JP3939623B2 - Steering lock device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a steering lock device used for a vehicle or the like.
[0002]
[Prior art]
[Patent Document 1]
Japanese Patent Laid-Open No. 2000-225922
2. Description of the Related Art Conventionally, for the purpose of preventing theft of a vehicle or the like, a steering lock device for locking a steering shaft so that the steering cannot be turned is widely used.
[0004]
This steering lock device includes a body made of, for example, zinc. A cylinder lock having a rotatable cylinder inner is accommodated and held on the front end side of the body. A camshaft having a cam portion is connected to the rear end of the cylinder inner of the cylinder lock, and this camshaft rotates together by inserting a key into the cylinder inner and rotating it. .
[0005]
In addition, a lock shaft is accommodated in the body so as to be able to protrude from the outer surface of the body. When the rotation position of the cylinder inner of the cylinder lock is in the lock position, the lock shaft is urged by the urging means such as a spring and the shaft tip protrudes from the body, and the protruding shaft tip enters the recess of the steering shaft. As a result, the steering shaft (that is, the steering) is locked.
[0006]
On the other hand, when the cylinder inner is rotated from the lock position to another position (for example, the ACC position) by the key, the cam shaft having the cam portion is also rotated accordingly, and the cam portion is urged by the urging force of the urging means. By depressing the lock shaft against the shaft, the tip of the shaft is immersed in the body, so that the lock shaft is disengaged from the recess of the steering shaft so that the steering shaft (ie, the steering) can be rotated. Become.
[0007]
In general, in the steering lock device having the above-described configuration, for example, in Patent Document 1, a lock pin protrudes from the inner surface of the body when the cylinder lock is pulled out of the body for the purpose of theft or when the body is destroyed. The camshaft is made in a non-rotatable state by being engaged with the recess of the steering shaft, thereby preventing the steering shaft from being unlocked.
[0008]
[Problems to be solved by the invention]
However, in the steering lock device described in Patent Document 1, for example, when the body is broken and its front side portion is removed, the gap between the inner wall surface of the body center hole and the outer peripheral portion of the cam at the breaking opening of the body. It is possible to attack the lock pin from the gap, and there is a problem that the lock of the camshaft (that is, the lock of the steering shaft) is not perfect.
[0009]
[Means for Solving the Problems]
Therefore, in order to solve the above problem, the present invention accommodates and holds the lock shaft, which prevents rotation of the steering shaft when the rotation position of the cylinder inner of the cylinder lock is in the lock position, and the cylinder lock, A body that accommodates the lock shaft so as to be movable in and out of the steering shaft; a camshaft having a cam portion that rotates according to rotation of the cylinder inner and causes the lock shaft to move in and out; and A blocking member engaged to maintain the locked state of the lock shaft and biased in a direction to be engaged with the lock shaft by a biasing means; and the blocking member attached to the front side portion of the body. The lock shaft is prevented from engaging, and the front side portion of the body including the cylinder lock or the cylinder lock is removed. A regulating member for allowing movement to the lock shaft-side of the blocking member by being removed a steering lock device provided with,
The lock shaft is provided with an operation portion that engages with a cam portion of the cam shaft, a part of the operation portion is formed as a bulge portion, and the front side portion of the body is removed by breaking A swelled portion of the operating portion is configured as a shielding portion that blocks a linear operation with respect to the blocking member from the opening portion of the formed body or the opening portion of the end surface of the body formed when the cylinder lock is removed. characterized in that it was.
According to this configuration, since the linear operation with respect to the blocking member is blocked by the shielding portion constituted by the bulging portion of the operation portion, the engagement with the lock shaft can be released by improperly operating the blocking member. Thus, the lock shaft can be reliably prevented from being operated to the unlock side.
[0010]
In the steering lock device of the present invention, the body may be formed with a breaking groove portion for breaking the front side portion so as to be easily detached.
In this way, when an unauthorized attack is made, the body can be broken at a desired position where the breaking groove is formed, and the entire apparatus can be prevented from being released and the steering lock being released.
[0011]
Further, in the steering lock device of the present invention, a bulging portion that bulges the inner surface of the body inward may further constitute the shielding portion, and a flange portion provided on the camshaft is the shielding portion. May be further configured.
If it does in this way, the illegal operation to a blocking member can be prevented also by the bulging part and flange part of a body inner surface .
[0012]
Further, in the steering lock device of the present invention, the blocking member is pivotally supported at one end side, and at the other end side, a restricting convex portion that engages with the lock shaft and restricts movement to the unlock side is formed. You may make it the engagement position of the said lock shaft and the said control convex part be the said lock shaft side rather than the axial fulcrum of the said blocking member.
In this way, when the blocking shaft is illegally operated to the unlock side with the blocking member engaged with the lock shaft, a force acts so that the blocking member moves to the lock shaft side. The shaft and the blocking member are not disengaged.
[0013]
Furthermore, in the steering lock device of the present invention, the camshaft may be provided with an engaging step portion for engaging the lock shaft at the locked position to prevent the camshaft from being pulled forward.
In this way, the camshaft cannot be pulled out at the locked position, and the presence of the camshaft itself has the effect of preventing unauthorized operation of the blocking member.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings.
FIG. 1 is a longitudinal sectional view of a steering lock device 10 according to an embodiment of the present invention, and FIG. 2 is a transverse sectional view of the steering lock device 10. In FIG. 1 (the same applies to FIGS. 3, 4, 7, and 8), for convenience, the cylinder lock side is referred to as “front” and the ignition switch side is referred to as “rear”.
[0015]
The steering lock device 10 includes a body 12 that is, for example, an integrally molded product made of zinc. The body 12 has a lumen that penetrates in the longitudinal direction. A cylinder lock 16 is accommodated and held in the lumen of the front side portion 14 of the body 12. The cylinder lock 16 includes a substantially cylindrical cylinder outer 18 and a substantially columnar cylinder inner 20 that is rotatably housed therein.
[0016]
In the cylinder inner 20, a plurality of tumblers (not shown) made of, for example, a metal plate are arranged at intervals in the axial direction. When the regular key is not inserted into the key hole of the cylinder inner 20 (that is, when the rotational position of the cylinder inner 20 is the lock position), the end of each tumbler protrudes from the outer peripheral surface of the cylinder inner 20 and moves to the cylinder outer. 18 is engaged with a recess formed on the inner peripheral surface of the cylinder 18 so that the cylinder inner 20 is prevented from rotating within the cylinder outer 18.
[0017]
On the other hand, when the regular key is inserted into the key hole of the cylinder inner 20, the end of each tumbler is immersed in the cylinder inner 20 and disengaged from the recess on the inner surface of the cylinder outer 18. Accordingly, the cylinder inner 20 can be rotated from the lock position to another rotation position (for example, the ACC position or the start position) in the cylinder outer 18 by a key rotation operation.
[0018]
A connecting shaft 22 having a substantially drum-shaped cross section projects from the rear end surface of the cylinder inner 20. The connection shaft 22 is connected to the camshaft 24 by being inserted into a connection hole having a substantially drum-shaped cross section formed at the front end portion of the camshaft 24. As a result, the camshaft 24 rotates together with the rotation of the cylinder inner 20, and is separated from the cylinder inner 20 by the connection shaft 22 coming out of the connection hole when the cylinder lock 16 is removed. It is like that.
[0019]
A fracture groove portion 13 is formed in the outer peripheral portion of the body 12 at a position substantially corresponding to the connecting portion between the cylinder inner 20 and the camshaft 24. By providing the breaking groove portion 13 in this way, the body 12 is broken at a desired position where the breaking groove portion 13 is formed when an unauthorized attack is applied to the steering lock device 10, and the front side portion 14 is easily detached. .
[0020]
The camshaft 24 extends through the lumen of the body 12 to the rear end of the body 12. The camshaft 24 includes a cam portion 26 having a substantially fan-shaped cross section, and a flange portion 28 that is provided adjacent to the cam portion 26 and is provided integrally or separately. The flange portion 28 has a slightly smaller diameter than the lumen of the body 12 and is in a state of substantially closing the lumen of the body 12, and constitutes a shielding portion as will be described later.
[0021]
A lock shaft 30 is housed in a substantially central portion in the longitudinal direction of the body 12 so as to be movable in and out of the body 12. An operation portion 34 having an inclined surface 32 with which the cam portion 26 is engaged when the camshaft 24 rotates is integrally assembled with an end portion of the lock shaft 30 located inside the body 12. It can be considered that the operation unit 34 constitutes a part of the lock shaft 30. Moreover, the operation part 34 is a bulging part 35 that is partially bulged in a rectangular cross section, and the bulging part 35 constitutes a shielding part to be described later. An opening portion of the body 12 is formed below the operation portion 34, and this opening portion is closed by, for example, an iron lid 36 that is difficult to break. The lid 36 is fixed to the body 12 by, for example, a knurled pin.
[0022]
A spring 38 is disposed between the operation unit 34 and the lid 36. The lock shaft 30 is always biased to the lock side by the spring 38 via the operation portion 34. When the rotational position of the cylinder inner 20 of the cylinder lock 16 is in the locked position, the fan-shaped portion of the cam portion 26 is not engaged with the inclined surface 32 of the operation portion 34. In this state, the lock shaft 30 is moved by the spring 38. The shaft tip projects from the body 12 by being biased. The protruding shaft tip is engaged in a recess formed in a steering shaft (not shown), whereby the steering shaft is prevented from rotating and the steering is locked.
[0023]
On the other hand, when the cylinder inner 20 is rotated from the lock position to another rotation position (for example, the ACC position) by the rotation operation of the inserted key, the camshaft 24 is also rotated accordingly, and in FIG. The cam part 26 rotates in the clockwise direction. Thereby, the fan-shaped portion of the cam portion 26 is engaged with the inclined surface 32 of the operation portion 34, and the operation portion 34 is pushed down against the biasing force of the spring 38. As a result, the lock shaft 30 also moves together with the operation portion 34, so that the shaft tip is immersed in the body 12, disengaged from the concave portion of the steering shaft, and the steering shaft becomes rotatable and the steering shaft is turned. The lock will be released.
[0024]
The camshaft 24 is provided with an engagement step portion 25 that engages with the lock shaft 30 when the cylinder inner 20 is in the locked position, and a notch portion 25a that forms the engagement step portion 25. Yes. The engagement step portion 25 prevents the camshaft 24 from coming off to the front side.
[0025]
A lock plate (blocking member) 40 is disposed on the side of the operation unit 34. One end side of the lock plate 40 is pivotally supported by a pin 42, and the side surface on the other end side is indirectly engaged with the lock shaft 30 via the operation unit 34 to restrict movement of the lock shaft 30 to the unlock side. By doing so, the regulation convex part 44 which maintains a locked state is formed. The lock plate 40 is urged in a direction to engage with the lock shaft 30 by a torsion spring 46 that is an urging means, but normally the restriction convex portion 44 is prevented from engaging with the lock shaft 30. Further, the rotation to the lock shaft 30 side is regulated by a plate (regulating member) 48. The restricting member is not limited to the plate, but may have another shape (for example, a rod shape).
[0026]
As shown in FIG. 3, the plate 48 extends forward from the lock plate 40 inside the body 12, and a hook-like portion at the tip thereof is attached to the front side portion 14 of the body 12. The urging means for urging the lock plate 40 is not limited to the torsion spring 46, and may be another elastic member such as a compression spring or rubber.
[0027]
Further, as shown in FIG. 3, a bulging portion 11 is provided inside the body 12 so as to bulge the inner surface of the body and cover the lock plate 40. The shielding part is configured as will be described later.
[0028]
An ignition switch 50 is attached to the rear end of the body 12, and the rear end portion of the camshaft 24 extends to the inside of the ignition switch 50.
[0029]
Next, the operation of the steering lock device 10 having the above-described configuration when an unauthorized attack is made for the purpose of theft will be described.
When the steering lock device 10 is improperly attacked, the body 12 is formed with the breaking groove 13, so that the body 12 is broken at the position of the breaking groove 13 as shown in FIG. The front side portion 14 including 16 is likely to be removed. Since the body 12 is broken at the position of the breaking groove 13 and the front side portion 14 is relatively easily removed as described above, it is possible to prevent the entire device 10 from being removed and the steering lock being released.
[0030]
When the body 12 is broken at the breaking groove 13 and the front side portion 14 is removed, the body 12 is formed with a breaking opening 52 where the end of the camshaft 24 is exposed. Further, when the front side portion 14 of the body 12 is removed, the plate 48 attached to the front side portion 14 is pulled out from the body 12 accordingly. Then, as shown in FIGS. 5 and 6, since the lock plate 40 released from the restriction by the plate 48 is allowed to move toward the lock shaft, the lock plate 30 is rotated by the urging force of the torsion spring 46 to rotate the lock shaft 30. And it contacts the side surface of the operation unit 34. As a result, the restriction convex portion 44 of the lock plate 40 enters under the lower surface 34 a of the operation portion 34, and the restriction convex portion 44 can be engaged with the operation portion 34. As a result, the lock shaft 30 is held in a locked state in which the tip of the shaft protrudes from the body 12 because the immersion operation is restricted by the engagement of the restriction convex portion 44. Further, the movement of the operation portion 34 integrated with the lock shaft 30 to the unlock side is also restricted, so that the cam shaft 24 and the notch portion 25a come into contact with the operation portion 34 so that the cam shaft 24 is also rotated. Be blocked. Therefore, it is impossible to rotate the camshaft 24 at the breaking opening 52.
[0031]
When the lock plate 40 is engaged with the lock shaft 30, the engagement position between the operation portion 34 of the lock shaft 30 and the restriction convex portion 44 is closer to the lock shaft 30 than the shaft fulcrum (that is, the position of the pin 42) of the lock plate 40. It is comprised so that it may become. As a result, when the lock shaft 30 is illegally operated to the unlock side while the lock plate 40 is engaged with the lock shaft 30, a force acts so that the lock plate 40 moves to the lock shaft 30 side. The engagement between the lock shaft 30 and the lock plate 40 is not disengaged.
[0032]
As shown in FIG. 4, in the body 12, a flange portion 28 of the camshaft 24 that substantially closes the inner cavity of the body 12, and a bulging portion of the inner surface of the body 12 provided so as to cover the lock plate 40. 11 is provided. The flange portion 28 and the bulging portion 11 constitute a shielding portion that blocks a linear operation on the lock plate 40 from the fracture opening 52. Further, as shown in FIG. 7, the bulging portion 35 that forms a part of the operation portion 34 similarly constitutes a shielding portion that blocks a linear operation with respect to the lock plate 40 from the fracture opening 52. Due to the presence of the flange portion 28, the bulging portion 11 and the bulging portion 35, the lock plate 40 cannot be illegally operated to release the engagement with the lock shaft 30. Operation to the unlock side can be reliably prevented.
[0033]
Further, as shown in FIG. 7, the engagement step portion 25 of the camshaft 24 is engaged with the lockshaft 30 in a state where the rotational position of the camshaft 24 is in the lock position. When the lock plate 40 prevents the lock shaft 30 from moving to the unlock side (that is, the lower side), the camshaft 24 is also prevented from rotating by the operation portion 34, so that the engagement step portion 25 is engaged. Since the camshaft 24 is not released, the camshaft 24 cannot be pulled forward, and the presence of the camshaft 24 itself has the effect of preventing unauthorized operation of the lock plate 40. Even if the camshaft 24 can be pulled out, the bulging portion 35 of the operation portion 34 blocks the linear operation on the lock plate 40 from the fracture opening 52, so that the lock plate 40 is operated illegally. Thus, the engagement with the lock shaft 30 cannot be released.
[0034]
In the steering lock device 10 described above, the flange portion 28 of the camshaft 24, the bulging portion 11 on the inner surface of the body 12, and the bulging portion 35 of the operation portion 34 are used in combination as a shielding portion. Only one may be used as the shielding part.
[0035]
Next, a modification of the steering lock device 10 will be described with reference to FIG.
In an unauthorized attack to the steering lock device for the purpose of theft, it is conceivable that the cylinder lock 16 is pulled out from the body 12 instead of the body 12 being broken at the position of the breaking groove 13. Also in this case, a flange portion 21 is provided at the rear portion of the cylinder inner 20 so that the plate 48 is pulled out together with the cylinder lock 16 and the lock plate 40 is operated, and a bent portion 49 for being caught by the flange portion 21 is provided. It is provided at the tip of the plate 48. In this modification, an opening is formed in the front end surface of the body 12 when the cylinder lock 16 is extracted from the body 12. In this case as well, the flange portion 28 of the camshaft 24 and the inner surface of the body 12 are also formed. The bulging portion 11 and the bulging portion 35 of the operation portion 34 serve as a shielding portion, and an unauthorized operation on the lock plate 40 from the opening can be prevented.
[0036]
In this modification, a notch portion 23 is formed in the flange portion 21 of the cylinder inner 20, and when the cylinder lock 16 is attached to the body 12, the cylinder portion 16 escapes the bent portion 49 of the plate 48 with the notch portion 23. After the cylinder lock 16 is mounted in a state where the inner 20 is rotated to an ACC position other than the locked position, for example, the cylinder inner 20 is rotated to the locked position and assembled.
[0037]
【The invention's effect】
As is apparent from the above description, according to the steering lock device of the present invention, the blocking member is formed linearly with respect to the blocking member by the bulging portion provided in the operation portion of the lock shaft with which the cam portion of the cam shaft is engaged. Therefore, it is impossible to release the engagement with the lock shaft by improperly operating the blocking member, thereby reliably preventing the lock shaft from being operated to the unlock side. .
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a steering lock device.
FIG. 2 is a cross-sectional view of the steering lock device.
FIG. 3 is a longitudinal sectional view in which the cutting position of the steering lock device is different.
FIG. 4 is a longitudinal sectional view of the steering lock device showing a state in which the front side portion of the body is removed.
FIG. 5 is a cross-sectional view of the steering lock device showing a state in which a lock plate is activated.
FIG. 6 is a cross-sectional view in which the cutting position of the steering lock device is different, showing a state in which the lock plate is activated.
FIG. 7 is a longitudinal sectional view of the steering lock device in a state in which the front side portion of the body is removed.
FIG. 8 is a longitudinal sectional view of a modified example of the steering lock device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Steering lock apparatus, 12 ... Body, 13 ... Breaking groove part, 14 ... Front side part, 16 ... Cylinder lock, 18 ... Cylinder outer, 20 ... Cylinder inner, 24 ... Cam shaft, 26 ... Cam part, 28 ... Flange part, DESCRIPTION OF SYMBOLS 30 ... Lock shaft, 34 ... Operation part, 38 ... Spring, 40 ... Lock plate (blocking member), 42 ... Pin, 44 ... Restriction convex part, 46 ... Torsion spring (biasing means), 48 ... Plate (regulation member) .

Claims (6)

A lock shaft that prevents rotation of the steering shaft when the rotation position of the cylinder inner of the cylinder lock is in the lock position, and the cylinder lock is accommodated and held, and the lock shaft can be moved in and out of the steering shaft. A body to be housed, a camshaft having a cam portion that rotates according to the rotation of the cylinder inner and moves the lock shaft in and out, and the lock shaft is engaged to maintain the locked state of the lock shaft. A blocking member that is biased in a direction to be engaged with the lock shaft by the biasing means, and a cylinder that is attached to a front side portion of the body to prevent the blocking member from engaging with the lock shaft; When the front side portion of the body including the lock or the cylinder lock is removed, the lock of the blocking member is removed. The steering lock device provided with a regulating member that allows movement of the shaft side, and
The lock shaft is provided with an operation portion that engages with a cam portion of the cam shaft, a part of the operation portion is formed as a bulge portion, and the front side portion of the body is removed by breaking A swelled portion of the operating portion is configured as a shielding portion that blocks a linear operation with respect to the blocking member from the opening portion of the formed body or the opening portion of the end surface of the body formed when the cylinder lock is removed. A steering lock device characterized by that.   2. The steering lock device according to claim 1, wherein a break groove portion is formed in the body so that the front side portion is broken and easily detached. 3. Steering lock device according to claim 1 or 2, the bulging portion which is bulged to the inner surface of the body on the inside, characterized in that the further forming the shielding portion. The steering lock device according to any one of claims 1 to 3, wherein a flange portion provided on the cam shaft further constitutes the shielding portion .   The blocking member is pivotally supported at one end side, and formed on the other end side is a restricting convex portion that engages with the lock shaft and restricts movement to the unlock side. The steering lock device according to any one of claims 1 to 4, wherein an engagement position is located closer to the lock shaft than a shaft fulcrum of the blocking member.   6. The camshaft is provided with an engagement step portion for engaging with the lock shaft at the lock position to prevent the camshaft from slipping forward. Steering lock device.

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