Patent Grant
7360382
Not Applicable
This invention relates to a cylinder lock assembly, and in particular an automotive ignition lock cylinder having a lock cylinder that is axially and rotatably movable in an inner core of a cylindrical lock housing.
A prior art ignition lock assembly, shown in
The prior art ignition lock assembly is operated by inserting a key into the key slot of the lock cylinder. Upon entry of the key into the key slot, the leading end of the key engages the rotation plate which prevents full insertion of the key into the key slot. The user must urge the rotation plate, and thus the entire lock cylinder, axially forward until the rotation plate is aligned with an opening formed adjacent the rotation ring. Upon alignment of the rotation plate with the opening, the rotation plate is urged radially into the rotation ring opening by a spring to lock the lock cylinder in an axially forward position and clear the key slot for further insertion of the key into the key slot. Unfortunately, the force required to urge the lock cylinder axially forwardly is annoying and detracts from the image of certain luxury vehicles.
The present invention provides a cylinder lock assembly including a rotation plate assembly that allows the insertion of a key into the cylinder lock assembly key slot without first forcing the lock cylinder axially. The cylinder lock assembly includes a cylindrical lock housing having an inner core extending between first and second ends. The inner core defines a core axis extending through the first and second ends. A lock cylinder is received in the inner core for rotational and axial movement in the inner core. The lock cylinder includes an axially extending key slot for receiving a key therein and a radially extending slot extending through the lock cylinder and intersecting the key slot. A rotation plate assembly is received in the radially extending slot and blocks at least a portion of the key slot.
The rotation plate includes first and second rotation plate members which are movable relative to each other. A first biasing member engaging the first and second rotation plate members urges the second rotation plate member radially away from the first rotation plate member. The first and second rotation plate members define a space therebetween having a variable radial dimension for receiving therethrough the key received in the key slot, wherein upon insertion of the key through the space and into the key hole, the key engages the first rotation plate member to urge the first rotation plate member radially toward the second plate member against the urging of the first biasing member to allow the key to enter the key slot through the space.
A general objective of the present invention is to provide a cylinder lock assembly that does not require axially moving the lock cylinder to insert the key into the key slot. This objective is accomplished by providing a rotation plate assembly including first and second rotation plate members that are movable relative and define a space therebetween to allow a key through the space and into the key slot without axially moving the lock cylinder.
Another objective of the present invention is to provide a cylinder lock assembly that moves the lock cylinder axially upon rotation of the lock cylinder. This objective is accomplished in a preferred embodiment of the invention by providing a camming member which extends radially from the lock cylinder and engages a camming surface formed on the cylindrical lock housing to urge the lock cylinder axially upon rotation of the lock cylinder.
The foregoing and other objects and advantages of the invention will appear from the following description. In the description, reference is made to the accompanying drawings which form a part hereof, and in which there is shown by way of illustration a preferred embodiment of the invention.
Before a preferred embodiment of the invention is explained in detail, it is to be understood that the invention is not limited in its application to the details of the construction and the arrangements of components set forth in the following description or illustrated in the drawings. The invention is capable of other embodiments and of being practiced or being carried out in various ways. Also, it is understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting.
As shown in
The cylindrical lock housing 18 is formed from any suitable material, such as plastic, metal, and the like, and includes a cylindrical wall 32 defining a cylindrical core 34. The core 34 is coaxial with a core axis 40 extending through the axial ends 36, 38 of the housing 18. The housing 18 receives the lock cylinder 22 in the core 34 which extends through housing ends 36, 38. As is known in the art, a sidebar locking channel (not shown) formed in the cylindrical wall 32 opens into the core 34 and is engageable with a locking sidebar (not shown) forming part of the lock cylinder 22 to prevent rotation of the lock cylinder 22 in the lock housing 18.
The rear end 36 of the housing 18 includes an axially inner lip 42 radially spaced from the cylindrical core 34 and coaxial with the core axis 40. The axially inner lip 42 is joined to an axially rearward outer edge 44 of the housing cylindrical wall 32 and axially spaced from the core first open end 36 to define a first receptacle 46 for receiving the rotation ring 20. An axially outer lip 48 joined to an axially outer edge 50 of the axially inner lip 42 is radially spaced from the cylindrical core 34 and coaxial with the core axis 40 to define a second receptacle 52 axially spaced from the first receptacle 46 for receiving a rear end 54 of the lock cylinder 22.
The front end 38 of the housing 18 includes an axially forward facing edge 56 having an axial slot 62. One surface 64 of the slot 62 is substantially parallel to the core axis 40, while an opposing surface 66 of the slot 62 defines an angle with the core axis 40 to form the camming surface 28 leading to the axially forwardly facing edge 56.
The rotation ring 20 is received in the first receptacle 46 and is coaxial with the core axis 40. A radially outwardly facing surface 72 of the rotation ring 20 abuts the axially inner lip 42, and a radially inwardly facing surface 74 of the rotation ring 20 spaced from the radially outwardly facing surface 72 is, preferably, substantially flush with the inner core 34 to define an axial extension of the inner core 34 for receiving the lock cylinder 22. The radially inwardly and outwardly facing surfaces 74, 72 are joined by axially front and rear edges 76, 78. The axially rear edge 78 is substantially planar and abuts a face plate 80 closing the housing rear end 36.
The axially front edge 76 defines a gap 88 between the rotation ring 20 and the housing rearward edge 44 for engaging the rotation plate assembly 24, and includes a substantially planar semicircular portion 82 that has an axially forwardly facing surface 84 that abuts the axially rearward facing edge 44 of the housing cylindrical wall 32. The semicircular portion 82 is joined by a chamfered semicircular portion 85 having an axially forward facing surface 86 axially spaced from the axially forward facing surface 84 of the substantially planar semicircular portion 82. The axially forward facing surface 86 of the chamfered semicircular portion 85 defines the gap 88 between the axially rearward edge 44 of the housing cylindrical wall 32 and the chamfered semicircular portion 85 for engaging the rotation plate assembly 24.
The rotation ring 20 is fixed in the first receptacle 46 by a retention pin (not shown) and a nub 94. The nub 94 is received in a first axial slot 90 formed in the radially outwardly facing surface 72 of the rotation ring 20 which intersects a circumferential slot 92 formed in the radially outwardly facing surface 72. The axial and circumferential slots 90, 92 receive the nub 94, or locating pin, extending inwardly into the core 34 from the housing cylindrical wall 32 to properly locate the rotation ring 20 in the first receptacle 46 relative to the retention pin. Preferably, the retention pin is press fit through an aperture 96 formed through the cylindrical wall 32 and engages a flat 98 formed on the radially outwardly facing surface 72 of the rotation ring 20. In addition, the rotation ring 20 is preferably located in the first receptacle 46 to align an axial slot 100 formed in the inwardly facing surface 74 between the rotation ring edges 76, 78 with the sidebar locking channel formed in the cylindrical wall 32.
The lock cylinder 22 is received through the cylindrical lock housing core 34 and rotation ring 20, and includes a cylindrical body 102 defining the axial key slot 16. The body 102 houses tumblers 104 engageable with the key 14 inserted in the key slot 16 to extend and retract the locking sidebar 39. As is known in the art, the proper key 14 aligns the tumblers 104 such that the lock cylinder 22 is rotatably and axially movable in the lock housing 18 between a rearward position (
As shown in
The front end 108 of the lock cylinder body 102 extends through the front end 38 of the housing 18. Transverse slots 114 formed in a portion of the lock cylinder body front end 108 extending past the housing front end 38 engage a snap ring 116 to prevent the lock cylinder body 102 from slipping out of the cylindrical lock housing 18 through the first end 36 of the housing 18. An axially extending lever 118 extending from the lock cylinder body front end 108 is engageable with devices, such as an electronic switch, steering wheel lock, and the like, when the lock cylinder 22 is in the forward position. A radial slot 120 extending through the lock cylinder 22 proximal its rear end 54 receives the rotation plate assembly 24 that holds the lock cylinder 22 in the forward position when the key 14 is fully inserted into the key slot 16 and the lock cylinder 22 has moved into the forward position, such as upon rotation of the lock cylinder 22 by the user, as described below.
Referring to
The first rotation plate member 122 includes a pair of spaced sidebars 128, 130 having one end joined by a cross bar 132. One of the sidebars 128 includes a ledge 134 extending toward the other sidebar 130. A rearward facing ramp 136 leading up to the ledge 134 engages the key 14 inserted into the space 126 to urge the first rotation plate member 122 toward the second rotation plate member 124. A second rearward facing ramp 138 formed in the crossbar 132 guides the key 14 into the space 126 and into engagement with the ledge 134. Advantageously, engaging the key 14 with the ledge 134 as the key 14 is inserted through the space 126 into the key slot 16 compresses a first biasing member 140 interposed between the first and second rotation plate members 122, 124. Preferably, an arm 142 extending from the one sidebar 128 away from the other sidebar 130 engages one end 144 of the first biasing member 140, such as a helical spring, which biases the second rotation plate member 124 away from the first rotation plate member 122.
The second rotation plate member 124 also includes a pair of spaced sidebars 146, 148 joined at one end by a crossbar 150. The sidebars 146, 148 of the second rotation plate member 124 slidably engage the sidebars 128, 130 of the first rotation plate member 122, and in cooperation with the first rotation plate member 122 define the space 126 therebetween for receiving the key. An arm 152 extending from one of the second rotation plate member sidebars 146 engages an opposing end 154 of the first biasing member 140. A beveled lip 156 formed on the crossbar 150 of the second rotation plate member 124 extends away from the first rotation plate member 122, and is received in the gap 88 to lock the lock cylinder 22 in the forward position.
The first biasing member 140 is, preferably, interposed between the arms 142, 152 of the first and second rotation plate members 122, 124, and biases the second rotation plate member 124 away from the first rotation plate member 122 upon insertion of the key 14 into the space 126. Although a single helical spring is preferred, one or more biasing members, such as the helical spring, an elastomeric material, a leaf spring, and the like, can be used without departing from the scope of the invention. As shown in
A second biasing member 158 interposed between the second rotation plate member 124 and the rotation ring 20 urges the beveled lip 156 out of the gap 88 upon removal of the key 14 from the key slot 16. Preferably, the second biasing member 158 is a helical spring having one end 160 engaging the arm 152 extending from the second rotation plate member sidebar 148 urges the second rotation plate member 124 radially against the urging of the first biasing member 140. As a result, upon removal of the key 14 from the key slot 16, and thus the space 126, the second rotation plate member 124 is “unloaded” (i.e. the first biasing member is uncompressed) and the second biasing member 158 overcomes the urging of the first biasing member 140 to urge the second rotation plate member beveled lip 156 radially out of the gap 88 to allow axial movement of the lock cylinder 22 toward the rearward position.
Referring now to
In use, referring to
Rotation of the lock cylinder 22 engages the camming member 26 with the camming surface 28 to pull the lock cylinder 22 axially toward the forward position and engage the axially extending lever 118 with a device. Advantageously, rotation of the lock cylinder 22 urges the lock cylinder 22 axially forward, as opposed to an axial force exerted onto the lock cylinder 22 by the user, to provide a smooth and non-annoying action by the user. Of course, the lock cylinder 22 can be urged forwardly by the user to lock the lock cylinder 22 in the forward position, as in the prior art ignition lock assembly.
As shown in
As shown in
While there has been shown and described what are at present considered the preferred embodiment of the invention, it will be obvious to those skilled in the art that various changes and modifications can be made therein without departing from the scope of the invention defined by the appended claims. Therefore, various alternatives and embodiments are contemplated as being within the scope of the following claims particularly pointing out and distinctly claiming the subject matter regarded as the invention.
This application claims the priority benefit of U.S. Provisional Patent Application No. 60/650,995 filed on Feb. 8, 2005.
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| Number | Date | Country | |
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| 20060225471 A1 | Oct 2006 | US |
| Number | Date | Country | |
|---|---|---|---|
| 60650995 | Feb 2005 | US |
