JP5460295B2 - Cylinder lock protector - Google Patents

Description

  The present invention relates to a cylinder lock protection device that can prevent the cylinder lock of a motorcycle or the like from being broken.

  A cylinder lock of a motorcycle usually has a rotor formed with a key hole into which an ignition key can be inserted and removed, and conventionally, a cylinder lock is tampered with by inserting a scissor or a driver into the key hole. For example, a cylinder lock protection device as disclosed in Patent Document 1 has been proposed. Such a protective device has a shutter slidable from a closed position where the key hole is closed to an open position where the key hole is open, and holds the shutter slidably between the open position and the closed position. And a magnet lock that closes and locks the key hole by holding the shutter in the closing position, and a magnet key that unlocks the magnet lock by the magnetism of the magnet.

  According to the cylinder lock protection device, the key hole can be closed by performing an operation of pushing a part of the shutter protruding from the housing into the housing, and can be locked with the magnet lock at that position. In other words, an operation unit for setting the shutter to the closed position is formed, and the driver operates the operation unit to set the shutter to the closed position and cover the key hole to protect the cylinder lock. It is.

JP-A-11-44132

  However, in the above-described conventional cylinder lock protection device, since the driver operates the operation unit to place the shutter in the closed position, the operation is troublesome, and the shutter is not in the closed position (the protective device is functioning). There is a problem that parking frequently occurs in a state of not allowing it to occur. In other words, in order to set the shutter to the closed position, two operations of removing the ignition key and the subsequent operation of the operation unit are necessary, so that many users feel that the operation of the operation unit is troublesome, and protection. This causes the problem of parking in a state where the device does not function.

  In order to avoid such a problem, the applicant of the present invention has a biasing means for constantly biasing the shutter to the closed position, a locking means for locking the shutter biased by the biasing means at the open position, A release means for releasing the lock by the means, and by releasing the lock by the lock means by the release means, the shutter is moved to the closed position by the urging force of the urging means to be locked. It was. As a result, the shutter closing operation can be performed by the urging force of the urging means, and the operability is expected to be further improved.

  On the other hand, it has been studied to provide a magnet lock having a magnet for engaging and locking when the shutter is in the closed position, and locking the shutter in the closed position with the magnet lock. However, in the configuration in which the lock is made by the magnetic lock, it is troublesome to unlock the shutter at the closed position and operate to the open position. In addition, the magnetic lock has a limited key type, and means for further suppressing fraud is required.

  The present invention has been made in view of such circumstances, and can improve the operability by performing the shutter closing operation by the biasing force of the biasing means, and is in the blocking position while suppressing illegal acts. An object of the present invention is to provide a cylinder lock protection device that can easily unlock the shutter and improve the operability during unlocking.

According to a first aspect of the present invention, there is provided a housing provided above a rotor in which a key hole for inserting and removing an ignition key is formed, and is movable between a closed position and an open position in the housing. A shutter that closes the key hole at a position and opens the key hole at an open position; a locking means that locks the shutter in the closed position; and a lock that is unlocked by the locking means, and the shutter is opened from the closed position. Unlocking means that can be moved to a position, an urging means that constantly urges the shutter to the closed position, a locking means that locks the shutter urged by the urging means in the open position, Releasing means for releasing the locking by the locking means, and when the ignition key is removed from the rotor, the shutter is closed by the biasing force of the biasing means. A cylinder lock protection device that can be moved by the cylinder lock to protect the cylinder lock, wherein the unlocking means is formed in a grip portion of the ignition key and is capable of transmitting a vehicle-specific authentication code; A receiving unit capable of receiving the authentication code from the transmitting unit in a non-contact manner when the unit is in proximity, and an authenticating unit for authenticating whether the authentication code received by the receiving unit is genuine comprising a, only when the official authentication code is authenticated as being received by the authentication means, to release the lock by said locking means, the configuration of said shutter which is movable to the open position state in a closed position And an authentication start switch for starting authentication by the authentication means, and an operation knob for turning on and off the authentication start switch. OFF position to turn off the serial authentication start switch, a second position for turning on the authentication start switch, and is operable between a third position for moving the shutter lock is released by the locking means to the open position It is characterized by that.

According to a second aspect of the invention, the protective device of the cylinder lock according to claim 1, wherein the operation knob is engageable with the grip portion of the ignition key, engaging the gripping portion of the ignition key to the operation knob It is possible to operate between the first position, the second position, and the third position by moving them together.

According to a third aspect of the invention, the protective device of the cylinder lock according to claim 2, wherein the receiving means is characterized in that it is disposed in the vicinity of the operation knob.

According to a fourth aspect of the present invention, in the cylinder lock protection device according to any one of the first to third aspects, the locking means comprises a solenoid capable of moving the plunger by energization, and is closed by the plunger. The shutter in a position can be locked.

  According to the first aspect of the present invention, the operability can be improved by performing the shutter closing operation with the urging force of the urging means, and only when it is authenticated that the authentic authentication code has been received by the authentication means, Since the lock by the locking means is released and the shutter in the closed position can be moved to the open position, the unlocking operation can be easily performed while unlocking the shutter in the closed position while suppressing unauthorized actions. Can be improved.

Further , the operation knob can be operated between an off position where the authentication start switch is turned off, a second position where the authentication start switch is turned on, and a third position where the shutter unlocked by the locking means is moved to the open position. Therefore, the shutter from the closed position can be unlocked by the operation from the first position to the second position, and then the shutter can be opened by the operation to the third position. The operation and the movement to the open position can be performed more smoothly and easily.

According to the second aspect of the present invention, the operation knob can be engaged with the grip portion of the ignition key, and the first position and the second position can be obtained by moving the grip portion of the ignition key while engaging the operation knob. And the third position can be operated, so that the reception by the reception means and the authentication by the authentication means can be performed in parallel with the unlocking operation of the shutter and the movement operation to the open position, and the operability is further improved. Can be improved.

According to the invention of claim 3 , since the receiving means is disposed in the vicinity of the operation knob, when the operation knob is operated, the receiving means can more reliably receive the authentication code from the transmitting means. it can.

According to the invention of claim 4 , the locking means is composed of a solenoid capable of moving the plunger by energization, and the shutter in the closed position can be locked by the plunger, so that the shutter can be locked more reliably. In addition, the entire protection device for the cylinder lock can be reduced in size.

1 is an external perspective view showing a cylinder lock protection device according to an embodiment of the present invention. The top view and front view showing the protection device of the cylinder lock The top view which shows the internal structure in the protection device of the cylinder lock Rear view showing the cylinder lock protection device VV line sectional view in FIG. The top view and front view which show the ignition key in the protection device of the cylinder lock The schematic diagram which shows the state which engaged the holding part of the ignition key in the protection device of the cylinder lock with the operation knob Block diagram showing unlocking means and its peripheral components in the cylinder lock protection device Plan view showing the internal structure of the cylinder lock protection device (on the way from the open position to the closed position) Plan view showing the internal structure of the cylinder lock protection device (on the way from the open position to the closed position) The top view which shows the internal structure in the protection device of the cylinder lock (state where the shutter is in the closed position) The top view which shows the internal structure in the protection device of the cylinder lock (the state where the shutter is in the closed position by the operation of the operator) Plan view showing the internal structure of the cylinder lock protection device (authentication start state) The top view which shows the internal structure in the protection device of the cylinder lock (the operation process in the shutter opening operation)

Hereinafter, embodiments of the present invention will be specifically described with reference to the drawings.
The cylinder lock protection device according to the present embodiment is provided above the key hole of the cylinder lock of the two-wheeled vehicle, and can protect the cylinder lock by allowing the key hole to be opened and closed from the outside. As shown in FIG. 8, the housing 1, the shutter 3, the solenoid 9 (see FIG. 5) as the locking means, the unlocking means 5 (see FIG. 8), the torsion spring 4 as the biasing means, It mainly comprises an engaging convex portion 6a as a stopping means, a releasing means having an interlocking portion 2b and a left and right slider 6, an operating element 10, an authentication start switch 11, and an operating knob 12.

  The housing 1 is provided above the rotor 2 and accommodates various components excluding a transponder (transmission means) described later, and can accommodate an upper end portion of a cylinder body (not shown) constituting a cylinder lock. It has become. A rotor 2 having a plurality of tumblers is disposed in the cylinder body, and a key hole 2a is formed in the rotor 2 so that the ignition key IK can be inserted / removed (removed / removed). .

  The rotor 2 can be rotated with the ignition key IK inserted into the key hole 2a. The rotor 2 can be turned on, the off position where the engine is stopped, the off position where the engine is stopped, and the vehicle It can be rotated between lock positions for locking the handlebars provided. When the rotor 2 is in the off position, the ignition key IK inserted into the key hole 2a is pressed and pushed, and in this state, the left side in the figure is rotated to enable the rotation operation to the lock position. ing.

  When the rotor 2 moves to this lock position, a lock bar (not shown) in the cylinder body protrudes, and the lock bar is in a lock hole (not shown) formed on the rotation shaft of the handle bar. The handlebar is locked by being inserted and locked. Reference symbol S in the figure indicates a moderation imparting spring for imparting moderation associated with the rotation operation of the rotor 2, and the tip end portion of the moderation imparting spring S is configured to enter a recess formed in the rotor 2. ing.

  On the other hand, as shown in FIG. 6, the ignition key IK is configured to include a gripping portion IKa made of a molded part such as a resin and a key portion IKb in which key ridges and key grooves are formed. In the IKa, a transponder 14 as a transmission means is embedded. Further, as shown in FIG. 7, a part of the gripping part IKa (a part on the opposite side of the key part IKb) has a concave shape P that can be engaged with the convex knob part 12a of the operation knob 12. The engaged portion IKc is formed. That is, the engaging portion IKc can be engaged with the operation knob 12 by fitting the concave shape P to the knob 12 a of the operation knob 12.

  The shutter 3 can be moved (turned) between a closed position and an open position in the housing 1, and can close the key hole 2a at the closed position and open the key hole 2a at the open position. Specifically, the base end 3b of the shutter 3 is fitted into a boss portion 1a formed on the housing 1, and is rotatable about the boss portion 1a. The shutter 3 is at the position shown in FIG. 3 at the open position and opens the key hole 2a, and at the closed position is shown in FIG. 11, and covers the key hole 2a.

  The shutter 3 is formed with an engaging portion 3a that can engage with the engaging convex portion 6a and lock the shutter 3 in the open position. The engaging convex portion 6a constitutes a locking means for locking the shutter 3 biased by the torsion spring 4 as a biasing means at an open position, and is integrally formed on the left and right sliders 6. Become. Further, on the base end side of the shutter 3, a locked portion 3 c that contacts the plunger 9 a of the solenoid 9 and locks the shutter 3 is integrally formed, and extends toward the operation knob 12. The engaged portion 3d is integrally formed.

  The torsion spring 4 as an urging means is for constantly urging the shutter 3 to the closed position by engaging one end with the shutter 3 and the other end with the housing 1. Instead of the torsion spring 4, other urging means (such as a leaf spring or an elastic body) that constantly urges the shutter 3 to the closed position may be used.

  As shown in FIG. 5, the solenoid 9 as the locking means is configured to be able to move the plunger 9a by energization, and is configured to be able to lock the shutter 3 in the closed position by the plunger 9a. That is, in a state where the shutter 3 is not in the closed position, the plunger 9a is pressed against the back surface of the shutter 3 and is in an immersive state against the urging force of the spring 9b, and when the shutter 3 reaches the closed position, The plunger 9a is projected by the urging force of the spring 9b, and can come into contact with the locked portion 3c to regulate the operation to the open position and lock the shutter 3.

  As shown in FIG. 3, the left / right slider 6 is housed in a recess formed in the housing 1 and is slidable in the left / right direction in FIG. It is energized. Further, the left and right slider 6 is formed with a vertical slider 6b that is slidable in the vertical direction in the figure, and the vertical slider 6b is always urged downward in the figure by a spring 8. The front end side protrudes from the side surface of the left and right slider 6.

  The interlocking portion 2b is formed of a portion that is integrally extended from the rotor 2 and is rotatable with the rotor 2. The interlocking portion 2b is pressed while inserting the ignition key IK into the key hole 2a, and is directly moved to the locked position. In the process of rotating, as shown in FIG. 9, the upper and lower sliders 6b are configured to come into contact with and press against the tip of the upper and lower sliders 6b. That is, when the rotor 2 reaches the locked position, the interlocking portion 2b presses the upper and lower sliders 6b, whereby the entire left and right sliders 6 can be moved to the left in the figure against the urging force of the springs 7. It is. The interlocking portion 2b and the left / right slider 6 constitute release means for releasing the locking by the locking means.

  Along with this, the engaging convex portion 6a moves to the left side in the drawing and is separated from the engaging portion 3a, and the shutter 3 is unlocked. As shown in FIGS. 9 and 10, the shutter 3, which has been unlocked, moves toward the closed position in the process of the rotor 2 reaching the lock position, and the ignition key IK whose tip is inserted into the key hole 2 a is moved. It will be in contact with the key part IKb. When the ignition key IK is removed from the key hole 2a, the shutter 3 reaches the closed position by the urging force of the torsion spring 4 as shown in FIG. The shutter 3 is locked in the protruding state. The left and right sliders 6 that are no longer applied with the pressing force from the interlocking portion 2 b are returned to the initial state by the urging force of the spring 7.

  When the rotor 2 is in the off position, the operating element 10 can operate the left and right sliders 6 as operating parts to release the locking of the shutter 3 by the engaging projections 6a as locking means. It has been done. Specifically, when the operation element 10 is operated by moving it to the left in the figure against the urging force of a spring (the urging means for always urging the operation element 10 to the initial position), as shown in FIG. Since the front end of the operation element 10 moves the left and right sliders 6 in the same direction, the engagement convex portion 6a is separated from the engagement portion 3a, and the engagement is released. As shown in FIG. Moves to the closed position. Thus, the shutter 3 can be set to the closed position at an arbitrary timing by operating the operation element 10 regardless of the position of the rotor 2.

  In the present embodiment, when the rotor 2 is in the ON position, the shutter 3 is locked even if the locking operation of the engaging projection 6a (locking means) is released by the operation of the operation element 10. A restricting means for restricting reaching the closed position is provided. This restricting means comprises a protrusion 2c formed integrally with the rotor 2, and as shown in FIGS. 14 and 15, when the rotor 2 is in the on position, it comes into contact with the shutter 3, thereby Even when the engagement by the portion 6a is released, the shutter 3 is locked in the open position. This prevents the shutter 3 from moving from the open position toward the closed position and interfering with the ignition key IK even if the operating element 10 is erroneously operated when the rotor 2 is in the on position. it can.

  Further, in this embodiment, the unlocking means 5 is shown in FIG. 8 in order to release the lock by the plunger 9a (locking means) of the solenoid 9 and to move the shutter 3 from the closed position to the open position. As described above, a transponder 14 as a transmission unit, an antenna 15 as a reception unit, and an authentication unit 16 are provided. As described above, since the transponder 14 is embedded in the gripping portion IKa of the ignition key IK, the driver can be carried and can transmit a vehicle-specific authentication code. More specifically, the transponder 14 built in the gripping portion IKa of the ignition key IK operates based on a radio signal transmitted from the antenna 15 and receives a signal (an authentication code and a vehicle-specific ID) as a response to the radio signal. Code).

  However, the transponder 14 includes an antenna for receiving a radio signal transmitted from the antenna 15 side and transmitting information generated on the transponder 14 side, a high-frequency circuit for demodulating the received radio signal, a transponder 14 An authentication code generating IC for performing control, an EEPROM including a nonvolatile storage means for storing information unique to the ignition key IK (that is, vehicle specific), a capacitor and the like (both not shown) are arranged on the antenna 15 side. The electric power is supplied by being excited by the radio wave from. That is, it does not have a power source such as a dry battery or a battery.

  As shown in FIG. 4, the antenna 15 is composed of a chip-like element formed on the substrate 18 in the control unit Y formed in the housing 1, and the transponder 14 (transmission means) is brought close to the antenna 15. Thus, the authentication code from the transponder 14 can be received without contact. The antenna 15 is disposed in the vicinity of the operation knob 12 and may be composed of a coil-shaped antenna in addition to a chip-shaped element as in this embodiment.

  However, in this embodiment, as described above, since the power is supplied to the transponder 14 by being excited by the radio wave from the antenna 15 side, the antenna 15 and the transponder 14 are brought close to a very close position. Thus, the antenna 15 can receive the authentication code. The antenna 15 is electrically connected to the authentication unit 16 and is configured to transmit the authentication code (ID code) received by the antenna 15 to the authentication unit 16.

  The authentication means 16 is for authenticating whether or not the authentication code received by the antenna 15 (reception means) is legitimate, and comprises a microcomputer or the like mounted on the board 18 in the control unit Y. . Thus, the authentication means 16 and the solenoid 9 as the locking means are electrically connected, and the solenoid 9 is energized only when it is authenticated by the authentication means 16 that a regular authentication code has been received. Thus, the plunger 9a is brought into an immersive state to release the lock on the shutter 3 so that the shutter 3 in the closed position can be moved to the open position.

  If the authenticating code 16 is not authenticated by the authenticating means 16, the protruding state of the plunger 9a (the locked state of the shutter 3) is maintained and the lock is not released. Further, the authentication means 16 is electrically connected to an ECU 17 for controlling the engine of the vehicle (two-wheeled vehicle), and the engine is started only when the authentication means 16 authenticates that a normal authentication code has been received. Allowed.

  Here, in the present embodiment, an authentication start switch 11 for starting authentication by the authentication means 16 and an operation knob 12 for turning on and off the authentication start switch 11 are disposed in the housing 1. The authentication start switch 11 is composed of a general-purpose switch such as a microswitch, and is electrically connected to the authentication means 16 and pressed by an extending portion 12b extending from the right end of the operation knob 12. The extension portion 12b is turned on in a separated state by an operation on the operation knob 12.

  The operation knob 12 is for turning the authentication start switch 11 on and off, and is a first position where the authentication start switch 11 is turned off (state shown in FIG. 3), and a second position where the authentication start switch 11 is turned on (FIG. 13). And the third position (state shown in FIG. 14) where the shutter 3 unlocked by the locking means 5 (plunger 9a of the solenoid 9) is moved to the open position.

  More specifically, the operating knob 12 is slidable in the left-right direction in the figure, and is always urged to the right side in the figure by the spring 13 and is assembled to the housing 1, and has a knob 12a having a convex shape. And an extending portion 12b extending to the right side and an engaging portion 12c protruding to the shutter 3 side. The knob portion 12 a is used by the driver to operate the operation knob 12 and is formed at the approximate center of the operation knob 12.

  As described above, the extending portion 12b is in contact with the authentication start switch 11 when the operation knob 12 is in the first position and is turned off, and when the operation knob 12 is in the second position to the third position, the extension start switch 12b is turned off. The authentication means 16 starts authentication on the condition that the authentication start switch 11 is turned on. That is, when the operation knob 12 is slid from the first position to the second position, authentication of whether the authentication code received from the transponder 14 by the antenna 15 is authentic is started.

  As shown in FIG. 13, the engaging portion 12c engages with the engaged portion 3d of the shutter 3 in the closed position when the operating knob 12 is in the second position, and further slides the operating knob 12 to the left. In the process of moving to the third position, the engaged portion 3d is pressed in the same direction, and the entire shutter 3 is moved to the open position as shown in FIG. Accordingly, the off position where the authentication start switch 11 is turned off, the second position where the authentication start switch 11 is turned on, and the shutter 3 unlocked by the locking means 5 (the plunger 9a of the solenoid 9) are moved to the open position. Since the operation can be performed between the third positions, the shutter 3 in the closed position is unlocked by the operation from the first position to the second position, and then the shutter 3 is operated by the operation to the third position. The opening position can be set, and the unlocking operation and the movement operation to the opening position can be performed more smoothly and easily.

  Furthermore, in the present embodiment, the operation knob 12 can be engaged with the gripping portion IKa of the ignition key IK (specifically, the concave shape P of the engaging portion IKc formed on the gripping portion IKa). By moving the gripping portion IKa of the key IK to the left side while engaging the operation knob 12 (see FIG. 7), the first position, the second position, and the third position can be operated. When the gripping portion IKa is separated from the operation knob 12 and released from the engagement, it is naturally returned to the first position by the urging force of the spring 13.

  Thus, the authentication code is transmitted and received between the transponder 14 in the gripping portion IKa and the antenna 15 in the state operated from the first position to the second position, and locked by the locking means 5 (the plunger 9a of the solenoid 9). After the release, the shutter 3 can be moved to the open position by operating to the third position. Accordingly, in parallel with the unlocking operation of the shutter 3 and the movement operation to the open position, reception by the antenna 15 (reception unit) and authentication by the authentication unit 16 can be performed, and operability can be further improved. In particular, in the present embodiment, the antenna 15 (reception unit) is disposed in the vicinity of the operation knob 12, and therefore, when the operation knob 12 is operated, the antenna 15 (reception unit) from the transponder 14 (transmission unit). The authentication code can be received more reliably.

  When the shutter 3 reaches the open position, the key hole 2a faces the outside. Thus, if the key portion IKb of the ignition key IK is inserted into the key hole 2a and rotated, the interlocking portion 2b can be moved together with the rotor 2 to the initial position, and the rotor 2 is turned off from the locked position. It can be rotated to a position (and further to an on position). In the process of rotating the rotor 2 from the locked position to the off position, when a part of the shutter 3 presses the engagement convex portion 6a to the left side and moves the left and right sliders 6 in the same direction, and reaches the off position. The engaging portion 3a is engaged with the engaging convex portion 6a.

  According to the above embodiment, the operability can be improved by performing the closing operation of the shutter 3 with the urging force of the torsion spring 4 (the urging unit), and the authentication unit 16 is authenticated that the regular authentication code has been received. Only when the locking means 5 (the plunger 9a of the solenoid 9) is unlocked, and the shutter 3 in the closed position can be moved to the open position, so that the shutter in the closed position while suppressing fraud 3 can be easily unlocked to improve operability during unlocking.

  Further, the locking means 5 according to the present embodiment includes a solenoid 9 that can move the plunger 9a by energization, and the shutter 9 in the closed position can be locked by the plunger 9a, so that the shutter 3 is more locked. As a result, the entire cylinder lock protection device can be reduced in size as compared with those using other general-purpose actuators.

  In the present embodiment, as shown in FIGS. 9 and 10, the shutter 3 is set to abut against the side surface (the surface where the key crest or key groove is not formed) in the key portion IKb of the ignition key IK. Therefore, it is possible to suppress the occurrence of scratches or the like due to the contact of the shutter 3 with the key part IKb. Further, the contact portion of the shutter 3 with the key portion IKb and the vicinity thereof may be subjected to wear resistance processing or the like.

  Although the present embodiment has been described above, the present invention is not limited to this, and other operation modes such as a swing operation may be used instead of the operation knob 12 that can be slid linearly. In the present embodiment, the shutter 3 rotates between the closed position and the open position, but linearly slides between the closed position and the open position. It may be. In addition to a cylinder lock protection device for a two-wheeled vehicle, the present invention can be applied to a cylinder lock protection device for other vehicles such as a four-wheeled vehicle, a buggy, and a snow vehicle.

The operability can be improved by closing the shutter with the urging force of the urging means, and the lock by the locking means is released and closed only when the authentication means authenticates that the authentic authentication code has been received. An operation knob having a configuration in which the shutter at the position can be moved to the open position, an authentication start switch for starting authentication by the authentication means, and an operation knob for turning on and off the authentication start switch. Is a cylinder operable between an off position for turning off the authentication start switch, a second position for turning on the authentication start switch, and a third position for moving the shutter unlocked by the locking means to the open position. As long as it is a lock protection device, it can be applied to a device having a different external shape or a device to which another function is added.

DESCRIPTION OF SYMBOLS 1 Housing 2 Rotor 2a Key hole 2b Interlocking part (release means)
3 Shutter 3a Engagement part 4 Torsion spring (biasing means)
5 Unlocking means 6 Left and right slider (release means)
6a Engaging projection (locking means)
7 Spring 8 Spring 9 Solenoid (Locking means)
9a Plunger 10 Controller 11 Authentication start switch 12 Operation knob 13 Spring 14 Transponder (transmission means)
15 Antenna (receiving means)
16 Authentication means 17 ECU
IK Ignition key IKa Gripping part

Claims (4)

A housing provided above the rotor in which a key hole for inserting and removing the ignition key is formed;
A shutter that is movable between a closed position and an open position in the housing, closes the key hole at the closed position, and opens the key hole at the open position;
Locking means for locking the shutter in the closed position;
Unlocking means capable of releasing the lock by the locking means and making the shutter movable from the closed position to the open position;
Biasing means for constantly biasing the shutter to the closed position;
Locking means for locking the shutter biased by the biasing means in an open position;
Releasing means for unlocking by the locking means;
A cylinder lock protection device capable of protecting the cylinder lock by moving the shutter to the closed position by the urging force of the urging means when the ignition key is removed from the rotor,
The unlocking means includes
A transmission means formed on a grip of the ignition key and capable of transmitting a vehicle-specific authentication code;
Receiving means capable of receiving the authentication code from the transmitting means in a non-contact manner when the transmitting means is approached;
Authentication means for authenticating whether or not the authentication code received by the receiving means is authentic;
Comprising a, only when the official authentication code is authenticated as being received by the authentication means, to release the lock by said locking means, the configuration of said shutter which is movable to the open position state in a closed position And
An authentication start switch for starting authentication by the authentication means;
An operation knob for turning on and off the authentication start switch;
And the operating knob moves the authentication start switch to an off position, a second position to turn on the authentication start switch, and a shutter that is unlocked by the locking means to an open position. A protection device for a cylinder lock, which is operable between three positions . The operation knob is engageable with a grip portion of the ignition key, and is moved between the first position, the second position, and the third position by engaging the grip portion of the ignition key with the operation knob. The cylinder lock protection device according to claim 1 , wherein the cylinder lock protection device can be operated between the two. 3. The cylinder lock protection device according to claim 2 , wherein the receiving means is disposed in the vicinity of the operation knob. The cylinder according to any one of claims 1 to 3 , wherein the locking means includes a solenoid capable of moving a plunger by energization and can lock the shutter in a closed position by the plunger. Locking protection device.

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