The present invention relates to a key formed from a metal plate or the like and to a lock associated with such a key.
Japanese Laid-Open Patent Publication No. 56-16779 describes a key for insertion into an associated cylinder lock. When the proper key is inserted in the cylinder lock, the key and the cylinder lock are engaged with each other so as to satisfy a predetermined concavo-convex relationship. This enables the turning of the key to, for example, open the lock. Such a key (hereafter, referred to as the first key) has a blade. One side of the blade has a wall functioning as a guide for guiding the insertion of the blade into the cylinder lock. The other side of the blade includes an engaging portion for engaging tumblers in the cylinder lock. Serrations are formed along the engaging portion. The serrations are formed to engage the tumblers and satisfy the predetermined concavo-convex relationship when the key is inserted into the cylinder lock. The first key is difficult to duplicate due to the wall provided on one side of the blade. However, the first key must always be inserted into the cylinder lock with the wall facing the same direction. In other words, the first key is irreversible.
In the second key 101, a wall 105 extends between the bottom portions of the two grooves 103. The wall 105 makes it difficult to duplicate the second key 101. However, the wall 105 increases the thickness of the blade 102.
It is an object of the present invention to provide a key that is thin but includes serrations on each of two opposite sides of a blade.
One aspect of the present invention is a key for insertion into an associated cylinder lock including a rotor and a plurality of tumblers retained in the rotor. The key includes a blade insertable into the rotor of the cylinder lock. The blade has a thickness and a width. The blade includes a first wide side, a second wide side located opposite to the first wide side in a thicknesswise direction of the blade, a first narrow side connecting the first and second wide sides, and a second narrow side located opposite to the first narrow side in a widthwise direction of the blade and connecting the first and second wide sides. A first notch is formed in the first wide side near the first narrow side and extends in an insertion direction of the blade. The first notch has a depth in the thicknesswise direction and is defined by a serrated wall and a bottom wall. The serrated wall of the first notch is engageable with the tumblers retained in the rotor of the cylinder lock. A second notch is formed in the second wide side near the second narrow side and extends in the insertion direction of the blade. The second notch has a depth in the thicknesswise direction and is defined by a serrated wall and a bottom wall. The serrated wall of the second notch is engageable with the tumblers retained in the rotor of the cylinder lock. The first notch and the second notch are spaced apart from each other in the widthwise direction, and a sum of the depth of the first notch and the depth of the second notch is greater than or equal to the thickness of the blade.
Another aspect of the present invention is a lock including a cylinder having a slot. A rotatable rotor is received in the cylinder. A plurality of movable tumblers retained in the rotor. A plurality of springs are retained in the rotor for urging the tumblers to project out of the rotor and into the slot of the cylinder. A key includes a blade insertable into the rotor. The blade has a thickness and a width. The blade includes a first wide side, a second wide side located opposite to the first wide side in a thicknesswise direction of the blade, a first narrow side connecting the first and second wide sides, and a second narrow side located opposite to the first narrow side in a widthwise direction of the blade and connecting the first and second wide sides. A first notch is formed in the first wide side near the first narrow side and extends in an insertion direction of the blade. The first notch has a depth in the thicknesswise direction and is defined by a serrated wall and a bottom wall. The serrated wall of the first notch is engageable with the tumblers and shaped to move the tumblers out of the slot and into the rotor against the force of the springs when engaged with the tumblers during insertion of the blade into the rotor. A second notch is formed in the second wide side near the second narrow side and extends in the insertion direction of the blade. The second notch has a depth in the thicknesswise direction and is defined by a serrated wall and a bottom wall. The serrated wall of the second notch is engageable with the tumblers and shaped to move the tumblers out of the slot and into the rotor against the force of the springs when engaged with the tumblers during insertion of the blade into the rotor. The first notch and the second notch are spaced apart from each other in the widthwise direction. A sum of the depth of the first notch and the depth of the second notch is greater than or equal to the thickness of the blade.
Other aspects and advantages of the present invention will become apparent from the following description, taken in conjunction with the accompanying drawings, illustrating by way of example the principles of the invention.
The invention, together with objects and advantages thereof, may best be understood by reference to the following description of the presently preferred embodiments together with the accompanying drawings in which:
A first embodiment of the present invention will now be discussed with reference to
Referring to
Eight plate tumblers 21, 22, 23, 24, 25, 26, 27, and 28 are retained in the rotor 13. Further, springs 31, 32, 33, 34, 35, 36, 37, and 38 respectively corresponding to the plate tumblers 21-28 are retained in the rotor 13. The springs 31-38 urge the corresponding plate tumblers 21-28 so as to project from the outer surface 13a of the rotor 13. The plate tumblers 21-28 are urged upward as viewed in
The key 11 includes first serrations 39. As shown in
Referring to
Referring to
When an improper key is inserted into the key hole 15 of the rotor 13 or when no key is inserted into the key hole 15, at least one of the plate tumblers 21-28 project out of the outer surface 13a of the rotor 13 and engage with one of the slots 40. In this state, rotation of the rotor 13 relative to the cylinder 14a is disabled. Thus, the key 11 cannot be turned to perform locking.
The structure of the key 11 will now be described in detail.
Referring to
As shown in
A first corner 53 is defined between the first wide side F1 and the first narrow side 51. A first notch 54 is formed in the first corner 53. The first notch 54 extends in the direction the blade 42 is inserted into the key hole 15 (insertion direction S). A serrated wall 54a is formed in the first notch 54 so as to define first serrations 39. In this embodiment, the serrated wall 54a is formed so that the first notch 54 terminates at a certain position in the insertion direction S. However, depending on the key, the first notch 54 may terminate at more than one position in the insertion direction S or may not terminate at all. Even if the first notch 54 is terminated at a certain position, the serrated wall 54a at such a position would still function as part of the first serrations 39. Accordingly, the first serrations 39 extend continuously in the insertion direction S without any interruptions even if there is a termination of the first notch 54. The first notch 54 includes a bottom wall 54b, which is located at the middle of the blade 42 with respect to the thicknesswise direction t.
A second notch 64, which is symmetric to the first notch 54 about a center line O2, is formed in the blade 42. The center line O2 lies along the center of the blade 42 in the widthwise direction W and the thicknesswise direction t. A second corner 63 is defined between the second wide side F2 and the second narrow side 52. The second notch 64 is formed in the second corner 63. The second notch 64 extends in the insertion direction S. A serrated wall 64a is formed in the second notch 64 so as to define second serrations 65. In this embodiment, the serrated wall 64a is formed so that the second notch 64 terminates at a certain position in the insertion direction S. Even if the second notch 64 is terminated at a certain position, the serrated wall 64a at such a position would still function as part of the second serrations 65. Accordingly, the second serrations 65 extend continuously in the insertion direction S without any interruptions even if there is a termination of the second notch 64. The second notch 64 includes a bottom wall 64b, which is located at the middle of the blade 42 with respect to the thicknesswise direction t.
In this embodiment, the sum of the depth of the first notch 54 in the thicknesswise direction t (hereafter, referred to as dimension L1) and the depth of the second notch 64 in the thicknesswise direction t (hereafter, referred to as dimension L2) is equal to the thickness of the blade 42 (hereafter, referred to as dimension L3). When viewed from a direction perpendicular to the plane of
When forming keys for other cylinder locks, each key has first serrations 39 and second serrations 65 that are differently shaped from those of the key 11. If the key 11 and the cylinder lock 12 are associated with each other, the plate tumblers 21-28 are formed in correspondence with the shape of the first serrations 39 and second serrations 65. Accordingly, when the proper key 11 is inserted into the key hole 15 of the cylinder lock 12, the first serrations 39 or second serrations 65 engage and push the projections 21a-28a of the plate tumblers 21-28 against the force of the springs 31-38. This moves the plate tumblers 21-28 inward from the outer surface 13a of the rotor 13 so as to enable rotation of the rotor 13.
The key 11 of the first embodiment has the advantages described below.
(1) The first notch 54 and the second notch 64 are formed in opposite sides of the blade 42 of the key 11 so that they do not overlap one another when viewed from a direction perpendicular to the first wide side F1. Therefore, even though the key 11 is formed so that the sum of dimension L1 and dimension L2 is equal to dimension L3 as shown in
(2) In the blade 42 of the key 11, the first notch 54 is formed in the first corner 53, and the second notch 64 is formed in the second corner 63. This enables the notches 54 and 64 to be spaced from each other while decreasing the dimension of the blade 42 in the widthwise direction W.
(3) In the blade 42 of the key 11, the first serrations 39 and the second serrations 65 are symmetric about center line O2. Thus, the blade 42 of the key 11 may be inserted into the key hole 15 regardless of the direction the blade 42 faces toward. In other words, it does not matter whether the serrations 39 engage the projections 21a-28a of the plate tumblers 21-28 or the serrations 65 engage the projections 21a-28a. Accordingly, the key 11 may be used in a reversible manner. This improves the convenience of the key 11 in comparison with a key that is irreversible.
(4) The two serrations 39 and 65 do not extend over the entire thickness of the blade 42. That is, in the key 11, the first serrations 39 are formed to extend along one half of the thickness of the blade 42, and the second serrations 65 are formed to extend along one half of the thickness of the blade 42. If the two serrations 39 and 65 were to be formed extending along the entire thickness of the blade 42, the key 11 may be easily duplicated by using a key cutter. However, when duplicating the key 11 of the first embodiment, the duplicate must be machined with an end mill. Accordingly, the key 11 of the first embodiment is difficult to duplicate.
(5) The two serrations 39 and 65 of the key 11 are formed so that they do not protrude from the corresponding narrow sides 51 and 52. Thus, the narrow sides 51 and 52 are mostly smooth. This improves the feel of the blade 42.
(6) In the key 11, the depth of the first notch 54 (first dimension L1) is equal to the depth of the second notch 64 (second dimension L2). This enables the first notch 54 and the second notch 64 to be formed symmetric about the center line O2.
A second embodiment of the present invention will now be described with reference to
To avoid redundancy, like or same reference numerals are given to those components that are the same as the corresponding components of the first embodiment. Such components will not be described in detail.
In this embodiment, a key 71 has a blade 72 with flanges 87 and 88 formed on opposite sides of the blade 72 in the widthwise direction W. The flanges 87 and 88 extend in the insertion direction S.
As shown in
A second notch 86, which is symmetric to the first notch 76 about a center line O3, is formed in the blade 72. The center line O3 lies along the center of the blade 72 in the widthwise direction W and the thicknesswise direction t. More specifically, a second notch 86, which extends in the insertion direction S of the blade 72, is formed in the second wide side F3 of the blade 72 at a location closer to the second narrow side 75 than the first narrow side 74. The second notch 86 includes a serrated wall 86a that defines second serrations 65 extending in the insertion direction S. The second notch 86 further includes a bottom wall 86b, which is located at the middle of the blade 72 with respect to the thicknesswise direction t.
In the key 71 of this embodiment, the sum of the depth of the first notch 76 in the thicknesswise direction t (hereafter, referred to as dimension D1) and the depth of the second notch 86 in the thicknesswise direction t (hereafter, referred to as dimension D2) is equal to the thickness of the blade 72 (hereafter, referred to as dimension D3). When viewed from a direction perpendicular to the plane of
The flange 87 extends between the first notch 76 and the first narrow side 74 of the blade 72. Further, the flange 88 extends between the second notch 86 and the second narrow side 75 of the blade 72. Thus, a groove is defined in each side of the blade 72 by the flange 87 or the flange 88. Thus, the key 71 functions in the same manner as a key having grooves formed in two opposite sides of the blade.
In addition to advantages (1), (3), (4), and (6) of the key 11 of the first embodiment, the key 71 of the second embodiment has the advantages described below.
(1) The key 71 provides the same level of security and convenience as the second key 101 of the prior art shown in
(2) The key 71 includes flanges 87 and 88 formed on opposite sides of the blade 72 in the widthwise direction W. Thus, the two serrations 39 and 65 do not protrude from the blade 72. This improves the feel of the blade 72.
It should be apparent to those skilled in the art that the present invention may be embodied in many other specific forms without departing from the spirit or scope of the invention. Particularly, it should be understood that the present invention may be embodied in the following forms.
In the first embodiment, the key 11 is formed so that the sum of the depth of the first notch 54 (dimension L1) and the depth of the second notch 64 (dimension L2) is equal to the thickness (dimension L3) of the blade 42. However, as shown in
In the first embodiment, the dimension L1 and the dimension L2 are equal to each other. However, the dimensions L1 and L2 do not have to be the same. Likewise, in the second embodiment, the dimension D1 and the dimension D2 are equal to each other. However, the dimensions D1 and D2 do not have to be the same.
In the first embodiment, the two serrations 39 and 65 are symmetric about the center line O2. However, the serrations 39 and 65 do not have to be symmetric. More specifically, the first serrations 39 and the second serrations 65 may be shaped differently. In this case, the number of plate tumblers retained in the cylinder lock 12 is increased from eight to sixteen. Eight plate tumblers engage the first serrations 39 and the remaining eight plate tumblers engage the second serrations 65. Such a key is not reversible. However, the security level of the key is increased since it is more difficult to duplicate.
In the key 11 of the first embodiment, the two serrations 39 and 65 are shaped in correspondence with the plate tumblers 21-28 of the cylinder lock 12. However, the serrations 39 and 65 may be shaped in correspondence with pin tumblers of a cylinder lock.
In the key 71 of the second embodiment, the first notch 76 is defined between two walls, with the first serrations 39 formed along the wall (serrated wall 76a) that is closer to the second narrow side 75. However, serrations may also be formed on the other wall of the first notch 76 that is closer to the first narrow side 74. Alternatively, the first serrations 39 may be eliminated, and serrations may be formed on only the wall of the first notch 76 that is closer to the first narrow side 74. The same modification may be made for the second notch 86 of the key 71.
In the first embodiment, the key 11 is made of metal. However, the key 11 may be made of any material such as a synthetic resin. The key 71 of the second embodiment may also be made of any material such as a synthetic resin.
The present examples and embodiments are to be considered as illustrative and not restrictive, and the invention is not to be limited to the details given herein, but may be modified within the scope and equivalence of the appended claims.
Number | Date | Country | Kind |
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2004-0274039 | Sep 2004 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2005/017908 | 9/21/2005 | WO | 00 | 2/20/2007 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2006/033454 | 3/30/2006 | WO | A |
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Number | Date | Country |
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282020 | Apr 1952 | CH |
2824809 | Dec 1979 | DE |
0356032 | Feb 1990 | EP |
2118620 | Nov 1983 | GB |
56-16779 | Feb 1981 | JP |
2004048724 | Jun 2004 | WO |
Number | Date | Country | |
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20090019904 A1 | Jan 2009 | US |