1. Field of the Invention
The invention relates to a locking system. The field of application of the invention is directed at locking devices for motor vehicles, which according to the invention form a locking system of several locking devices.
2. Description of the Background Art
From DE 199 44 070 C2 a locking device is known with a key produced for the locking device, wherein the key has surface sides and narrow sides, on which code tracks are arranged on both surface sides of the key in a rotationally symmetrical manner to the longitudinal axis of the key. On each of the two surface sides a profile typifying the key is respectively attached in the region of an edge. These profiles on both surface sides of the key are likewise arranged in a rotationally symmetrically manner to one another. Through the rotationally symmetrical arrangement of the code tracks and the profiles, the key can be inserted into the key channel of a lock cylinder in both possible insertion positions. The profile typifying the key is thereby sunk into the key on at least one of the narrow sides in the form of a groove closed on three sides, and the groove is closed towards the surface sides of the key.
DE 10 2005 042 617 A, which corresponds to U.S. Pat. No. 7,690,232, describes a locking device, likewise composed of a lock cylinder and a key. A cylinder core, which has tumblers, rotatably supported in a cylinder housing belongs to the lock cylinder. The coding of the key is generated by a profiled recess, which extends in the longitudinal direction of the key. The individual tumblers have scanning points, which generate a countercoding corresponding to the key coding. In order to guarantee a higher degree of safety with respect to the locking device being forced open, it is proposed to provide a new beveled edge coding in the corner strips of the edge profile of the key. This is composed of bevel cuts of differing depth. A bevel scanning point in at least one tumbler is assigned to one section of the beveled edge coding. This tumbler then acts as a beveled tumbler, which is additionally added to the tumblers of the standard configuration. The variation variety of the key can thus be increased.
From DE 10 2005 042 618 A, which corresponds to U.S. Pat. No. 7,870,771, a locking device is known, in which there are profiled recesses extending in the longitudinal direction of the key, which recesses produce a pair of scanning points for coding the key for each tumbler. Accordingly, each tumbler has a pair of cooperating scanning points, which have a corresponding countercoding. For an improved coding, it is proposed to arrange the one of the two scanning points on the one side surface of the key, while the other is located on the adjacent side surface. This pair of scanning points is produced by an angular recess in the two side surfaces, between which then a web remains in the corner region of the edge profile of the key. Opposite web flanks then are used for the coding of the key, which is why the web is to be considered as a code web. The tumblers have a cutout, which in case of use grips around the code web of opposite web flanks. The cutout border then serves as a cooperating scanning point of the respective tumbler.
Finally, DE 10 2007 014 900 A1 is known. The locking device likewise comprises a key and a lock cylinder. The lock cylinder is composed of a stationary cylinder housing and a cylinder core, rotatably supported therein. In order to increase the safety with respect to being forced open, it is proposed in the cylinder core to use two types of plate tumblers, the displacements of which point in two radial directions differing from one another. The key has flat outer surfaces arranged at an angle to one another, to which the two types of plate tumblers can be displaced in a parallel manner. Each of the two adjacent outer surfaces has its own linear control track, which varies for coding the key in adjacent key sections transverse to the key longitudinal direction. Accordingly, the plate tumblers have a pair of cooperating scanning points arranged in a defined position, which, when the key is inserted, interact with the associated control track and produce a countercoding in the lock cylinder analogous thereto. Each of the two types of plate tumblers engages on its own control track.
Due to the increased use of electronic access systems, in future mechanical locking systems will be used increasingly in redundancy. However, this means an increase in demands for anti-theft measures, since the classic attack always relates to the mechanical system first, if there is no longer any possibility of prevailing electronically.
It is therefore an object of the invention in an embodiment to provide a variable locking system, which is characterized by a high variability of possible locking devices belonging to a locking system, wherein it is possible to embody each locking device in a variable manner in order to provide a high degree of safety with respect to being forced open.
In an embodiment, two locking devices of a locking system can be actuated with one and the same key, wherein the key in the insertion direction can be inserted axially into a key channel of a cylinder core of a lock cylinder of the respective locking device, whereby at least two types of plate tumblers arranged in the cylinder core are radially displaceable to the axial cylinder axis and can be separated in the cylinder core such that the cylinder core is freely rotatable with respect to a cylinder housing, to which end the key has at least two control tracks, by means of which the scanning of scanning points provided on the key is possible in at least two scanning planes lying one behind the other respectively transverse to the insertion direction.
To increase the safety with respect to being forced open and to increase variability it is provided that both types of plate tumblers can be scanned and separated by means of a key in at least one of the at least two scanning planes, so that the arrangement of one type of the two plate tumblers in at least this one scanning plane is freely selectable in order to embody a multiplicity of locking devices with cylinder cores, adapted to the free selection of the plate tumblers, with associated cylinder housings, which can be actuated with one and the same key.
Five locking systems in five different embodiments, in part in several embodiment variants, which respectively follow the features of claim 1, are explained in greater detail below based on the above-mentioned prior art.
A locking system has a key, by means of which several, at least two locking devices, which are usually embodied as a lock cylinder, can be actuated.
Further scope of applicability of the present invention will become apparent from the detailed description given hereinafter. However, it should be understood that the detailed description and specific examples, while indicating preferred embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from this detailed description.
The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawings which are given by way of illustration only, and thus, are not limitive of the present invention, and wherein:
In the explanation of the prior art and the explanation of the invention below the term “key” refers to the key bit
As
These plate tumblers 5A move with respect to the axial cylinder axis 7 of the cylinder core 4 in a spring loaded manner by an arranged spring element 3A in the radial direction, according to
Several of such spring-loaded plate tumblers 5 of type 5A are arranged in notional scanning planes lying one behind the other in the direction of the cylinder axis 7, lying transversely to the cylinder axis.
With the insertion of the key 2 into the cylinder core 4 in an insertion direction E, the key 2 separates the plate tumblers 5A respectively against a spring force of associated spring elements, not shown, such that the plate tumblers 5A are guided out of blocking recesses or blocking channels of the cylinder housing 3 arranged in the cylinder housing 3 or in a freewheel sleeve 4A so that the cylinder core 4 or the cylinder core 4 in the freewheel sleeve 4A is rotatable with respect to the cylinder housing 3, whereby the locking device 1 can be actuated. The coding, that is, the separation of the plate tumblers 5A takes place in the prior art via the control groove 8, which in
If a control groove 8 is also arranged in a mirror image manner on the opposite side of the wide key side 2B, the key according to the prior art of
Regardless of which of the narrow sides 2S according to
As
The plate tumblers 5 of the second type 5B are displaced by a second control track 9 in the manner of a control rib, wherein this control rib 9 is arranged on the narrow side 2S of the key 2.
If the key 2 is inserted in the insertion direction E in the cylinder core 4 shown in
The control tracks 8, 9, that is, the control groove and the control rib, are embodied such thereby that, viewed in the direction of the cylinder axis 7, in the different notional planes lying in the insertion direction E transverse to the cylinder axis 7, in the control groove 8 and on the control rib 9 in each plane precisely one scanning point of the key 2 for only one type of plate tumbler 5A or 5B is provided. In each scanning plane only one scanning point is embodied on the key, which scanning point corresponds to a cooperating scanning point on the plate tumbler 5A or 5B. Through the shaping of the control groove 8 and of the control rib 9 it is established from the start which type of plate tumbler 5A or 5B in the respective scanning plane can be scanned by precisely one scanning point present in the scanning plane. This arrangement restricts the variability of the arrangement of the plate tumblers in the respective scanning plane and limits the safety with respect to being forced open.
In the first scanning plane the control groove 8 scans the first plate tumbler 5A. The control rib 9 does not have any function in the first scanning plane. In the second scanning plane the control rib 9 scans the first plate tumbler of the second type 5B. The control groove 8 then has no function here. In each scanning plane only one scanning point is always provided on the key 2 for one type of plate tumbler 5A or 5B, whereby it is once again clear that the coding possibilities or separating possibilities are limited to the number of plate tumblers 5A, 5B according to the number of the scanning planes present.
If a control groove 8 is likewise arranged in a mirror image manner on the opposite side of the wide key side 2B and a control rib 9 is likewise arranged in a mirror image manner on the opposite side of the narrow key side 2C, the key according to prior art of
Regardless of which of the opposite narrow sides 2S according to
The plate tumbler of the first type 5A is displaceable by the key 2, which can be inserted into the key channel 6, in a first radial direction of movement 7.1.
In
The following invention can be used for locking devices 1, regardless of whether a direct blocking takes place without free-turning sleeve 4A or an indirect blocking—for example via the free-turning sleeve 4A shown in
If the key 2 (not shown) is inserted into the key channel 6, the plate tumbler 5A is moved downwards in the radial direction of movement 7.1 according to
In the following description of the figures, identical reference characters are always used for identical components.
The arrangement of a vehicle seat inside a motor vehicle and the usual direction of travel thereof determine the following direction data. In or against the direction of travel corresponds to the x direction, the vertical direction in a vehicle is established with the z direction, wherein the axes run transversely to the direction of travel in the y direction.
The description with x, y, z direction data are only by way of example, however, and can change depending on the arrangement of a locking system in the motor vehicle and thus changeable direction of the key channel of the locking devices of the respective locking system.
In order to be able to specify displacement directions in a directionally neutral manner, the axial direction of the cylinder axis 7 is defined, starting from which the first radial and second radial direction of movement 7.1, 7.2 is fixed for the plate tumblers 5A, 5B, 5C, 5D.
Regarding the Cartesian coordinates of
Furthermore, a first cutting plane Dx/z is defined, which cuts the key 2 according to
Analogously thereto, a second cutting plane Dx/y is defined, which cuts the Key 2 or 8′ according to
In the following five embodiments, the explanation is based on a insertion direction E in the x direction.
The cohesive inventive concept lies in that to increase the safety with respect to being forced open and to increase the variability, at least one locking system Sn (S1, S2, S3, S4, S5) which is respectively described in greater detail below in five embodiments, is provided, that by means of a key 2 in at least one of at least two scanning planes 11n both types of plate tumblers 5A, 5B or 5A, 5C or 5C, 5D can be scanned and separated so that the arrangement of one type of the two plate tumblers 5A, 5B or 5A, 5C or 5C, 5D in this scanning plane 11n lying in the cylinder core 4 lying in the insertion direction E of the key 2 in the cylinder core 4 can be freely selected.
In contrast to the prior art, it is therefore not established from the outset which type of plate tumbler is arranged in such a scanning plane 11n.
In the following images the representation of the respective projection 5-1 on the plate tumblers 5A, 5B, 5C, 5D, on which respectively a spring element 3A is supported, is omitted. However, at the end of the description there will be a more detailed discussion of the importance of the spring element 3A, which is shown in
First Embodiment
First locking system S1 in a first embodiment variant according to
Firstly, the plate tumblers of the first and second type 5A, 5B according to
The opposite second groove flank 8B is thereby used as a forced guide for the tumbler nose 5A-1 of a plate tumbler 5A.
On the narrow side 2S of the key 2 the control rib 9 is arranged, which has a first rib flank 9A and a second rib flank 9B. The already described associated spring element, not shown, presses the plate tumbler 5 of the type 5B with its cooperating scanning point onto the scanning point of the first rib flank 9A, wherein the second rib flank 9B is used as a forced guide for the plate tumbler.
Thus the visible first groove flank 8A is the control groove of the plate tumbler of the first type 5A and the non-visible lower first rib flank 9A is the control flank of the plate tumbler of the second type 5B.
Along the key axis 7 lying in a rotationally symmetrical manner in the cylinder core 4 in various notional planes 111 through 1110 lying transversely to the key axis 7, scanning points 121 through 1210 are arranged on the first groove flank 8A and on the first rib flank 9A.
The special feature of the first locking system S1 in the first embodiment variant now lies in that in the first scanning plane 111 only one scanning point 121 is embodied on the first groove flank 8A for a plate tumbler 5 of the first type 5A. In this first scanning plane 111 now only one of the two types of plate tumbler 5A, 5B can be queried.
In the second scanning plane 112 however there is the possibility of querying the plate tumbler 5 of the first type 5A as well as the plate tumbler 5 of the second type 5B via their cooperating scanning points.
“Querying” means the scanning and separating of the cooperating scanning points of a plate tumbler by the scanning points of a key 2 inside the locking device, in particular of a lock cylinder.
To this end, the control rib 9 on the first rib flank 9A has a scanning point 122 for the plate tumbler 5 of the second type 5B. At the same time on the first groove flank 8A in the second scanning plane 112 a scanning point 122 for a plate tumbler 5 of the first type 5A is likewise embodied. Thus according to the invention it is possible in the second scanning plane 112 to query both types of plate tumblers 5A, 5B. In a cylinder core 4 the user, in establishing which plate tumbler 5 should be arranged in the second scanning plate 112, can freely choose whether he arranges the plate tumbler 5 of the first type 5A or the plate tumbler 5 of the second type 5B.
In both cases, with the insertion of the key 2 into the key channel 6 it is ensured that in one and the same second scanning plane 112 a query of the selected arranged plate tumbler of the first type 5A or of the second type 5B is made.
This sequence of scanning points 12n in a scanning plane 11n in which in one scanning plane 11n there is no selection of the type of plate tumbler 5 and in the next scanning plane 11n there is the selection of the type 5A or 5B of the plate tumblers, is continued in the key 2 shown in
To clarify the number of scanning points 12n that the key 2 offers in a scanning plane 11n, in the different scanning planes 111 through 1110 lines are shown in a one-dot dash sequence, that means possible scanning point 12n in a scanning plane 11n—or a two-dot dash sequence—that means two possible scanning points 12n in a scanning plane 11n.
Always when there is a one-dot line sequence, only one scanning point 122 is provided in this scanning plane 11n either for a plate tumbler of the first type 5A or the second 5B. If the line is shown with two dots and a dash (two-dot dash sequence), in this scanning plane two scanning points 122 are provided for an optional arrangement of a plate tumbler 5 of the first type 5A or of the second type 5B. This type of representation is used likewise in all further figures.
Analogously to the second scanning plane 112 thus in the eighth scanning plane 118 on the key 2 a scanning point 128 is provided for the cooperating scanning point of the plate tumbler 5A as well as for the cooperating scanning point of the plate tumbler 5B on the assigned first groove flank 8A or the first rib flank 9A.
This embodiment is also clarified in
One of these scanning points, namely scanning point 1210 in the scanning plane 1110 for the plate tumbler 5A, is marked separately. Starting from the second scanning plane 112, on the first rib flank 9A in the respectively second scanning plane 114, 116, 118 and 1110 a scanning point 122, 124, 126, 128 and 1210 is embodied. Thus in the respective scanning plane 112, 114, 116, 118 and 1110 it is freely selectable which of the plate tumblers 5 of the type 5A or 5B should be positioned with its cooperating scanning points in this scanning plane.
This results in the important advantage that the first locking system S1 can be composed of at least two key devices, which are characterized by differently arranged plate tumblers 5A, 5B. For each locking device equipped differently with plate tumblers in this manner, however, the same key 2 can always be used. For example, the same key 2 can be used for a first locking device as a key for a door lock cylinder and on the other hand for a second locking device as a key for an ignition and steering lock cylinder.
The first possibility thereby lies in embodying a locking device in which only plate tumblers 5 of the type 5A are arranged, the cooperating scanning point of which are queried via the scanning points 121 through 1210 of the first groove flank 8A of the first control track 8.
Furthermore, the second possibility lies in embodying a locking device in which only plate tumblers 5 of the type 5B are arranged, which are scanned via their cooperating scanning points on the scanning points 122, 124, 126, 128, 1210 of the first rib flank 9A of the second control track 9.
Finally, the third possibility lies in embodying a locking device in which both types of plate tumbler 5A, 5B are arranged, wherein in the scanning planes 112, 114, 116, 118, 1110 it is variably selectable which of the two plate tumblers 5 of type 5A or of type 5B are arranged, wherein in all possible embodiments the same key 2 can be used for at least two locking devices in order to separate the plate tumblers 5A, 5B via their cooperating scanning points such that the cylinder core 4 is rotatable with respect to the cylinder housing 3.
Moreover, as the top and bottom image of
As is not shown in
In the top diagrammatic image of
In the bottom diagrammatic image of
An arrangement of scanning points 12n (visible in
Due to this reversible key embodiment, it is irrelevant how the key 2 is inserted into the elongated key channel 6 provided for this purpose in the insertion direction E. The effects and advantages described are always retained.
With the insertion of the key 2 into a first position, the flanks 8A, 9A are used for scanning the cooperating scanning points of the plate tumblers 5 of the first and of the second type 5A, 5B, (two-track locking system).
With the insertion of the key 2 in a second position (reversible key position), the flanks 8A′, 9A′ are used for scanning the cooperating scanning points of the plate tumblers 5 of the first and of the second type 5A, 5B (two-track locking system).
First Embodiment
First locking system S1 in a second embodiment variant according to
The special feature of the first locking system S1 in the second embodiment variant, which is shown in
In the second scanning plane 112, now there is only the possibility of querying the plate tumbler 5 of the first type 5A. The control rib 9 does not have a scanning point 122 for the plate tumbler of type 5B on the first rib flank 9A of the second scanning plane 112. In a cylinder core 4 when establishing which plate tumbler 5 should be arranged in the first scanning plane 111 the user can freely choose whether he arranges the plate tumbler 5 of the first type 5A or the plate tumbler 5 of the second type 5B. In both cases with the insertion of the key 2 into the key channel 6 it is ensured that in one and the same first scanning plane 111 a query takes place of the cooperating scanning point of the selected plate tumbler 5A or 5B.
This sequence of scanning points 12n in a scanning plane 11n in which in one scanning plane 11n there is no selection of the type of plate tumbler 5 and in the next scanning planes 11n there is the selection of the type 5A or 5B of the plate tumblers, is continued in the key 2 shown in
Analogously to the first scanning plane 111 thus, for example, in the seventh scanning plane 117 a scanning point 127 is provided for the plate tumbler 5 of the first type 5A as well as for the plate tumbler 5 of the second type 5B on the assigned first groove flank 8A or the first rib flank 9A.
This embodiment is also clarified in
Starting from the first scanning plane 111, a scanning point 123, 125, 127 and 129 is embodied on the first rib flank 9A in the respectively second scanning plane 113, 115, 117 and 119. Thus in the respective scanning plane 113, 115, 117 and 119 it is freely selectable which of the plate tumblers 5 of the type 5A or 5B should be positioned in this scanning plane and should be queried via the respective cooperating scanning point.
This also results here in the important advantage that the first locking system S1 of the second embodiment variant can be composed of at least two key devices which are characterized by differently arranged plate tumblers 5 of the first and second type 5A, 5B. However, the same key 2 can be used for each of the locking devices provided in this manner.
The first possibility thereby also lies here in embodying a locking device in which only plate tumblers of type 5A are arranged which are queried via the scanning points 121 through 1210 of the first groove flank 8A of the first control track 8.
Furthermore, here too the second possibility lies in embodying the other locking device such that only plate tumblers of the type 5B are arranged, which are scanned on the scanning points 121, 123, 125, 127, 129 of the first rib flank 9A of the second control track 9. See, for example, one of these scanning points 129, 119 for a plate tumbler 5 of the type 5B of
Finally, the third possibility lies in embodying a locking device in which both types of plate tumblers 5A, 5B are arranged, wherein in the scanning planes 111, 113, 115, 117, 119 it can be variably selected which of the two plate tumblers of type 5A or of type 5B are arranged, wherein in all possible embodiments the same key 2 can always be used for at least two locking devices in order to separate the plate tumblers 5A, 5B via their cooperating scanning points such that the cylinder core 4 is rotatable with respect to the cylinder housing 3.
Moreover, as the top and bottom diagrammatic image of
As is not shown in
In the top diagrammatic image of
In the bottom image of
The possible visible scanning points 12n of a reversible key are again shown by the rectangles in the images of
Due to this reversible key embodiment, it is irrelevant here too how the key 2 is inserted into the elongated key channel 6 provided for this purpose in the insertion direction E. The effects and advantages described are always retained thereby.
With the insertion of the key in a first position, the flanks 8A, 9A are used for scanning of the cooperating scanning points of the plate tumblers 5 of the first and of the second type 5A, 5B (two-track locking system).
With the insertion of the key 2 in a second position (reversible key position), the flanks 8A′, 9A′ are used for scanning the cooperating scanning points of the plate tumblers 5 of the first and of the second type 5A, 5B (two-track locking system).
First Embodiment
First locking system S1 in a third embodiment variant according to
The locking system S1 according to
With the embodiment of the first locking system S1 according to the third embodiment variant, this results in the first possibility of embodying a locking device in which only plate tumblers of the type 5A are arranged, which are queried via the scanning points 121 through 1210 of the first groove flank 8A or the first groove flank 8A′, arranged in a mirror image manner, of the first control track 8, 8′. Then the key 2 can be used as before as a reversible key.
Furthermore, the second possibility here too lies in embodying a locking device in which only plate tumblers of the type 5B are arranged, which are queried at the scanning points 121, 123, 125, 127, 129 of the first rib flank 9A of the second control track 9 or the rib flank 9A′, not arranged in a mirror image manner, of the second control track 9′ via its cooperating scanning point. The key 2 can then no longer be used as a reversible key, however, since the control ribs 9, 9′ are not arranged in a mirror image manner.
Finally, the third possibility lies in embodying a locking device in which both types of plate tumblers 5A, 5B are arranged, wherein the plate tumblers 5A, 5B can be variably selected in all scanning planes 111 through 1110, because the plate tumblers 5 of the type 5B can be arranged interchangeably such that the plate tumblers 5 of the type 5B are scanned with their cooperating scanning point in a locking device of the second system S2 once in the scanning planes 112, 114, 116, 118, 1110 in the scanning points 122, 124, 126, 128, 1210 via the first rib flank 9A or in the scanning planes 111, 113, 115, 117, 119 in the scanning points 121, 123, 125, 127, 129 of another locking device belonging to the second locking system S2 via its cooperating scanning point on the first rib flank 9A′ not arranged in a mirror image manner.
Naturally, the plate tumblers 5 of the type 5B for this have to be arranged offset by 180° in every other scanning plane 111 through 1110 so that the tumbler groove 5B-1 can once query the cooperating scanning points of the plate tumblers 5 of the second type 5B via the first rib flank 9A in the scanning planes 111, 113, 115, 117, 119 with the scanning points 121, 123, 125, 127, 129 and another time the cooperating scanning points of the plate tumblers 5 of the second type 5B via the first opposite rib flank 9A′ in the scanning planes 112, 114, 116, 118, 1110 in the scanning points 122, 124, 126, 128, 1210.
In all possible embodiments the same key 2 can always be used for at least two locking devices in order to separate the plate tumblers of the first type 5A and of the second type 5B via the cooperating scanning points such that the cylinder core 4 is rotatable with respect to the cylinder housing 3. The key 2 can no longer be used as a reversible key, however, since the control ribs 9, 9′ are not arranged in a mirror image manner.
With the insertion of the key 2, in a first position the flanks 8A, 9A, 9A′ are used for scanning the cooperating scanning points of the plate tumblers 5 of the first or of the second type 5A, 5B (three-track locking system).
An insertion of the key 2 in a second position (reversible key position) is not possible due to the non-mirror image arrangement of the control ribs 9, 9′.
Second Embodiment
Second locking system S2 according to
The second locking system S2 is characterized in that in each of the scanning planes 11n respectively one scanning point 12n is provided for the cooperating scanning point of the plate tumbler 5 of the first type 5A and for the cooperating scanning point of the plate tumbler 5 of the second type 5B.
The control rib 9′ lying on the rear side in
It is clear from the two-dot dash line used in the two figures that on the first groove flank 8A as well as on the first rib flank 9a for each scanning plane 11n a scanning point 12n is embodied. The opposite flanks, the second groove flank 8B and the second rib flank 9B, thereby in each case form the forced guide for the tumbler nose 5A-1 of the plate tumblers 5A or for the tumbler groove 5B-1 of the plate tumblers 5B.
It is shown by way of example that in the first scanning plane 111 respectively one scanning point 121 for the cooperating scanning point of the plate tumbler of the first type 5A as well as of the second type 5B can be queried or scanned via the first groove flank 8A or the first rib flank 9A. It is also shown by way of example in the fourth scanning plane 114 that both types of plate tumblers 5A and 5B can be queried via the correspondingly embodied control tracks 8, 9.
This results in turn in the important advantage that the second locking system S2 can be composed of at least two key devices, which are characterized by differently arranged plate tumblers 5 of both types 5A, 5B. The same key 2 can be used for each of the locking devices thus embodied or equipped with plate tumblers. If in each of the notional scanning planes 11n both types of plate tumblers 5A, 5B can optionally be arranged, here too there is a multiplicity going beyond the prior art of variable possibilities of the arrangement of plate tumblers. The safety with respect to being forced open is increased thereby.
If the respective control track 8, 9 is embodied in the opposite control tracks 8′, 9′ in a mirror image manner with respect to the first and second cutting plane Dx/z, Dx/y, a reversible key is always produced so that the key 2 can be used in at least two locking devices in a first position and in a second position as a reversible key.
With the insertion of the key 2 in a first position, the flanks 8A, 9A are used for scanning the cooperating scanning points of the plate tumblers 5 of the first and of the second type 5A, 5B (two-track locking system).
With the insertion of the key 2 in a second position (reversible key position), the flanks 8A′, 9A′ (not shown in further detail in
If the radial direction of movement of the plate tumbler 5 of the second type 5B lies in the direction of movement 7.2, for example in a vehicle in the y direction, the direction of movement of the plate tumbler 5 of the first type 5A, for example, is arranged according to the direction of movement 7.1 orthogonally thereto in the z direction.
If a key 2 for example is inserted into a key channel in the vehicle direction x and if the narrow side 2S of the key 2 lies horizontally in the y direction in a vehicle, the plate tumbler 5 of the type 5B is displaced horizontally in the y direction according to the direction of movement 7.2 and the plate tumbler 5 of the type 5A is shifted in the vertical direction in the z direction in the direction of movement 7.1.
Second Embodiment
Second locking system S2 according to
According to
This second embodiment variant of the second locking system is clarified in
This in turn results in the following possibilities for embodying the locking devices.
In order now to also follow the inventive concept inside the second locking system S2, the second locking system S2 in the second embodiment variant is likewise characterized in that in at least one, here in each of the scanning planes 11n respectively one scanning point 12n is provided for a plate tumbler 5 of the first type 5A and for a plate tumbler 5 of the second type 5B, wherein however due to the non-mirror image arrangement of the control rib 9, 9′, a reversible key cannot be produced in every case, as is explained below.
The opposite control rib 9′ is not arranged in a mirror image manner with respect to the second cutting plane Dx/y, as
On the one hand, a scanning point 121, 122, 123, 124, 125, 126, 127 can be embodied via the first control groove 8A of the first control track 8 and the first control rib 9A of the second control track 9 in each of the scanning planes 111, 112, 113, 114, 115, 116, 117.
On the other hand, a scanning point 121, 122, 123, 124, 125, 126, 127 can be embodied via the first opposite control groove 8A′ of the first control track 8′ and the first control rib 9A′ of the second opposite control track 9′ in each of the scanning planes 111, 112, 113, 114, 115, 116, 117.
If in one possibility only plate tumblers of the first type 5A are arranged in a locking device, these are queried respectively via the scanning points 121 through 127 of the first groove flank 8A or 8A′ of the first control track 8 or the opposite first control track 8′, which are arranged in a mirror image manner. A locking system S2 is thus produced for several locking devices of this type, in which the key 2 is still embodied as a reversible key.
There is also the second possibility of arranging only plate tumblers of the second type 5B in each of the consecutive scanning planes 111, 112, 113, 114, 115, 116, 117, which are either arranged on the scanning points 121, 122, 123, 124, 125, 126, 127 of the first rib flank 9A of the second control track 9 or for a further locking device only plate tumblers of the second type 5B in each of the consecutive scanning planes 111, 112, 113, 114, 115, 116, 117, which are scanned at the scanning points 121, 122, 123, 124, 125, 126, 127 of the rib flank 9A′, not arranged in a mirror image manner, of the second control track 9′. However, the key can then no longer be used as a reversible key, since the control ribs 9, 9′ are not arranged in a mirror image manner with respect to the second cutting plane Dx/y.
Starting from the second possibility described above, another alternative embodiment lies in arranging the plate tumblers 5 of the second type 5B such that the plate tumblers 5 of the second type 5B with their cooperating scanning points in a locking device of the second system S2 is scanned once in a scanning plane 11n via the first rib flank 9A and in an identical scanning plane 11n of another locking device belonging to the second locking system S2 via its cooperating scanning point by the first rib flank 9A′ not arranged in a mirror image manner. This is rendered possible by the direction of action of the spring element, which presses the plate tumblers 5 in the one or the other direction of the radial direction of movement 7.2. This key 2 however cannot be used as a reversible key.
Finally, the third possibility lies in embodying a locking device in which both types of plate tumblers 5A, 5B are arranged, since the plate tumblers 5 of the first and of the second type 5A, 5B in the consecutive scanning planes 111, 112, 113, 114, 115, 116, 117 can be arranged in a variably selectable manner on the scanning points 121, 122, 123, 124, 125, 126, 127, wherein the same key 2 can be used for at least two locking devices in order to separate the plate tumblers 5A, 5B via their cooperating scanning points such that the cylinder core 4 is rotatable with respect to the cylinder housing 3. However, the key 2 can then no longer be used as a reversible key, since the control ribs 9, 9′ of the second are not arranged in a mirror image manner.
With the insertion of the key 2 in a first position, the flanks 8A, 9A are used for scanning the cooperating scanning points of the plate tumblers 5 of the first and of the second type 5A, 5B (two-track locking system).
An insertion of the key 2 in a second position (reversible key position) is not possible due to the non-mirror image arrangement of the control ribs 9, 9′.
The scanning points 121, 125 in the scanning planes 111, 115 are separately marked, wherein the two-dot dash sequence again indicates that in each scanning plane 11n depending on the selection of the two types 5A, 5B of plate tumblers 5 can be queried via their cooperating scanning points
Third And Fourth Embodiment
Third and fourth locking system S3, S4 according to
The basic structure of the key 2 for the third and fourth locking system S3, S4 is changed, since now a differently embodied and arranged third control track 10 replaces the second control track 9.
For the third and fourth embodiment, plate tumblers 5 of a third type 5C that can be moved in the second radial direction of movement 7.2 are thereby arranged. This third type 5C according to
The plate tumbler 5 of the first type 5A is, as
The key 2 of the third and fourth locking system S3, S4 has a third control track 10, the control flank 10A of which is formed on the narrow side 2S of the key 2 and the forced guidance of which is formed by a third on the key 2 now lying on the opposite narrow key side 2S′ thereof as a control track 10′ in the form of a forced guiding control flank 10A′ (not visible in
This inevitably results in the changed shape of the plate tumbler 5 of the third type 5C, which is shown according to its intended position with respect to the key 2 in
Third Embodiment
Third locking system S3 according to
Analogously to the first locking system SI, the third locking system S3 is characterized in a first embodiment variant, which is shown in
The first scanning plane 111 of the key 2, for example, has the scanning point 121 marked in
The next scanning plane 112 then however, deviating from the image of
This results in the advantage that the third locking system S3 of the first embodiment variant can be composed of at least two key devices, which are characterized by plate tumblers of the first or third type 5A, 5C, which can be variably arranged in at least one scanning plane 11n. The same key 2 can always be used for each of the correspondingly embodied locking devices of the third locking system S3 thereby independently of the arrangement of a plate tumbler 5 of the first or third type 5A, 5C.
The first possibility lies in embodying a locking device such that only plate tumblers 5 of the first type 5A are arranged, the cooperating scanning points of which are queried via the scanning points 121 through 12n in each of the scanning planes 111 through 11n on the first groove flank 8A of the first control track 8.
Furthermore, the second possibility lies in embodying a locking device in which only plate tumblers of the third type 5C are arranged, the cooperating scanning points of which are queried on the scanning points 121, 123, 125 of the control flank 10A of the third control track 10.
Finally, for a further locking device the third possibility lies in arranging both types of plate tumblers 5 of the first and third type 5A, 5C, wherein it is variably selectable in the scanning planes 111, 113, 115 which of the two plate tumblers 5 of the first type 5A or of the second type 5C are arranged and queried via the cooperating scanning points, wherein in all possible embodiments the same key 2 always can be used for at least two locking devices in order to separate the plate tumblers 5A, 5C such that the cylinder core 4 is rotatable with respect to the cylinder housing 3.
Only the first control track 8 of the first embodiment variant of the third locking system S3 is embodied in a mirror image manner with respect to the first cutting plane Dx/z, whereby a key 2 with a first and third control track 8, 10, 10′ and a first control track 8′ arranged lying opposite in a mirror image manner results, whereby depending on the selection of the plate tumblers 5A, 5C in the respective scanning plane 11n a reversible key results only when in the respective scanning plane 11n exclusively plate tumblers 5 of the first type 5A are arranged.
With the insertion of the key 2 in a first position, the flanks 8A, 10A are used for scanning the cooperating scanning points of the plate tumblers 5 of the first and of the third type 5A, 5C (two track locking system).
An insertion of the key 2 in a second position (reversible key position) is not possible due to the non-mirror image arrangement of the control flanks 10A, 10A′ of the third control track 10, 10′.
Third Embodiment
Third locking system S3 according to
The third locking system S3 is characterized in a second embodiment variant, which is shown in
The first through sixth scanning plane 111 through 116 of the key 2 according to
The seventh through tenth scanning plane 117 through 1110 as a special feature of this second embodiment variant has scanning points 127 through 1210 which are provided exclusively for the cooperating scanning point of the plate tumblers 5 of the third type 5C.
The first control track 8 and the opposite control track 8′ is thereby embodied from the start only up to the seventh scanning plane 117 and the third control track 10 or the opposite control track 10′ is embodied up to the scanning plane 116 in a simplified manner without contour and thus without coding function.
The scanning points 121 through 1210, possible in the scanning planes 111 through 1110, of the second embodiment variant of the third embodiment of a key 2 are again shown by the rectangles in the images of
The top diagrammatic image of
As can be seen from the wide outer sides 2B, 2B′ lying opposite one another of the top image and the third image from the top shown in the images of
As can be seen from the narrow outer sides 2S, 2S′ lying opposite one another of the second image from the top and the fourth image from above shown in
Regardless of the described simplified embodiment of the key 2, the advantage in turn results that the third locking system S3 of the second embodiment variant can be composed of at least two key devices, which are characterized by differently arranged plate tumblers 5 of the first type 5A and of the third type 5C.
The same key 2 can be used for each of the correspondingly embodied locking devices.
A first possibility lies in embodying a locking device so that only plate tumblers 5 of the first type 5A are arranged, the cooperating scanning points of which are queried via the scanning points 121 through 127 of the first groove flank 8A of the first control track 8.
Furthermore, a second possibility lies in embodying a locking device in which only plate tumblers 5 of the third type 5C are arranged, the cooperating scanning points of which are scanned on the scanning points 127 through 1210 of the control flank 10A of the third control track 10, 10A.
Finally, for a further locking device the third possibility again lies in arranging both types of plate tumblers 5A, 5C, wherein in this second embodiment variant of the third locking systems S3 it is variably selectable only in a single scanning plane, the scanning plane 117 which of the two plate tumblers of the first type 5A or of the third type 5C is arranged and queried via its respective cooperating scanning point, wherein in all possible embodiments the same key 2 can always be used for at least two locking directions in order to separate the plate tumblers 5A, 5C such that the cylinder core 4 can be rotated with respect to the cylinder housing 3.
Only the first control track 8 of the second embodiment variant of the third locking system S3 is arranged in a mirror image manner on an opposite side of the key 2 with respect to the first cutting plane Dx/Z, whereby a key 2 with a first control track 8 and a first control track 8′ lying opposite arranged in a mirror image manner results, whereby depending on the selection of the plate tumblers 5A, 5C in the respective scanning plane 11n a reversible key results only when exclusively plate tumblers 5 of the first type 5A are arranged in the respective scanning plane 11n.
One example: For a vehicle with a keyless entry system or a keyless go system, a key bit is necessary only to lock the glove box and as emergency key for opening the driver's door in an emergency. For example, two locking devices with a key bit of the third locking system S3 of the second embodiment variant should be used.
For the glove box, for example, a lock cylinder 3, 3A, 4 or 3, 3A, 4 with a free-turning sleeve 4A is used, the plate tumblers 5 of which are exclusively first plate tumblers 5A which are scanned by the key bit in the scanning planes 111 through 117.
Naturally, a higher or lower number of plate tumblers of the first type 5A can be arranged, since the number of seven plate tumblers 5 is only by way of example. If only plate tumblers 5 of the first type 5A are arranged in the locking cylinder, the key bit as described can be inserted into the key channel 6 of the locking device 1 without attention to the sides, since the key bit of the key 2 is a reversible key due to the mirror image arrangement of the first control track 8 and of the opposite first control track 8′ for the locking device 1 of the glove box as described.
However, a reversible key does not necessarily have to be used for the emergency key on the driver's door, whereby the key 2 can be produced more cost-effectively due to the simplified embodiment of the control tracks 8, 10 in particular of the third control track 10. For the lock cylinder 3, 3A, 4 or 3, 3A, 4, 4A of an emergency locking device by way of example plate tumblers of the first type 5A and of the third type 5C are arranged, which scan the key bit for example in the scanning planes 111 through 1110. Through the use of a plate tumbler 5 of the third type 5C, however, the key 2 can no longer be used as a reversible key, since the third control track 10 and the opposite control track 10′ in the exemplary embodiment are not embodied in a mirror image manner respect to the second cutting plane Dx/y.
The third locking system S3, like all other locking systems in the at least one scanning plane (here the scanning plane 117) of a provided scanning point (here the scanning point 127) is variable such that both types of plate tumblers 5A and 5C can be scanned and separated via their cooperating scanning points so that the arrangement of one type of the two plate tumblers 5A, 5C in at least this one scanning plane 117 can be freely selected, whereby the variability of the arrangement of plate tumblers 5 of at least two locking devices (glove box locking device and emergency locking device on a driver's door or a trunk) with cylinder cores, with associated cylinder housings, adapted to the plate tumblers 5A 5C is increased.
In the scanning planes 111 through 116 for example, scanning is carried out via the first plate tumblers 5A at the scanning points 121 through 126 of the first groove flank 8A. Subsequently, scanning is carried out in the scanning planes 117 through 1110 via the third plate tumblers 5C at the scanning points 127 through 1210 of the control flank 10A.
Naturally, a higher or lower number of plate tumblers 5 of the first type 5A or of the second type 5C can be arranged, since the number of six plate tumblers of the first type 5A and of four plate tumblers 5C of the third type 5C is only by way of example.
However, the key bit can be inserted into the key channel 6 of the locking device 1 only such that the control flank 10, 10A presses away the plate tumblers of the third type in the scanning planes 117 through 1110 on the scanning points 127 through 1210, whereby the cylinder core 4 can be rotated with respect to the cylinder housing.
If the key 2 is inserted the other way around, the forced guidance track 10A′ of the third control track 10′, since it is not arranged in a mirror image manner with respect to the second cutting plane Dx/y, will not press away or scan the plate tumblers 5C.
The presented key 2 of the third locking system S3 in the second embodiment variant, due to the embodiment of the opposite control flanks 10A, 10A′, not arranged in a mirror image manner, of the third control track 10 or the opposite third control track 10′, as mentioned above, with the plate tumblers 5 of the third type 5C, does not form a reversible key.
This means that with the insertion of the key 2 in a first position the flanks 8A, 10A are used for scanning the cooperating scanning points of the plate tumblers 5 of the first and of the third type 5A, 5C (two-track locking system).
An insertion of the key 2 in a second position (reversible key position) is not possible due to the non-mirror image arrangement of the control flanks 10A, 10A′ of the third control track 10, 10′.
Fourth Embodiment
Fourth locking system S4 according to
Analogously to the third locking system S3, the fourth locking system S4 is characterized in that according to
The first scanning plane 111 thus has a scanning point 121 marked in
In the exemplary embodiment of
The possible arrangement of the different types 5A or 5C of the plate tumblers 5 corresponds to the different embodiment variants that have already been described for the third embodiment. A reversible key, following the logic of the third locking system S3, can be embodied only when only plate tumblers 5 of the type 5A are arranged, since the third control track 10 and the opposite third control track 10′ is not arranged in a mirror image manner with respect to the second cutting plane Dx/y.
This means that with the insertion of the key 2 in a first position, the flanks 8A, 10A are used for scanning the cooperating scanning points of the plate tumblers 5 of the first or of the third type 5A, 5C (two-track locking system).
An insertion of the key 2 in a second position (reversible key position) is not possible due to the non-mirror image arrangement of the control flanks 10A, 10A′ of the third control track 10, 10′.
Fifth Embodiment
Fifth locking system S5 according to
The key 2 of the fifth locking system S5 has the third control track 10 already used in the third and fourth locking system S3, S4. The control flank 10A thereof is formed as before on the narrow side 2S of the key 2 and as before by the third forced guiding control flank 10A′ on the opposite narrow key side 2S′ of the key 2′ of the opposite control track 10′.
However, deviating from the previous locking systems S1 through S4, the key 2 is provided with a fourth control track 14, 14′ which now is arranged jointly with the third control track 10, 10′,
The fourth control track 10 used likewise has a control flank 14A on the fourth control track 14 of the wide side 2B of the key 2, wherein the force guidance thereof by a fourth on the key 2 now is formed on the opposite wide key side 2B′ thereof as forced guiding control flank 14A′ of the opposite fourth control track 14′.
This again inevitably results in a changed shape for the plate tumblers 5 responsible for the fourth control track 14 or the opposite fourth control track 14′, as explained below.
In the fifth locking system S5 in the cylinder core 4, as shown by
In the fifth locking system S5 furthermore in the cylinder core 4, as
This type 5D analogously to
Due to the described embodiment of the key 2, in this fifth locking system S5 the advantage also results that the system S5 can be composed of at least two key devices which are characterized by different arranged variably selectable plate tumblers 5 in a scanning plane 11n, either of the third type 5C or of the fourth type 5D. The same key 2 can be used for each of the correspondingly embodied at least two locking devices.
As
Furthermore, the second possibility lies in embodying a locking device in which in all of the scanning planes 111 through 117 only plate tumblers 5 of the fourth type 5D are arranged, the cooperating scanning points of which are scanned at the scanning points 121 through 127 of the control flank 14A of the fourth control track 14, 14A.
Finally, for a further locking device the third possibility lies in arranging both types of plate tumblers 5C, 5D wherein in this fifth locking system S5 in all scanning planes 111 through 117 it can be variably selected which of the two plate tumblers of the third type 5C or of the fourth type 5D with their cooperating scanning points are arranged, which are queried by the scanning points 121-127 of the key 2, wherein in all possible embodiments the same key 2 can always be used for at least two locking devices, in order to separate the plate tumblers 5 of the third type 5C and of the fourth type 5D such that the cylinder core 4 is rotatable with respect to the cylinder housing 3.
Some of the scanning points 121, 123, 124, 126 in the scanning planes 111, 113, 114, 116 are separately labeled wherein the respective two-dot dash sequence in these scanning planes 111, 113, 114, 116 and also in the other scanning planes 112, 125, 127 indicates that the scanning points 121, 123, 124, 126 of the key in each scanning plane 11n queries the cooperating scanning points of a plate tumbler 5 of the third type 5C or of the fourth type 5D.
The respectively opposite control flank 10A′ of the third opposite control track 10′ or the opposite control flank 14A′ of the fourth opposite control track 14′ is again thereby used as a forced guidance for that tumbler step 5D-1 of the plate tumblers of the third type 5C or of the fourth type 5D that are pressed by the spring element 3A, not shown in further detail, not at the respective scanning point 12n.
However, in
In contrast thereto, in
In
The possible scanning points 121 through 127 in the scanning planes 111 through 117 of the key 2 of the fifth locking system S5, which scan and separate the cooperating scanning points of the plate tumblers 5 of the third or fourth type 5C, 5D, are in turn shown by the rectangles in the images of
It is discernible that the control flanks 14A, 10A of the fourth or third control track 14, 10 in all of the scanning planes 111 through 117 shown by way of example have the possible variably usable scanning points 121 through 127 of the key 2 for the variably selectable plate tumblers of the third or fourth type 5C, 5D.
The opposite control flanks 14A′ and 10A′ of the fourth or third opposite control track 14′, 10′ (top image and the image below) in this embodiment are the forced guiding control flanks 14A′ 10A′ for the plate tumblers 5 of the third or fourth type 5C, 5D.
The third diagrammatic image from the top shows the wide outer surface 2B of the key 2. Below it the narrow outer surface 2S of the key 2 is shown diagrammatically. At the top the opposite wide key side 2B′ is shown diagrammatically. Below it in the second position the opposite narrow key side 2S′ is shown.
As can now be seen by the wide outer sides 2B′, 2B lying opposite one another of the upper image and the third image from the top shown in
As can be further seen from the narrow outer sides 2S′, 2S lying opposite one another, shown in
The key 2 thereby cannot be used as a reversible key, since the opposite control flanks 10A, 10A′ of the third control track 10, 10′ and the control flanks 14A, 14A′ lying opposite one another of the fourth control track 14, 14′ on the key 2 of the fifth locking system S5 are not arranged in a mirror image manner.
This in turn means that with the insertion of the key 2 in a first position the flanks 10A, 14A are used for scanning the cooperating scanning points of the plate tumblers 5 of the third or of the fourth type 5C, 5D (two-track locking system).
An insertion of the key 2 in a second position (reversible key position) is not possible due to the non-mirror image arrangement of the control flanks 10A′, 14A′ of the third control track and fourth control track 10′, 14′.
Due to the arrangement of different plate tumblers 5A, 5B or 5A, 5C or 5C, 5D in the consecutive scanning planes 11n in the insertion direction of the key 2 or of the reversible key 2 of the locking devices of a locking system Sn, in particular a door lock cylinder or an ignition and steering lock cylinder or a lock cylinder for a glove box, with a break in carried out mechanically in one of the locking devices several different tools are needed in order to move the plate tumblers out of the blocking recesses of the cylinder housing. The sequence of the arranged plate tumblers of identical or different types of plate tumblers in the insertion direction can thereby be selected such that identical types or different types of plate tumblers are arranged in consecutive scanning planes.
The number of possible sequences of plate tumblers is increased compared to the prior art wherein in particular when different types of plate tumblers are arranged in a locking device, the variability of the arrangement and thus the multiplicity of the possible sequences of plate tumblers compared to the prior art is increased considerably, since according to the invention in at least one scanning plane with one key different types of plate tumblers are coded, that is, can be queried via their cooperating scanning points of scanning points arranged on the key or reversible key for both types of plate tumblers.
The variability of the coding and thus the safety with respect to being forced open of the locking devices of the locking systems can be further increased, as is explained in greater detail below.
Force direction of the spring-loaded plate tumblers:
Firstly, it is explicitly pointed out once again that the four types of plate tumblers 5A, 5B, 5C, 5D can always be moved with respect to the axial cylinder axis 7 of the cylinder core 4 in a spring-loaded manner by an arranged spring element 3A always in both directions of the first radial direction of movement 7.1 or the second radial direction of movement 7.2.
This possibility is clarified by the double arrows in
This applies in this respect also to the new plate tumblers 5 of the third and fourth type 5C, 5D, which are not described in the prior art.
In the preceding examples, for the sake of clarity the types of plate tumblers 5A, 5B, 5C, 5D were always loaded in the same direction of the first or second radial directions of movement 7.1 and 7.2.
A spring element 3A assigned to each plate tumbler 5 engages on a projection 5-1 not shown in the described figures according to the invention of the five embodiments (but is shown in
Arrangement of the plate tumblers:
Secondly, it is explicitly pointed out once again that the four types of plate tumblers 5A, 5B, 5C, 5D, as shown in
In the preceding examples for the sake of clarity the types of plate tumblers 5A, 5B, 5C, 5D with respect to the key 2 were always arranged in the same position, so that the respective type 5A, 5B, 5C, 5D are arranged seen in the longitudinal direction of the key channel 6 (as is visible in
An exception is the third embodiment variant of the first embodiment (see
In this embodiment variant the plate tumblers 5 of the second type 5B were arranged offset by 180° in every other scanning plane 111 through 1110, so that the tumbler groove 5B-1 can query once the cooperating scanning points of the first rib flank 9A in the scanning planes 111, 113, 115, 117, 119 with the scanning points 121, 123, 125, 127, 129 and another time the cooperating scanning points of the first opposite rib flank 9A′ in the scanning planes 112, 114, 116, 118, 1110 in the scanning points 122, 124, 126, 128, 1210.
In this exemplary embodiment it is already shown that depending on the arrangement of the plate tumblers 5 more than two flanks of a key 2 can be added for scanning the cooperating scanning points due to the respective plate tumblers 5 of a locking device.
Due to the changed arrangement coordinated with the key 2 of the plate tumblers 5 and the selection of the force direction of the spring elements 3A, thus multiple-track systems going beyond two-track locking systems can be formed.
One example: a four-track locking system is shown by
The top two images of
The rectangles of
The arrows 7.1 and 7.2 show the direction of action that the scanning points 12n of the key 2 exert opposite to the respective spring element 3A on the plate tumblers 5 of the first or of the third type 5A, 5C.
The plate tumblers 5 of the first type 5A according to
The plate tumblers 5 of the first type 5A according to
The plate tumblers 5 of the third type 5C according to
The plate tumblers 5 of the third type 5C according to
Thus four flanks, the flanks 8A, 8A′, 10, 10A′ are used for scanning the cooperating scanning points of the plate tumblers 5 of the first and third type 5A, 5C.
Within the meaning of the invention, in
In the example shown, in the scanning points 122, 117 plate tumblers 5 of the third type 5C are selected. It would also be possible according to the invention in the scanning point 122, 117 to arrange a plate tumbler 5 of the type 5A in the locking cylinder 3, 4 or 3, 4A without changes having to be made to the key 7.
A further example: A six-track locking system is shown by
The top two images of
The rectangles of
The arrows 7.1 and 7.2 again show the direction of action that the scanning points 12n of the key 2 exert opposite to the respective spring element 3A on the plate tumblers 5.
The direction of action of the spring elements 3A is further varied with respect to
The plate tumblers 5 of the first type 5A according to
The plate tumblers 5 of the first type 5A according to
The plate tumblers 5 of the third type 5C according to
The plate tumblers 5 of the third type 5C according to
Thus depending on the arrangement and force direction of the plate tumblers 5 of the first or third type 5A, 5C flanks, the flanks 8A, 8B, 8A′, 8B′, 10, 10A′ are used for scanning the cooperating scanning points of the plate tumblers 5 of the first and third type 5A, 5C.
Within the meaning of the invention in
In the example shown in the scanning point 122, 117 a plate tumbler 5 of the third type 5C was selected. According to the invention, it would also be possible to arrange in the scanning point 122, 117 a plate tumbler 5 of the first type 5A in the lock cylinder in the lock cylinder 3, 4 or 3, 4A, without changes having to be made to the key 2.
This procedure explained based on the third locking system S3 can also be applied to all previously described locking systems S1 and S2 as well as S4 and S5.
The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modifications as would be obvious to one skilled in the art are to be included within the scope of the following claims.
Number | Date | Country | Kind |
---|---|---|---|
10 2009 056 236 | Nov 2009 | DE | national |
This nonprovisional application is a continuation of International Application No. PCT/EP2010/007173, which was filed on Nov. 26, 2010, and which claims priority to German Patent Application No. DE 10 2009 056 236.2, which was filed in Germany on Nov. 28, 2009, and which are both herein incorporated by reference
Number | Name | Date | Kind |
---|---|---|---|
2039126 | Svoboda | Apr 1936 | A |
4977767 | Prunbauer | Dec 1990 | A |
7690232 | Klein et al. | Apr 2010 | B2 |
7870771 | Mueller et al. | Jan 2011 | B2 |
8276419 | Farrenkothen et al. | Oct 2012 | B2 |
8689596 | Katagiri et al. | Apr 2014 | B2 |
8726706 | Jacob | May 2014 | B2 |
8826707 | Habecke | Sep 2014 | B2 |
8966949 | Habecke | Mar 2015 | B2 |
20060000251 | Ceron et al. | Jan 2006 | A1 |
20060201216 | Gil | Sep 2006 | A1 |
20090025442 | Klein et al. | Jan 2009 | A1 |
20090266123 | Mueller | Oct 2009 | A1 |
Number | Date | Country |
---|---|---|
199 44 070 | Apr 2001 | DE |
299 22 264 | May 2001 | DE |
20 2005 010 309 | Dec 2005 | DE |
10 2005 042 617 | Mar 2007 | DE |
10 2005 042 618 | Mar 2007 | DE |
10 2007 014 900 | Oct 2008 | DE |
10 2010 052 473 | Jun 2011 | DE |
Number | Date | Country | |
---|---|---|---|
20120279265 A1 | Nov 2012 | US |
Number | Date | Country | |
---|---|---|---|
Parent | PCT/EP2010/007173 | Nov 2010 | US |
Child | 13482688 | US |