The present invention relates to a lock and key combination including a cylinder lock and a key with a flat key blade. The lock has a rotatable key plug having a key slot for receiving a flat key blade, and at least two side locking tumblers in the cylinder lock, said side locking tumblers being guided for elevational and possibly also rotational movement in associated chambers in said key plug and having transverse fingers projecting into the key slot for engagement with the key blade, upon inserting the key into the key slot. The key blade has an associated code pattern in a side recess for engagement with said side locking tumblers and positioning said side locking tumblers into positions that allow the key plug to rotate in the cylinder lock upon inserting a correctly coded key into the key slot.
Such locks and keys are previously known, e.g. from the U.S. Pat. Nos. 4,756,177 and 5,715,717 (both in the name of Bo Widén). These known lock and key systems provide a high level of security and offer a large number of code combinations.
Against this background, the present invention aims at providing an even higher number of code combinations while retaining at least the same or an improved security level.
This object is achieved for a lock and key combination where the associated code pattern in the side recess of the key blade comprises at least two separate code surfaces formed on at least one side of the key blade and extending along at least a part of the length of the key blade, comprising, on the same side of the key blade:
Thus, the two kinds of side locking tumblers, provided with first and second fingers, respectively, will provide extensive code combinations in conjunction with the various code locations on the two code surfaces. These code surfaces may extend in parallel to each other, forming a very compact overall code configuration in the lock as well as on the key blade.
In a feasible embodiment, at least one of the code surfaces is wave-like.
The primary code surface may be defined by one of two opposite first side walls in a groove in the external portion of the side recess, said groove also having an inside wall. Likewise, the secondary code surface may be defined by a groove having opposite second side walls and a bottom wall therebetween. In this way, the two code surfaces can be formed separately and still be confined in a very limited area at the side of the key blade. Even so, the number of possible code combinations is very great.
As will be apparent from the description below, the configuration of the code pattern may be modified in many ways. Such features are also stated in the dependent claims.
Advantageously, the code pattern may be used for establishing a master key system including one or more master keys, and a number of specific keys which operate only one lock or a relatively small number of locks.
The invention will now be explained in more detail, with reference to the appended drawings which show some examples of possible embodiments.
a shows the key without any side tumblers, thereby showing the double code pattern better than in
a shows the key, without any side locking tumblers;
b shows the key of
c shows a section of the key in
a shows the key of
b shows the key of
c shows a section of the key in
a, 4b, and 4c show, in a top view, a perspective view and a different perspective view, respectively, two pairs of half cylindrical side locking tumblers, each having a projecting finger;
d shows a section of an associated key;
a, 5b, 5c, and 5d show two cylindrical side locking tumblers with different projecting fingers, and a corresponding section of an associated key;
a, 6b, 6c, and 6d show two different kinds of side locking tumblers with various projecting fingers, and a corresponding section through an associated key;
a, 7b, 7c, and 7d, 7e, 7f show cylindrical side locking tumblers with various projecting fingers;
a, 8b, 8c, and 8d, 8e, 8f show a cylindrical side locking tumbler having projecting fingers with a widened outer portion, a tumbler with a narrow finger, and a cross-section and a side view of the associated key, respectively;
a, 9b, 9c and 9d, 9e, 9f show similar views of side locking tumblers having projecting fingers with a downwardly directed outer portion; and
In
The key 100 is provided with a new kind of code pattern (see
It should be noted that it is sufficient to have just the coded lower surface or side wall 114, whereas the upper side wall 113 is not necessary for coding. However, the upper side wall 113 may be used to positively guide the transversely projecting first finger of the first side locking tumbler up and down so that it will always engage with the lower side wall 114. On the other hand, if this upper side wall 113 is left out, the first side locking tumblers should be brought in contact (with its first finger, as will be explained below) with the side wall 114 by means of e.g. a spring or the like, compare
In this embodiment, there is an adjoining inside or bottom wall 115 which is substantially parallel to the external side surface 101 of the key blade 102. This inside or bottom wall 115 extends between the opposite side walls 113, 114 of the external groove 111. The width of this external groove is greater (in this embodiment) than the deeper, internal groove 112 which is cut into the inside or bottom wall 115.
The internal, relatively deep groove 112 also has opposite side walls, namely an upper side wall 116 and a lower side wall 117. Between these side walls 116, 117, the groove has a bottom wall 118, which is also substantially parallel to the external side surface 101 of the key 100 (and also to the bottom wall 115 or the external groove 111).
The two grooves 111, 112 will operate independently of each other and guide the respective side locking tumblers by way of their first and second fingers, respectively. This will be better understood from
In this embodiment, both of the fingers 211a, 211b are positively guided in the associated groove 111 and 112, respectively, when the key is moved longitudinally. For this purpose, the long finger 211a is rather narrow at its free end portion, corresponding to the width or height of the internal, rather narrow groove 112, whereas the short finger 211b is relatively wide or high, so that it fills out the full height or width of the external, relatively wide groove 111.
Although the two grooves 111, 112 are independently configurated, there is a certain condition that has to be observed: the internal groove 112 should normally not cross the external groove 111 (but may do so in certain situations), because then the external groove 111 will be interrupted and may disturb the movement of the short finger 211b and the associated side locking tumbler 201b.
When a correctly configurated key 100 has been fully inserted into the lock 200, the side locking tumblers 201b, 202b, 203b, etc. will be located in well-defined positions determined by the code surface portions 131, 132, 133, 134, 135 of the side wall 114, and the adjacent side locking tumblers 201a, 202a, 203a will likewise be located in well-defined positions determined by the code surface portions 141, 142, 143, 144, 145 of the lower side wall 117 of the internal groove 112. In these well-defined positions, the side locking tumblers 201a, 201b, . . . ,205 will have their back side recesses 231a, 231b lined up so as to receive a side bar (not shown) which will permit rotation of the key plug (not shown) within the cylinder lock 200, as is well known per se in the art.
d shows a cross-section through the key blade 102 with its double code pattern 110, including a wide or high, but shallow external groove 111 and a narrow, rather deep internal groove 112, and the bottom surfaces 115, 118 of these grooves. In this embodiment, the deepest groove 112 has a depth which is less than half the thickness of the key blade 102.
As is also well known in the art, the wave-like code patterns formed by the grooves 111, 112 have a ramp surface (in this case a common ramp surface) 150 at the free end or tip of the key blade 102. Accordingly, when the key 100 is inserted into the key slot of the lock, the side locking tumblers of the lock 200 (no details of the lock are shown) will climb with their fingers onto the ramp 150 and will then follow the respective wave-like groove 111, 112 while engaging with the upper and lower surfaces of the finger against the opposite side walls 116, 117 and 113, 114, respectively. In doing so, the side locking tumblers 201a, 201b, 202a, 202b will move upwards and downwards until the key blade 102 is fully inserted and the respective fingers 211a, 211b, 212a, 212b etc. bear on the surface portions 131, 132, 133, 134, 135 and 141, 142, 143, 144, 145, respectively, which form codes and ensure that the recesses 231a, 231b, etc align and permit the side bar (not shown) to enter into these recesses and enable the key plug to rotate in the cylindrical housing (not shown) of the lock 200.
It will be understood that the vertical positions of the various side locking tumblers having different fingers (long and short fingers, or first and second fingers) will be generally different and independent from each other. In this way, a very great number of possible codes can be provided in spite of the fact that the double code 110 (111, 112) is very compact and confined to a limited region of the key blade. Nevertheless, the side locking tumblers can be movably mounted in standard type cylindrical chambers in the key plug.
As an alternative to a sidebar cooperating with recesses at the back of each tumbler, and as is well-known in the art, the tumblers may be extended in their longitudinal directions (up or down) so as to cooperate with corresponding bores in the key plug, adjacent to the cylindrical inner surface of the housing of the lock.
An important aspect of the present invention is that there are two code surfaces, located adjacent to each other, in the key blade. The side locking tumblers, on the other hand, do not have to be of the longitudinally split type, as is shown in
An embodiment with cylindrical, massive side locking tumblers is shown in
In
There are also other possibilities to mix different kinds of side locking tumblers. In
The first side locking tumbler 401 is of the kind disclosed in the international patent application WO 2006/098675, i.e. it is rotatable between two rotary end positions, as indicated by the arrow A in
In the embodiments described so far, the external part of the recess has been rather wide, and the internal, deeper part (forming a groove) has been rather narrow. In the two embodiments to be described below, the configuration is the other way round: the external part of the recess is relatively narrow, and the internal, deeper part is relatively wide.
In
The side recess of the key 150 also has a narrower external portion, which is dimensioned to snugly receive and guide the narrow finger 511 of a “first” side locking tumbler 501 (
In the embodiment shown in
A “first” side locking tumbler 601 with a narrow first finger 611 is shown in
The upper parts of the external and internal grooves 161, 162 do not engage with the side locking tumblers 601, 602, so the upper sidewalls of these grooves may just as well be straight, as shown in
Moreover it is also possible to remove the upper, left hand part of the key 160, to the left of the dotted line 163, leaving just a shelf surface 161 (forming the first code surface) and the adjoining, internal portion 162 (forming the second code surface).
According to the invention, there should be “first” and “second” side locking tumblers which cooperate with an external and an internal portion (with primary and secondary code surfaces) of a side recess on one side of the key blade. These first and second side locking tumblers may generally be all of the same kind (massive, cylindrical, or half cylindrical, or some other kind) or of different kinds (cylindrical and half cylindrical). Also, the tumbler fingers may be of the same kind for all “first” and all “second” side locking tumblers, or they may be mixed (as illustrated e.g. in
The code surfaces in the external and inner portions do not have to be “wave-like” but may have other configurations as long as they permit the first and second fingers to slide along these surfaces. They may have rectilinear portions and also small irregularities or steps. Moreover, such irregularities or steps must be small enough to permit the associated finger to climb or step down in the longitudinal direction. There may even be interruptions if the next code surface segment is provided with a ramp or the like which will catch the finger and make it climb on such a ramp.
Of course, a key blade may have double codes on one side only, or on both sides.
A key may also have a conventional code at an upper edge of the key blade, cooperating with centrally located pins.
The key may also be reversible (capable of being turned upside down) and it may also be provided with suitable longitudinal profile grooves.
The number of side locking tumblers may be chosen at will, e.g. only two half cylindrical tumblers. Likewise, the geometrical shape of the tumblers may be different, e.g. with a rectangular cross-section rather than a circular cross-section.
As illustrated in
The specific key (“change key”) B shown in
The specific key C shown in
The master key A, however, will operated both locks, as represented by the tumbler fingers 311c and 312c, because the two code surfaces 114 and 115 are located at the correct levels, in this case at the same level. So, this master key A will operate locks having high, short tumbler fingers 311c at releasing positions engaging with the primary code surface 114 as well as locks having narrow, long tumbler fingers 312c at releasing positions engaging with the secondary code surface 115. Generally, the master key will be configured to release all locks having different kinds of locking tumblers at various positions, whereas each of the specific keys is configured to release only one or a subset of locks within said group of locks.
By using various principles for master key systems, those skilled in the art will be able to design many different master key systems, which involve the double code pattern of the present invention, including systems with two, three or more levels of master keys. It is also possible to vary the longitudinal position of the respective finger, such as those included in the various embodiments described above.
Number | Name | Date | Kind |
---|---|---|---|
3393542 | Crepinsek | Jul 1968 | A |
3731507 | Wolter | May 1973 | A |
3824818 | Neale | Jul 1974 | A |
5819566 | Eden, Jr. | Oct 1998 | A |
6105404 | Field et al. | Aug 2000 | A |
6477876 | Kim | Nov 2002 | B1 |
7159424 | Widen | Jan 2007 | B2 |
7207200 | Eden et al. | Apr 2007 | B2 |
7421869 | Osada | Sep 2008 | B2 |
7487653 | Widen | Feb 2009 | B2 |
7665337 | Widen | Feb 2010 | B1 |
20090272161 | Talamonti | Nov 2009 | A1 |
Number | Date | Country |
---|---|---|
392 508 | Apr 1991 | AT |