uncomfortable for the user when inserting the key. The increased force may also lead to a risk of hooking the key thus to mechanical misconduct. In addition, an increase of the force will also lead to increased friction situations between the individual locking passages and the locking bit of the key. Over longer periods of use, this can lead to abrasion and, accordingly, also to the risk of mechanical failure.

It is an object of the present invention to at least partially overcome the disadvantages described above. In particular, it is an object of the present invention to improve the applicability of the lock cylinder in a cost effective and simple manner. It is also an optional object of the invention to increase the comfort when using the lock cylinder according to the invention.

The above object is achieved by a lock cylinder with the features of claim 1, a lock device with the features of claim 9, a method having the features of claim 10 and an insertion method with the features of claim 1 1. Further features and details of the invention will become apparent from the dependent claims, the description and the drawings. In this case, features and details that are described in connection with the lock device according to the invention, the method according to the invention and the insertion method according to the invention and the lock cylinder according to the invention, of course, also in connection with the other object and in each case vice versa, so that with respect to the disclosure of the individual invention aspects is always mutually referenced or can be.

According to the invention, a lock cylinder of a mechanical lock device is provided. This lock cylinder has a cylinder core, which is mounted rotatably about a locking axis in a cylinder housing. In the cylinder core at least three locking members along the locking axis are arranged one behind the other spaced by locking rod distances. The locking members release the rotation of the cylinder core in a release position and lock the rotation of the cylinder core in a locked position. Further, the cylinder core on a keyway for the introduction of a key for the movement of the locking members between the release positions and the locking positions. A locking cylinder according to the invention is characterized in that at least two locking member distances are unequal.

In order to mechanically transmit the rotational movement of the cylinder core when using the appropriate key in the keyway, a driver on the cylinder core, in particular a shaft on the cylinder core, is provided. This driver can mechanically interact mechanically with a Gegenmitnehmer on the mechanical lock device or other components. An inventive lock cylinder can be based on known locking cylinders in terms of its basic closing and locking functionality. In this case, different actual mechanical embodiments of the blocking elements can be used. The most common locking members, both of which are conceivable as possibilities for carrying out the present invention, are, on the one hand, locking members in the form of pins, which are inserted from outside into the cylinder core. The pins of a locking member are at least two parts and have a guide means and a core, wherein the guide means (also called housing pin) for guiding the core and the core directly with the key or a recess in the key, especially in the key bit, mechanically cooperates , On the other hand, blocking elements in the form of closing plates (plate-shaped blocking elements) are conceivable, which interact mechanically with the key, in particular the key bit, and are completely accommodated within the lock cylinder and unfold the blocking effect radially outward. However, also here in these examples not included technical solutions for the locking members are conceivable, provided that they do not leave the basic methodology of a lock cylinder. Also, a combination of the two previously presented embodiments of the locking members (pins / closing plates) in the present invention is conceivable, whereby the burglar resistance is increased.

It is also conceivable that individual blocking elements of a lock cylinder according to the invention differ significantly in their design form and / or in their geometric dimensions. Thus, just the length of the pin-shaped blocking members, in particular the length of the guide means and / or the core, vary in order to achieve an increase in the closing possibilities.

It is also possible that the key, in particular the key bit, itself has a profile with longitudinal grooves, which is designed exclusively geometrically complementary to the keyway in the lock cylinder. In this way, it can be ruled out in advance that each key with its corresponding key bit can be inserted into the key channel. Thus, only key with the geometrically complementary designed (cross-sectional) profile can be introduced into the keyway in the lock cylinder, whereby the break-up security can be further improved. It is advantageous if the locking devices described later are provided in each case in order to provide a bias in the direction of the blocking position. However, this is not necessarily necessary. Rather, it may be sufficient in individual cases, if individual blocking elements are already moved by gravity into the respective blocking position or are arranged in this.

According to the invention, the blocking element distances are at least partially unequal. Under a barrier distance is the distance between individual locking members to understand each other, which is aligned along the locking axis of the cylinder core. If, for example, the blocking elements are designed as locking pins projecting from the cylinder housing into the cylinder core, these pins are usually provided with a tip. The distances between these two adjacent peaks define the respective gate distance. In this case, the blocking elements can be arranged in different directions in the lock cylinder, so that they also act in different directions on the key. However, it is also conceivable that all locking elements act on the key from the same direction. Only all blocking elements from the same direction can act on the key. It is also conceivable that, in particular, the blocking elements are arranged along an insertion axis of the key, which extends parallel or on the locking axis. The insertion axis of the key is to be understood as the axis which is defined by the insertion movement of the key during insertion into the keyway.

If a key is inserted into the keyway, it will cooperate with all locking devices at its final insertion position. In other words, the cam of the key corresponding recesses, which coincide with the respective position of the respective locking member at the full insertion position of the key. In the radial direction are in the key insertion in this way in the insertion of the key, the locking members are moved to a position corresponding to the respective release position with the key. Only in this case, according to the release action of the lock cylinder, a rotation of the cylinder core within the cylinder housing and, accordingly, unlock the locking device possible. The barrier element distances differ according to the invention decisively from known lock cylinders. Thus, at least two of the blocking member distances are formed unequal. This means that at least two gate distances are different. As a result, when the key is inserted into the key channel, it is not possible to accumulate the individual forces when displacing the blocking elements. Rather, preferably no coincidence of correlations of the Schließbarts of the key with corresponding positions of the locking members is possible. It is preferred if all blocking elements are formed unequal to each other. As a result, during the entire insertion process of the key into the keyway, until reaching the final insertion position of the key, only a single blocking element always engages in a respective locking position of the key lock key.

It should be noted that in principle during insertion of the key, a permanent displacement of the locking members by the cam of the key takes place after exceeding the respective locking member position. However, especially in the provision of a spring device, the engagement of the respective locking member at a locking position of the Schließbarts the key a noticeable force on the key. Thus, for example, when inserting the key into a lock cylinder according to the invention, the first locking member will first engage in a corresponding locking position of the lock key of the key. This is also felt haptically by the user of the key on the key itself. In the further procedure during insertion of the key now leaves the locking position and displaces the locking member in its first position again against the biasing force of the spring device. Subsequently, the foremost locking position of the Schließbarts of the key reaches the second locking member. Due to the unequal design of the locking members, however, the first locking member is not or already no longer in engagement with the second locking position of the lock key of the key at this time and to this position of the key. Likewise, the further insertion of the key follows until the final insertion position. In this final insertion position of the key now all locking positions of the Schließbart the key are correlated with the corresponding positioning of the locking members.

By the above terminology (lock position of the key of the key), it is understood that a key usually has various recesses on the cam having. These depressions define the respective release position in correlation with the key for the respective obturator. These locking positions are thus intermediate positions or latching positions which can be perceived haptically during insertion of the key by correlation with the locking member, in particular when using a spring device. The inventive avoidance of cumulation of individual spring biasing forces when moving the locking members, a reduction of the forces occurring during insertion can be achieved. This reduces the risk of mechanical misconduct. It is also possible in this way to give a defined haptic feedback for the corresponding position situation of the key when it is inserted into the key channel. Also, an additional security function can be performed in this way, as well as the individual distances, provide in the form of the blocking member distances, a coding of the lock cylinder.

According to the invention, the individual blocking elements may preferably be formed from a hard and / or hardened material. Of course, additional security measures are conceivable. Thus, for example, a so-called drilling protection (also called boring plate) can be arranged to protect against drilling, in particular in the area of the key opening or around the key opening or in the area of the key channel. This drill plate can be designed rotationally symmetrical and cooperate with a locking lug as a predetermined breaking point. In a drilling test on the locking lug, which can be arranged in particular on the lock cylinder and holds the drill plate in a predefined rotational position, breaks off when the rotating drill meets the Aufbohrplatte. Then the boring plate starts to rotate with the drill. As a result, the drill can not penetrate further into the keyway, as it no longer unfolds drilling action.

In addition, it is conceivable that the cylinder core is provided with a safety cap having a geometric opening in the form of a cross section of the keyway. Thus, it is impossible to insert objects larger than the cross-section of the key of the key into the keyway. Ideally, the safety cap is made of a hardened material, particularly hardened steel, to complicate the drilling of the cylinder core and to avoid the introduction of Aufbruchswerkzeuge in the keyway. Also, the safety cap can be porcelain or a Composite to increase safety. Ideally, the safety cap is positively connected to the cylinder core.

The unequal formation of at least two locking device distances also brings with it an additional possibility of variation. Thus, it is possible by different inequalities of the blocking device distances, in particular different longitudinal distances of the locking members to each other, to increase the lock code variant variety in different lock devices. The flexibility for use thus increases by the inventive design. In addition to the (geometric) variation of the locking positions of the individual blocking elements, a further variation possibility is thus available, so that the mathematical product of these two possibilities of variation results in a significant increase in the variety of variants.

Next, the burglar resistance is increased by the inventive design of a lock cylinder. Thus, the opening-up method of the so-called "picking", ie the sensing and individual depression of the blocking elements with corresponding tools, in particular with regard to the finding of the position of the respective blocking member, is made more difficult The purely functional advantages can thus increase the inventive design of the lock cylinder and the burglar resistance.

It may be advantageous if, in a lock cylinder according to the invention, all the blocking element distances are unequal. The advantages explained with reference to claim 1 can be achieved in this way for all blocking gate distances. In other words, the advantages according to the invention can thus be achieved for the entire insertion process of the key into the key channel. For example, a plurality of usually up to ten locking members may be provided. Thus, up to nine locking member distances are provided, which are all formed unequal to each other. This is to be understood that no barrier member spacing corresponds in terms of its geometric extent to another of the remaining blocking member distances. Moreover, it is advantageous if, in the case of a lock cylinder according to the invention, all unequal locking member distances differ from one another by the multiple of a single difference parameter. A difference parameter is, for example, a fixed geometric extent value. For example, a millimeter can be selected as the difference parameter. This means that all the blocking device distances differ from each other by one millimeter or multiples of one millimeter. Here, the multiple is to be understood as the integer multiple of the only difference parameter. In this way, a facilitated production is possible. Also ensures in this way safely and easily that the intermediate position, which correlates with the respective locking position of the Schließbarts of the key, do not coincide with each other and thus the desired effect according to the invention can be achieved. Due to the distinction between the individual locking element distances to a single difference parameter, the structural design of a lock cylinder according to the invention is also simplified.

Another advantage can be achieved if, in a lock cylinder according to the invention, the unequal barrier gate distances differ from each other by non-integer multiples. This means that even unwanted collapsing can be completely ruled out by unequal locking devices. Thus, not only is the fundamental difference of the barrier element distances defined in this particular embodiment, but rather additionally stipulated that the difference also excludes integer multiples with regard to the distinction. This ensures that when skipping individual key positions, for example, that the second and sixth intermediate positions can not coincide in a cumulative manner. This ensures that, even with a high number of blocking organs, all blocking element distances in accordance with the invention can never coincide in a cumulative manner during the entire insertion process.

A further advantage can be achieved if, in the case of a lock cylinder according to the invention, at least one spring device is provided for each locking member, which acts on the respective locking member in the direction of the respective locking position with a spring force. In particular, a coil spring may be provided for the respective spring device. Depending on the actual structural design of the respective locking member can thereby Be configured spring device accordingly. In particular, the two main types are to be distinguished, as they are explained in more detail in the following paragraph. The basic use of a spring device makes it possible to design a lock cylinder according to the invention in terms of its functionality, regardless of the positional orientation relative to the direction of gravity. The flexibility for the use of a lock cylinder according to the invention is increased in this way.

When lock cylinder according to the preceding paragraph, it may be advantageous if the spring devices of all locking elements are arranged in the cylinder core or in the cylinder housing. These are in particular the two main types of lock cylinder according to the invention. Thus, the corresponding locking member may be formed, for example, as a closing plate within the cylinder core. Corresponding spring devices also in the cylinder core press the closing plates in their locking position radially outward. Only by correspondingly functional interaction with the individual locking positions of a locking bar of a key, contrary to the respective spring device, the closing plate can be moved as a blocking member in the release position. If the blocking elements are designed as locking pins, they usually protrude radially from the outside out of the cylinder housing into the cylinder core. The corresponding spring devices are accordingly arranged in the cylinder housing. Also in this variant, by moving the locking members against the spring force of the respective spring device by the insertion of the key, a displacement of the locking members in the release position.

It is also advantageous if, in the case of a lock cylinder according to the invention, at least three locking elements are arranged along the locking axis on a first insertion axis of the key, at least three further blocking elements being arranged along the locking axis on a second insertion axis of the key. An orientation along the locking axis is to be understood in the sense of the present invention that the blocking elements are arranged on or parallel to the locking axis. Since the insertion process of the key usually follows a straight line in a straight line, the locking members are thus on a first insertion axis, which runs as a straight line parallel to or on the locking axis. For higher security requirements, it is of course also possible that two or more insertion axes, each with at least three locking members in the inventive training are provided. Thus, the quality of the invention is combined with higher complexity of the locking mechanism and in this way with a higher security. The different insertion axes are arranged parallel to each other and to the locking axis. In particular, the insertion axis from each other radially, so perpendicular to the insertion direction of the key, spaced.

Likewise provided by the present invention is a lock device, in particular for a vehicle, in particular a motor vehicle, comprising at least one lock cylinder according to the invention. Thus, the invention also includes a vehicle lock device or motor vehicle lock device with the lock cylinder according to the invention. The vehicle lock device can be designed as a mechanical steering wheel lock or as a door lock or trunk lock. Accordingly, a lock device according to the invention brings the same advantages as have been explained in detail with reference to the lock cylinder according to the invention. Such a lock device can form, for example, the door lock, the steering wheel lock or the trunk lock of a vehicle. In this case, such a lock device may of course have other mechanical components, such as bolts or locking lever.

Another object of the present invention is a method for the production of a lock cylinder, in particular according to the present invention, comprising the following step:

- Arrangement of at least three locking members in a cylinder core of the lock cylinder at a spacing around locking member distances, wherein at least two locking member distances are formed unequal.

Due to the unequal design of the barrier element distances, the same advantages are achieved in a method according to the invention by the production of a lock cylinder, as have been explained in detail with reference to a lock cylinder according to the invention. Another object of the present invention is an insertion method for inserting a key into a keyway of a Locking cylinder, in particular according to the present invention, comprising the following steps:

- Align the key on the key channel

 - Introduce the key into the keyway with movement of at least three locking members against spring forces, wherein until reaching the full insertion position of the key substantially always only one locking member is moved.

An insertion method according to the invention preferably brings about the same advantages as have been explained in detail with reference to a lock cylinder according to the invention. During insertion, the entry and engagement points do not coincide with the respective locking position of the key lock key, so that accumulation of the forces in the reaction to the correlation with the individual locking elements is substantially completely avoided.

Further advantages, features and details of the invention will become apparent from the following description in which, with reference to the drawings, embodiments of the invention are described in detail. The features mentioned in the claims and the description may each be essential to the invention individually or in any desired combination. It show schematically

Fig. 1 shows a first embodiment of a lock cylinder according to the invention

 Inserting the key,

2 shows the embodiment of FIG. 1 of the first locking member in a locking position,

Fig. 3 shows a similar embodiment to Figs. 1 and 2 when reaching the second

 Blocking organ in a blocking position,

Fig. 4 shows the embodiment of Fig. 3 upon reaching the third locking member in a

Lock position, 5 shows the embodiment of FIGS. 3 and 4 upon reaching the final insertion position of the key,

6 shows an accumulation of the forces according to known lock cylinders,

7 shows the force situation in a lock cylinder according to the invention,

Fig. 8 is a three-dimensional schematic view of an inventive

 Cylinder cores with closing plates as blocking elements,

9 is a schematic cross section through the cylinder core of Fig. 8,

10 shows a three-dimensional cross section through the cylinder core according to the invention

 8 in the region of a drilling protection, in particular in the form of a Aufbohrplatte,

Fig. 1 1 is a schematic representation of a steering wheel lock with the lock cylinder according to the invention and

12 is a side view of a vehicle with a door lock according to the invention and / or a boot lock according to the invention.

In the following figures, the identical reference numerals are used for the same technical features of different embodiments.

1 to 5 show a lock cylinder 10 according to the invention of a lock device according to the invention 100. In this embodiment, four locking members 40 are provided, which are arranged only on an insertion axis of the key 200 and parallel to each other and to the locking axis 22 to a better overview of To enable invention. The locking members 40 are arranged radially movable in a cylinder core 20 and can move between a locking position and a release position. In this case, spring devices 44 are arranged in a cylinder housing 30, which perform a loading of the locking members 40 in its locked position. At the same time, the cylinder core 20 is basically around its locking axis 22 rotatably received in the cylinder housing 30. Inside the cylinder core 20, a keyway 24 for inserting a key 200 is provided.

The blocking elements 40 shown in FIGS. 1 to 5 are of pin-shaped construction and have a guide means 40a, loaded by the respective spring device 44, for a core 40b. The core 40 b directly interacts with recesses 202 on the key 200, in particular on the key bit 201, in order to be able to actuate the lock cylinder with the correct key 200.

The method of inserting the key 200 and the corresponding effect according to the invention will now be explained with reference to FIGS. 1 to 5. Initially, the key 200 is aligned with the key channel 24, as shown in FIG. 1. During insertion, the key 200 subsequently sequentially engages the four locking members 40. First, the leftmost locking member 40 is moved radially outward against the spring bias of the spring device 44 until a first engagement occurs in the first locking position of the key bit of the key 200 , as shown in FIG. 2. Also, a fundamental compression movement of the second locking member 40 has already taken place at this time. From this first perceptible latching position as the locking position of the key 200, a moving out of the left-hand first blocking member 40 from this blocking position must take place again. As it progresses, this feels the inserter of the key 200 in a haptic manner. As the movement proceeds, the second locking member 40 next comes into contact with the first locking position of the locking key of the key 200, as shown in FIG. In this position of the key, no other locking member 40 is in contact with a corresponding locking position of the key 200. If a further movement of a key 200 takes place again, the blocking member 40 according to FIG. 4 is in a locked position as the next locking position. Again, it can be seen that only the second locking member 40 from the right now cooperates with a locking position of the key 20. The remaining blocking elements 40 are not in contact with a corresponding blocking position of the Schließbarts of the key 200. Finally, a further movement into the insertion position shown in FIG. 5. This is the first time of the entire insertion process in which now all the locking members 40 locally with a corresponding locking position of Lockablents of the key 200 correlate and thus simultaneously or substantially simultaneously lock. As the locking members 40 have corresponding positions within the lock cylinder 10, the lock bit of the key 200 has corresponding locking position through the corresponding recesses on the key 200. During insertion, the avoidance of coincident blocking positions results in an improved force progression situation, as will be explained later with reference to FIG. The above functionality is achieved in that the individual blocking element spacings 42a, 42b and 42c are designed to be unequal to each other here. In addition, the individual blocking device spacings 42a, 42b and 42c are different here in such a way that they can not be distinguished from one another by an integer multiple.

The embodiment of FIGS. 1 and 2 differs from the embodiment of FIGS. 3 and 4 exclusively by the representation of a profile 203 with longitudinal grooves in the key bit 201. However, to illustrate the invention as clearly as possible, was on the further representation of the profile 203 omitted with longitudinal grooves in the key bit 201.

With reference to FIGS. 6 and 7, the effect according to the invention is clarified with regard to the noticeable force on the key. While Fig. 6 shows a known solution in which the individual locking element spacings 42a, 42b and 42c are uniformly distributed, Fig. 7 shows a corresponding force curve in accordance with the invention. In Fig. 6, ie in known lock cylinders is now visible that for reaching the respective locking position, the respective force to be overcome for the input key 200 cumulative increases. Conversely, according to the invention, such an accumulation is avoided, so that for each blocking position only essentially one single obturator has to be overcome. Although the total force is reached in the end in the same way, but in this way a higher difference during insertion in a haptic manner the final insertion haptically communicate to the respective user.

8 to 10, an inventive lock cylinder 10 is also shown with a cylinder core 20, wherein the locking members 40 are designed as closing plates 40c, which can be seen well with reference to FIG. 9. Thus, no pin-shaped locking members 40, as shown in FIGS. 1 to 5, used, but plate-shaped locking members in Shape of closing plates 40c. These are embedded in recesses 26 in the cylinder core 20, wherein the recess on the one hand longitudinal grooves 26.1, through which the closing plates 40c are mounted, and on the other hand radial openings 26.2, through which the respective spring devices 44 for the corresponding closing plate 40c can be mounted. According to the invention, the individual blocking members 40 with a different blocking member spacing 42a, 42b and 42c are also arranged in the cylinder core 20, which is clear from FIG. 8.

In addition, in the cylinder core 20 and a drilling protection 25 may be provided, which may be configured as a rotationally symmetrical plate made of hardened material. In this Aufbohrplatte 25 a rectangular opening is provided, which is geometrically complementary to the cross section of the keyway 24, and whereby the matching key 200 is feasible. In addition, the Aufbohrschutz 25 may have at least one free space 25.1, in which a locking lug 28 from the cylinder core 20 and / or a locking lug 29.1 of an insert 29 can engage. Conveniently, the locking lug 28 or the locking lug 29.1 configured by the insert 29 as a predetermined breaking point, which stop as soon as a Aufbohrversuch takes place while a drill penetrates through the keyway 24 to the Aufbohrschutz 25. Once the drill comes into contact with the Aufbohrschutz 25, the rotational forces are transmitted to the Aufbohrschutz 25, which is suitably rotationally symmetrical, in particular designed as a circular plate, whereby the Aufbohrschutz 25 begins to rotate. As a result, the drill can not penetrate further or deeper into the keyway 24.

In order to facilitate the mounting of the anti-drilling protection 25 in the cylinder core 20, the aforementioned insert 29 may additionally be used, which may also be optionally configured with a locking lug 29.1, which can be seen in FIG.

So that a rotational movement of the cylinder core 20 can be mechanically transmitted by the correct key 200 to other parts of a lock device 100, a driver 21 is provided, which can interact mechanically with a Gegenmitnehmer in the lock device 100. In the lock cylinder 10 according to the invention, the driver 21 is arranged in the form of a radial recess on a shaft 27 of the cylinder core 20, which is clear from FIGS. 8 and 10. In Fig. 9, the operation of the plate-shaped locking members 40 is shown in more detail. In this case, in the keyway 24, the matching key 200 is inserted, so that the closing plate 40c, which is shown in cross section, is completely retracted into the cylinder core 20 and does not form-fittingly project into a recess 30.1 from the cylinder housing 30 of the lock cylinder 10. Thus, the normally existing positive connection between the closing plate 40c from the cylinder core 20 and the cylinder housing 30 is released, so that the cylinder core 20 can rotate at least by this locking member 40 in the bore 30.2 in the cylinder housing 30. As can be seen well from FIG. 9, the plate-shaped blocking member 40c is spring-loaded by the spring device 44 in the cylinder core 20, whereby the closing plate 40c, in particular with a projection, automatically moves into the recess 30.1 from the cylinder housing 30, if not the appropriate one Key 201 is present in the key channel 24.

In Fig. 1 1, a lock device 100 according to the invention, in particular in the form of a steering wheel lock 103 is shown purely schematically. Here, an inventive lock cylinder 10 is used to control a locking member 103.1, which can cooperate positively with a steering column 151 from the vehicle 150. By using the steering wheel lock 103 according to the invention, the starting comfort of the motor vehicle 150 for the driver can be improved without, however, reducing safety, in particular breaking safety.

FIG. 12 shows a side view of a vehicle 150, in particular in the form of a motor vehicle 150, wherein at least one lock device 100 according to the invention in the form of a door lock 101 is used on a side door. Optionally or additionally, the lock device 100 according to the invention in the form of a trunk lock 102 can also be used in the vehicle 150 according to the invention.

The above explanation of the embodiments describes the present invention solely by way of examples. Of course, individual features of the embodiments, if technically feasible, can be combined freely with one another, without departing from the scope of the present invention. B ez ugs zeenlis te lock cylinder

 cylinder core

.1 openings for 40

 takeaway

 locking axis

 safety cap

 keyway

 Drilling protection, in particular boring plate

.1 free space in 25

 Recess for 40

.1 groove for 40c

.2 opening for 44

 shaft

 locking tab

 commitment

.1 locking nose

 cylinder housing

.1 recess for 40

.2 hole for 20

 blocking member

a guide for 40b

b core of 40

c closing plate / plate-shaped blocking element

a gate distance

b Barrier clearance

c Barrier gap

 spring device

0 lock device, in particular motor vehicle lock device1 door lock

2 trunk lock

3 steering wheel lock

3.1 locking member

0 vehicle, in particular motor vehicle

1 steering column

0 key

1 key beard 202 recess for 40

203 profile if necessary with longitudinal grooves S way

 F force

Claims

P a n t a n s p r e c h e

Lock cylinder (10) of a lock device (100), comprising

a cylinder core (20) which rotatable about a locking axis (22) in a

Cylinder housing (30) is mounted,

wherein in the cylinder core (20) at least three locking members (40) along the locking axis (22) are spaced from one another by blocking member distances (42a, 42b, 42c),

wherein the blocking members (40) in a blocking position lock the rotation of the cylinder core (20) and release the rotation of the cylinder core (20) in a release position, and wherein the cylinder core (20) has a keyway (24) for inserting a key (200). for the movement of the blocking members (40) between the release positions and the blocking positions,

characterized in that

at least two blocking member distances (42a, 42b, 42c) are formed unequal.

Lock cylinder (10) according to claim 1,

characterized in that

all blocking gate distances (42a, 42b, 42c) are formed unequal.

Lock cylinder (10) according to one of the preceding claims,

characterized in that

all unequal bar gate distances (42a, 42b, 42c) differ from one another by the multiple of a single difference parameter.

Lock cylinder (10) according to one of the preceding claims,

characterized in that

the unequal barrier gate distances (42a, 42b, 42c) differ from one another by non-integer multiples.

5. lock cylinder (10) according to one of the preceding claims,

 characterized in that

 for each blocking member (40) at least one spring device (44) is provided which acts on the respective blocking member (40) in the direction of the respective locking position with a spring force.

6. lock cylinder (10) according to claim 5,

 characterized in that

 the spring devices (44) of all blocking elements (40) are arranged in the cylinder core (20) or in the cylinder housing (30).

7. lock cylinder (10) according to one of the preceding claims,

 characterized in that

 at least three locking members (40) along the locking axis (22) on a first insertion axis of the key (200) are arranged, wherein at least three further locking members (40) along the locking axis (22) on a second insertion axis of the key (200) are arranged.

8. lock cylinder (10) according to one of the preceding claims,

 characterized in that

 at least one in particular rotationally symmetrical Aufbohrschutz (25) in the region of the keyway (24) is arranged, which cooperates mechanically in particular with a locking lug (28) as a predetermined breaking point.

9. lock device (100), in particular for a vehicle (150),

comprising at least one lock cylinder (10) having the features of one of claims 1 to 8. Method for the production of a lock cylinder (10),

in particular with the features of one of claims 1 to 8, comprising the following step:

 - Arrangement of at least three locking members (40) in a cylinder core (20) of the lock cylinder (10) spaced from each other by locking rod spacings (42a, 42b, 42c), wherein at least two locking rod spacings (42a, 42b, 42c) are formed unequal.

An insertion method for inserting a key (200) into a keyway (24) of a lock cylinder (10),

in particular with the features of one of claims 1 to 8, comprising the following steps:

 Aligning the key (200) with the keyway (24),

 Inserting the key (200) in the keyway (24) with movement of at least three locking members (40) against spring forces, wherein until reaching the full insertion position of the key (200) substantially only one locking member (40) is moved.