The present application is based on Japanese Patent Application No. 2007-101167 filed on Apr. 6, 2007, the entire contents of which are incorporated herein by reference.
1. Field of the Invention
The present invention relates to a cylinder lock device, in more particular, to a cylinder lock device in which functions are changed in accordance with a master key and a valet key.
2. Related Art
There are vehicle families which provide two kinds of key, one of which is a master key used by a driver for driving and another is a valet key. The valet key is used, for example, for depositing a vehicle by passing a key to a valet parking attendant of a hotel and entrusting him to move the vehicle to the parking etc. Both of the master key or the valet key can be used for locking or unlocking doors of the vehicle and start up an engine. Furthermore, it is possible to lock or unlock a trunk or a glove box with the master key, but not with the valet key.
Meanwhile, as a cylinder lock device used for the doors or the like of the vehicle, a cylinder lock device having a rotor arranged to be rotatable inside a body A in cylindrical shape and formed such that a key hole extends in an axial direction, has been known (for example, disclosed by JP-A-8-004378). In the cylinder lock device, a plurality of tumblers are provided in the rotor to be movable in a radial direction, and each tumbler is biased toward an outer radial direction and engaged with a sleeve. When a key is inserted into an insert hole, each tumbler is moved by a groove of the key. When a regular key is inserted, the engagement of each tumbler with the sleeve is released, so that the rotor and the sleeve are separated from each other to be rotatable. By rotating the key, a lever member is rotated together with the rotor to conduct the locking or unlocking operation.
However, in the conventional cylinder lock device disclosed by JP-A-8-004378, there is a problem in that it is not possible to change a function or an operation of the cylinder lock device in accordance with the master key or the valet key respectively.
Therefore, it is an object of the invention to provide a cylinder lock device by which it is possible to change the functions in accordance with the master key and the valet key.
According to the present invention, a cylinder lock device comprises:
a first body in cylindrical shape;
a rotor arranged to be rotatable inside the first body including a key insert hole to which a key is inserted, the key insert hole being formed to extend in an axial direction;
a first sleeve arranged to be rotatable between the first body and the rotor;
a second sleeve arranged to be rotatable between the first body and the rotor, and disposed more distant than the key insert hole;
a tumbler provided in the rotor to be movable in a radial direction to engage with the first sleeve or the second sleeve when biased to an outer radial direction and disengage with the first sleeve or the second sleeve when a regular key is inserted into the key insert hole;
a lever member arranged to be rotatable and facing to a key insert hole side in the rotor, for locking or unlocking a vehicle;
a first slide member arranged between the first sleeve and the first body, for moving in an axial direction toward the lever member each time the first sleeve rotates relatively to the first body at a predetermined angle;
a second body in a cylindrical shape arranged between the first and second sleeve,
a lock part for making the second body rotatably movable or immovable with respect to the first body;
a second slide member arranged between the second sleeve and the second body, the second slide member moving in the axial direction toward the lever member each time the second sleeve rotates relatively to the second body at a predetermined angle;
a clutch member arranged between the rotor and the lever member to be movable in the axial direction in the lever member, and allowed to engage or disengage with the rotor; and
a biasing member to bias the clutch member toward the rotor to be engaged with the rotor.
Preferably, the clutch member transmits a rotation of the rotor to the lever member when the key is a regular key in a state that the second body is made unrotatable by the lock part, and when the key is the regular key or a valet key in the state that the second body is made rotatable by the lock part.
Preferably, the valet key is provided with a different shape from the regular key in a part of a key tooth.
Preferably, each of the regular key and the valet key is provided with a key tooth shape corresponding to a first region, a second region or a third region of the tumbler, and the key tooth shape of the valet key is same as that of the regular key in the first region but the third region of the valet key is different from the second region of the regular key.
Preferably, the first sleeve is provided with an engaging groove to be engaged with an edge of the outer radial direction of the tumblers corresponding to the first region.
Preferably, the second sleeve is provided with an engaging groove engaged with an edge of the outer radial direction of the one tumbler corresponding to the second or third region is formed in the second sleeve.
Preferably, the first sleeve or the second sleeve rotates integrally with the rotor by engaging with each tumbler biased toward the outer radial direction.
Preferably, the first sleeve is in a substantially cylindrical shape, and provided with a pair of engaging grooves extending to the axial direction at a side thereof and a receiving groove for receiving the first slide member to be movable in the axial direction at the side thereof.
Preferably, the first slide member is formed in a substantially T-shape, received in the receiving groove of the first sleeve, and provided with an axial direction extending portion extending in the axial direction, and a circumferential direction extending portion extending in a circumferential direction at an edge of a clutch member side of the axial direction extending portion.
Preferably, the second sleeve is in a substantially cylindrical shape, and provided with a pair of engaging grooves extending to the axial direction at a side thereof and a receiving groove for receiving the second slide member to be movable in the axial direction at a side thereof.
Preferably, the second slide member is formed in a substantially T-shape, received in the receiving groove of the second sleeve, and has an axial direction extending portion extending in an axial direction and a circumferential direction extending portion extending in a circumferential direction at an edge of a clutch member side of the axial direction extending portion.
Preferably, the first body is formed in a step-like shape so that an inner diameter varies inside, and an end surface opposite to the circumferential direction extending portion in the axial direction extending portion of the first slide member slidably contacts to a step-like shaped sliding surface portion of the first body.
Preferably, the first body has a concave portion formed at a predetermined position on the sliding surface portion extending in the circumferential direction and both edges in the circumferential direction of the concave portion are inclined.
Preferably, both edges in the circumferential direction of the end surface of the first slide member are inclined.
Preferably, the second body has a step-like shaped sliding surface portion which slidably contacts to an end surface opposite to the circumferential direction extending portion in the axial direction extending portion of the second slide member.
Preferably, the second body has a concave portion formed at a predetermined position on the sliding surface portion extending in the circumferential direction and both edges in the circumferential direction of the concave portion are inclined.
Preferably, both edges in the circumferential direction of the end surface of the second slide member are inclined.
Preferably, the biasing member is a coil spring.
Preferably, the lock part is a solenoid installed in a periphery of the first body corresponding to a position of the second body.
Preferably, the solenoid makes the second body unrotatable with respect to the first body by a plunger of the solenoid which moves in a through hole of the first body and engages with a lock hole formed in the second body, and makes the second body rotatable with respect to the first body by the plunger which moves in the through hole of the first body and shunts toward the solenoid.
According to present invention, it is possible to provide the cylinder lock device by which it is possible to change the functions in accordance with the master key and the valet key.
Next, the present invention will be explained in more detail in conjunction with appended drawings, wherein:
A cylinder lock device 1 in the first preferred embodiment according to the present invention comprises a body A20 as a first body, a rotor 30 arranged to be rotatable inside the body A20 including a key insert hole 31 to which a key is inserted, the key insert hole 31 being formed to extend in an axial direction, a sleeve A40 as a first sleeve arranged to be rotatable between the body A20 and the rotor 30, a sleeve B45 as a second sleeve arranged to be rotatable between the first body and the rotor, and disposed more distant than the key insert hole 31, a tumbler 50 provided in the rotor 30 to be movable in a radial direction to engage with the sleeve A40 or the sleeve B45 when biased to an outer radial direction and disengage with the sleeve A40 or the sleeve B45 when a regular key is inserted into the key insert hole 31, a lever member 60 arranged to be rotatable and facing to a key insert hole side in the rotor 30, for locking or unlocking a vehicle, a slide bar A70 as a first slide member arranged between the sleeve A40 and the body A20, for moving in an axial direction toward the lever member 60 each time the sleeve A40 rotates relatively to the body A20 at a predetermined angle, a body B25 as a second body in a cylindrical shape arranged between the body A20 and the rotor 30, a solenoid 200 as a lock part for making the body B25 rotatably movable or immovable with respect to the body A20, a slide bar B75 as a second slide member arranged between the sleeve B45 and the body B25, the slide bar B75 moving in the axial direction toward the lever member 60 each time the sleeve B45 rotates relatively to the body B25 at a predetermined angle, a clutch member 80 arranged between the rotor 30 and the lever member 60 to be movable in the axial direction in the lever member 60, and allowed to engage or disengage with the rotor 30, and a coil spring 90 as a biasing member to bias the clutch member 80 toward the rotor 30 to be engaged with the rotor 30.
An edge of key insert hole side of the body A is covered with a case cover 11 and an edge opposite to the key insert side is covered with a switch unit 12. In the cylinder lock device 1, if the key is rotated in the state that the regular key is inserted in the rotor 30, the lever member 60 rotates together with the rotor 30. Here, the cylinder lock device 1 is provided with a clutch mechanism to idle the rotor 30 with respect to the clutch member 80 by releasing the engagement of the rotor 30 and the clutch member 80 when the rotor 30 is rotated with a force by an unauthorized key or a screwdriver, namely, a so-called freewheel system is adopted.
As shown in
The rotor 30 is in a substantially cylindrical shape and, as shown in
Furthermore, as shown in
Each tumbler 50 is biased in the outer circumferential direction by a spring 51 for a tumbler housed in each groove 37 respectively.
An engaging groove 41 to be engaged with an edge of the outer radial direction of the three tumblers 50 corresponding to the above-mentioned first groove region 401 is formed in the sleeve A40. Furthermore, an engaging groove 46 to be engaged with an edge of the outer radial direction of the one tumbler 50 corresponding to the second groove region 402 or the third groove region 403 is formed in the sleeve B45.
By engaging with each tumbler 50 biased to the outer radial direction, the rotor 30 and the sleeve A40 or the sleeve B45 rotate integrally.
A hole 52 corresponding to the regular key is formed in each tumbler 50 and each tumbler 50 moves in the radial direction in accordance with a groove shape of the key inserted to the rotor 30. When the regular key is inserted, all tumblers 50 are separated from the sleeve A40 and the sleeve B45 and the engagement is released, as a result, the rotor 30 and the sleeve A40, and the rotor 30 and the sleeve B45 are relatively rotatable to each other.
Meanwhile, when the valet key is inserted in the insert hole 31, three tumblers 50 corresponding to the first groove region 401 in
As shown in
In the same way, the sleeve B45 is in a substantially cylindrical shape and a pair of engaging groove 46 extending in the axial direction is formed on its side. Furthermore, a receiving groove 47 to receive the slide bar B75 to be movable in the axial direction is formed on the side surface of the sleeve B45. In this preferred embodiment, two slide bars B75 are provided, and the engaging groove 46 and the receiving groove 47 are arranged alternately at an interval of substantially 90°. Furthermore, the edge of the clutch member 80 side in the sleeve B45 is notched in accordance with a circumferential direction extending portion 77 of the slide bar B75.
As shown in
Similarly, as shown in
As shown in
As shown in
Each concave portion 81 is formed on an inner periphery of the receiving hole 82 of the key insert side in the clutch member 80. As a result, when each convex portion 36 of the rotor 30 has an angle not to fit to each concave portion 81, each convex portion 36 interferes with the surface of the key insert side to allow a relative rotation of the rotor 30 and the clutch member 80. Namely, a part other than the concave portion 81 in the clutch member 80 slidably contacts to the convex portion 36 in the state that the engagement of the clutch member 80 and the rotor 30 is released. As described above, a biasing force applied to the clutch member 80 from the coil spring 90 is received at the rotor 30 in the state that the engagement of the rotor 30 and the clutch member 80 is released.
Furthermore, a plurality of notches 85 for aligning the position with respect to the body A20 are formed in multiple positions at the outer periphery of the clutch member 80. Here, in this preferred embodiment, although the clutch member 80 is disengaged with the rotor 30 by moving in the axial direction, it may be configured to be disengaged with the lever member 60.
The coil spring 90 functions as a biasing member to bias the clutch member 80 to engage with the rotor 30. The coil spring 90 is wound around the cylindrical portion 83 and the connecting portion 84 of the clutch member 80, and sandwiched by a surface of the lever member 60 side of the clutch member 80 and a surface of the rotor 30 side of the lever member 60, so as to bias the slide bar A70, the slide bar B75, the sleeve A40 and the sleeve B45 toward the key insert side through the clutch member 80.
The lever member 60 is configured to be rotatable and facing to the key insert side in the rotor 30, and doors, trunk or the like of a vehicle is locked or unlocked by a rotation of the lever member 60. The doors may be locked or unlocked, for example, directly by connecting a wire for a door lock to the lever member 60, or indirectly by providing a switch to detect a rotation angle of the lever member 60.
A solenoid 200 has a function to make the body B25 rotatably movable or immovable with respect to the body A20. The solenoid 200 is installed to the position corresponding to a position of the body B25 on the outer periphery of the body A20 and makes the body B25 unrotatable with respect to the body A20 by a plunger 201 of the solenoid 200 which moves in a through hole 20a of the body A20 to engage with a lock hole 26 formed in the body B25. Furthermore, the solenoid 200 makes the body B25 rotatable with respect to the body A20 by the plunger which moves in a through hole of the first body and shunts to the solenoid side. As the solenoid 200, it is possible to use a solenoid which is operated by using a permanent magnet and a magnet coil, to move the plunger 201 in an inverse direction by changing a polarity of electrification. However, other actuators may be used, for example, and may be configured such that the lock member is moved by a combination of a motor and a gear to make the body B25 rotatably movable or immovable.
In the preferred embodiment according to the present invention, an operation configuration for making the body B25 rotatably movable (ON) or immovable (OFF) with respect to the body A20 by operating the solenoid 200 is called as a valet system. A user such as an owner, a user, a driver, a crew or the like of a vehicle conducts ON/OFF operations of the solenoid 200 by a switch (not shown). The operation of the cylinder lock device 1 will be explained about the combination of the ON/OFF status of this valet system and respective key types (a regular key, a valet key, an unauthorized key) inserted in the key insert hole 31 of the rotor 30.
(1) Operation of the cylinder lock device 1 in the state that the valet system is OFF.
(1-1) When the regular key is inserted in the key insert hole 31, all tumblers 50 are separated from the sleeve A40 and the sleeve B45 and the engagement therebetween is released, as a result, the rotor 30 and the sleeve A40, and, the rotor 30 and the sleeve B45 are relatively rotatable (see
The rotor 30 is rotated by rotating the regular key, the sleeve A40 and the sleeve B45 are not rotated. Therefore, since the slide bar A70 and the slide bar B75 received in the sleeve A40 and B45 are not moved in the axial direction and the convex portion 36 of the rotor 30 and the concave portion 81 of the clutch member 80 remain fitted and engaged, the rotation of the rotor 30 is transmitted to the lever member 60 and the locking or unlocking operation is conducted.
(1-2) When the valet key is inserted in the insert hole 31, three tumblers 50 corresponding to the first groove region 401 in
The rotor 30 is rotated by rotating the valet key, while the sleeve A40 is not rotated. However, the sleeve B45 is rotated with the rotor 30 integrally. Here, in the state that the valet system is OFF, since the body B25 is immovable with respect to the body A20, the slide bar B75 received in the sleeve B45 receives a force in the axial direction by the inclination in the circumferential direction of an edge surface 78 and the concave portion 28 of the body B25 by the rotation of the sleeve B45, each slide bar B75 is smoothly inserted to and extracted from the concave portion 28 and moves toward the clutch member 80.
As a result, each slide bar B75 pushes the clutch member 80 toward the lever member 60, so that the engagement between the convex portion 36 of the rotor 30 and the concave portion 81 of the clutch member 80 is released. As a result, the rotation of the rotor 30 is not transmitted to the lever member 60 and the locking or unlocking operation is not conducted. Namely, the valet key is not provided with the same function as that of the regular key. However, even though the key groove shape of the valet key is partially different from that of the regular key, the shape of other parts is identical to each other. Therefore, it is possible to conduct the same function as that of the regular key by the identical parts.
(1-3) When the unauthorized key is inserted in the key insert hole 31, since all tumblers 50 are not separated from the sleeve A40 and the sleeve B45 and the engagement therebetween is not released, the rotor 30 and the sleeve A40, and, the rotor 30 and the sleeve B45 are rotated integrally, respectively (see
The slide bar A70 received in the sleeve A40 receives a force in the axial direction by the inclination in the circumferential direction of the edge surface 73 and the concave portion 23 of the body A20 by the rotation of the sleeve A40, each slide bar A70 is smoothly inserted to and extracted from the concave portion 23 and moves toward the sleeve B45.
Furthermore, the slide bar B75 received in the sleeve B45 receives a force in the axial direction by the incline in circumferential direction of its edge surface 78 and the concave portion 28 of the body B25 by the rotation of the sleeve B45, each slide bar B75 are inserted and extracted to the concave portion 28 smoothly and moves toward the clutch member 80.
The clutch member 80 is pushed toward the lever member 60 by movement of the slide bar A70 and the slide bar B75, the engagement between the convex portion 36 of the rotor 30 and the concave portion 81 of the clutch member 80 is released. As a result, the rotation of the rotor 30 is not transmitted to the lever member 60 and the locking or unlocking operation is not conducted. Namely, the valet key is not provided with the same function as that of the regular key. Furthermore, since the key grooves of the unauthorized key are different in all shapes from those of the regular key, it is not possible to conduct the same functions as those of the regular key.
(1) The operation of the cylinder lock device 1 in the state that the valet system is ON.
(2-1) When the regular key is inserted in the key insert hole 31 and rotated, the operation thereof is same as that of the cylinder lock device 1 in the state that the valet system is ON.
(2-2) When the valet key is inserted in the insert hole 31, the three tumblers 50 corresponding to the first groove region 401 in
The rotor 30 is rotated by rotating the valet key, while the sleeve A40 is not rotated. However, the sleeve B45 is rotated together with the rotor 30 integrally. Here, since the body B25 is rotatably movable to the body A20 in the state that the valet system is ON, the sleeve B45 and the body B25 are rotated integrally with the edge surface 78 of the slide bar B75, and the concave portion 28 of the body B25 is still engaged. Therefore, the slide bar B75 is not moved toward the clutch member 80.
Therefore, since the slide bar A70 and the slide bar B75 received in the sleeve A40 and the sleeve B45 are moved in the axial direction, and the convex portion 36 of the rotor 30 and the concave portion 81 of the clutch member 80 remain fitted and engaged, the rotation of the rotor 30 is transmitted to the lever member 60 and the locking or unlocking operation is conducted.
Namely, the valet key is provided with the same function as that of the regular key. However, even though the shape of the key groove of the valet key is partially identical to that of the regular key, the shape of other parts of the valet key does not coincide with those of the regular key, so that it is possible to suppress the same function as the regular key by providing the different parts.
(2-3) When the unauthorized key is inserted in the key insert hole 31, since all tumblers 50 are not separated from the sleeve A40 and the sleeve B45 and the engagement therebetween is not released, the rotor 30 and the sleeve A40, and, the rotor 30 and the sleeve B45 are rotated integrally respectively (see
The slide bar A70 received in the sleeve A40 receives a force in the axial direction by the inclination in the circumferential direction of the edge surface 73 and the concave portion 23 of the body A20 by the rotation of the sleeve A40, each slide bar A70 is smoothly inserted to and extracted from the concave portion 23, and is moved toward the sleeve B45.
Meanwhile, in the state that the valet system is ON, since the body B25 is rotatably movable with respect to the body A20, the sleeve B45 and the body B25 are rotated integrally with the edge surface 78 of the slide bar B75 and the concave portion 28 of the body B25 is still engaged. Therefore, the slide bar B75 is not moved toward the clutch member 80.
However, since the slide bar A70 is moved toward the sleeve B45 by a rotation of the sleeve A40, the clutch member 80 is pushed toward the lever member 60 through the sleeve B45, the engagement between the convex portion 36 of the rotor 30 and the concave portion 81 of the clutch member 80 is released. As a result, the rotation of the rotor 30 is not transmitted to the lever member 60 and the locking or unlocking operation is not conducted. Namely, the unauthorized key is not provided with the same function as that of the valet key or the regular key. Furthermore, since the key grooves of the unauthorized key are different in all shapes from those of the regular key, it is not possible to conduct the same functions as those of the regular key.
(1) According to the cylinder lock device in the first preferred embodiment, the valet system can be turned ON or OFF by the user's purpose, it is possible to store the valet key in a glove box of the vehicle, and the like. Generally, the valet key is not used improperly if the valet system is turned OFF. Therefore, there is an effect that the user does not need to carry an extra key (a valet key).
(2) Although it is possible to lock, unlock and start up the engine by turning the valet system ON or OF, it is also possible to unable unlocking of a trunk or a glove box in the vehicle, and to change the function of the regular key and the valet key.
(3) It is possible to realize the high security cylinder lock device by simply adding few parts to the conventional cylinder lock device.
The cylinder lock device in the second preferred embodiment according to the present invention is similar to that in the first preferred embodiment in that ID check is conducted by an immobilizer in a motion control of the valet system. In the first preferred embodiment, the user conducts the ON/OFF operation of the solenoid 200 by a switch etc., however, in the second preferred embodiment, the ID is checked by the immobilizer to improve the security.
The immobilizer is a system in which an IC chip called as a transponder 324 is incorporated in a portable device 320, the same ID code (identification code) is stored in the transponder 324 and an immobilizer ECU (Electric Control Unit) 301 in the vehicle, the ID code is transmitted from the portable device 320 when approached to the vehicle side immobilizer 330 and it is possible to start up the engine or to operate an in-vehicle equipment when the portable device 320 coincides with the ID code of the immobilizer ECU 301.
The portable device 320 comprises an antenna coil 321, a capacitor circuit 322 for obtaining a direct voltage by rectifying an electromotive force induced by the antenna coil 321, an electrolytic capacitor 323 for storing an output power of the capacitor circuit 322, and the transponder 324 operated by an electrical power stored in the electrolytic capacitor 323 as a power source.
The transponder 324 is configured to previously store the ID code of the portable device 320 and to transmit the ID code by using an electric power as a power source when the electric power greater than a predetermined value is stored in the electrolytic capacitor 323 by the capacitor circuit 322.
The immobilizer ECU 301 comprises an antenna coil 315, a CPU 316, an EEPROM (Electronically Erasable and Programmable Read Only Memory) 316a for storing the ID code of the vehicle side, an amplifier 318 for amplifying a signal (ID code) received at the antenna coil 315, and a magnetic flux generation circuit 319 for outputting a power signal to the antenna coil 315.
The solenoid 200 is connected to the CPU 316 through a driver circuit 341. Furthermore, a valet system switch 340 is connected through an interface circuit (not shown).
When the portable device 320 is approached to the antenna coil 315 of the immobilizer ECU 301, the power signal and a request signal are transmitted from the antenna coil 315 to the portable device 320. In the portable device 320, the power signal received by the antenna coil 321 is rectified by the capacitor circuit 322 to provide the direct voltage, the transponder 324 is operated by storing this voltage to the electrolytic capacitor 323 as power source and the request signal overlapped with the power signal is detected.
The transponder 324 converting the ID code read out from the EEPROM (not shown) in the portable device 320 into an electric wave with a predetermined frequency to transmit the electric wave from the antenna coil 321, when the request signal transmitted from the antenna coil 321 corresponds to the portable device 320.
The ID code read from the portable device 320 is received through the antenna coil 315 of the immobilizer ECU 301. The CPU 316 demodulates the received signal to generate the ID code and compares the demodulated ID code with the ID code stored in the EEPROM 316a.
When the valet system switch is turned ON in the state that both ID codes matches with each other and an ID authentication is approved, the solenoid 200 is activated through the driver circuit 341, thereby making the body B25 rotatably movable with respect to the body A20 (the valet system is ON) by moving the plunger 201 of the solenoid 200.
(1) According to the cylinder lock device in the second preferred embodiment, since the ID authentication by the immobilizer is required for the operation of the valet system, it is possible to provide the cylinder lock device with the security higher than that of the first preferred embodiment.
(2) In vehicles of recent years, a portable device incorporating the immobilizer is widely used, and it is possible to realize a cylinder lock device with extremely high security by simply adding few parts onto the conventional cylinder lock device while reducing the cost.
Although the invention has been described with respect to the specific embodiments for complete and clear disclosure, the appended claims are not to be therefore limited but are to be construed as embodying all modifications and alternative constructions that may occur to one skilled in the art which fairly fall within the basic teaching herein set forth.
Number | Date | Country | Kind |
---|---|---|---|
2007-101167 | Apr 2007 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
5265453 | Konii et al. | Nov 1993 | A |
5577409 | Oyabu et al. | Nov 1996 | A |
6711924 | Ritz | Mar 2004 | B2 |
7472570 | Yamaguchi et al. | Jan 2009 | B2 |
20090038351 | Tamezane et al. | Feb 2009 | A1 |
20100132420 | Flandrinck | Jun 2010 | A1 |
Number | Date | Country |
---|---|---|
8-4378 | Jan 1996 | JP |
Number | Date | Country | |
---|---|---|---|
20080245119 A1 | Oct 2008 | US |