1. Field of the Invention
The present invention relates to a door lock system applicable to generally vehicles.
2. Description of the Related Art
As a door lock system to be applied to vehicles such as a four-wheeled vehicle, there is one including a link unit such as a torque cable that links a lock mechanism provided in the door and a key cylinder to each other. The lock mechanism is switched between an unlocked state that allows a door opening movement when an outside handle is operated to open the door, and a locked state that maintains the door being closed, even if the outside handle is operated to open the door, by making ineffective the door opening operation of the outside handle. The key cylinder is for key operations from the outside of the vehicle, and is provided on a door outer panel. In this key cylinder, a cylinder returning spring that keeps a normal position when a key operation is not performed is provided.
In this door lock system, when the key cylinder is rotated against an elastic force of the cylinder returning spring in response to a key operation, this rotating force is transmitted to a switching lever of the lock mechanism through the link unit to turn the switching lever from a neutral position to a switching position and switch the lock mechanism to an unlocked state or a locked state. When the key operation force is removed, the key cylinder is returned to the normal position by the cylinder returning spring and the switching lever is returned to the neutral position through the link unit.
A conventional door lock system has been disclosed, for example, in Japanese Published Unexamined Patent Application No. 2004-332449.
According to the conventional door lock system, the key cylinder can be provided on the door panel without depending on the position of the lock mechanism, thereby increasing degree of freedom of design and layout. However, sometimes, the relative positional relationship between the lock mechanism and the key cylinder influences the power transmission efficiency of the link unit. For example, when a torque cable is used as the link unit, although the key cylinder position with respect to the lock mechanism can be arbitrarily set by greatly bending the torque cable, lowering in power transmission efficiency is unavoidable.
In such a state with lowered power transmission efficiency, even when the cylinder returning spring returns the key cylinder to the normal position, the switching lever does not always return to the neutral position from the switching position. As a result, the lock mechanism may not be correctly switched by a successive key operation. This problem may occur not only when the torque cable is used but also when the key cylinder and the lock mechanism are linked via a link unit.
It is an object of the present invention to at least solve the problems in the conventional technology.
According to an aspect of the present invention, a door lock system includes a door handle operable from outside of a door for opening/closing the door; a lock mechanism including a switching lever, the switching lever capable of moving freely between a neutral position and a locking position and between the neutral position and an unlocking position, wherein the lock mechanism configured to prevent opening of the door by operation of the door handle when the switching lever is moved from the neutral position to the locking position, and allows opening of the door by operation of the door handle when the switching lever is moved from the neutral position to the unlocking position; a link unit that receives a lever operation force from outside of the door and conveys the lever operation force to the switching lever of the lock mechanism to thereby moving the switching lever between the neutral position and the locking position and between the neutral position and the unlocking position; and a holding unit that holds the switching lever at the neutral position when the link unit does not receive the lever operation force.
The above and other objects, features, advantages and technical and industrial significance of this invention will be better understood by reading the following detailed description of presently preferred embodiments of the invention, when considered in connection with the accompanying drawings.
Exemplary embodiments of the present invention are explained below in detail with reference to the accompanying drawings.
The outside handle 10 is an operating member that operates the door D to open when the door D is moved to open from the vehicle main body B, and is provided on the door outer panel OP positioned on the outdoor side. A key cylinder 11 is attached to this outside handle 10. The key cylinder 11 becomes rotatable when a key that fits the key cylinder is inserted from the outside of the vehicle main body B, and is provided on the door outer panel OP while a key hole is exposed to the outside. The rotational motion of the key cylinder is indicated by rotation lines as shown in
To the key cylinder 11, a torque cable (link unit) 15 is connected. The torque cable 15 is formed by housing an inner cable 17 inside an outer tube 16 so as to rotate, and when the key cylinder 11 rotates, the inner cable 17 rotates in the same direction with respect to the outer tube 16. At an extending end of this torque cable 15, an engaging portion 16a is formed in the outer tube 16, and an engaging piece 17a is provided on the inner cable 17. The engaging portion 16a is an annular concavity formed in the outer circumference of the outer tube 16. The engaging piece 17a is a plate-shaped portion, and is continued from the inner cable 17 so as to interlock with the rotation of the inner cable 17.
The lock mechanism 20 is interposed between the outside handle 10 and the latch mechanism, and is disposed inside the door D, that is, between the door outer panel OP and the door inner panel IP positioned on the indoor side while being housed in the housing 21. In the lock mechanism 20, at a portion to be exposed to the outside of the housing 21, an open lever 22 is provided. The open lever 22 serves as an input unit that inputs a door opening operation of the outside handle 10, and is disposed so as to turn around the center of axle extending horizontally along the front and rear direction of the vehicle main body B. The open lever 22 is linked to the outside handle 10 by a link mechanism 23 so as to turn downward when the outside handle 10 is operated to open the door.
In the lock mechanism 20, as shown in
In an unlocked state of the lock mechanism 20, when the open lever 22 turns downward according to a door opening operation of the outside handle 10, this turning of the open lever 22 is transmitted to the latch mechanism and releases the latch mechanism. Therefore, even when the latch mechanism engages with the striker, the door opening operation of the outside handle 10 releases this engagement and can move the door D to open.
On the other hand, in a locked state of the lock mechanism 20, even when the open lever 22 turns downward according to a door opening operation of the outside handle 10, this turning of the open lever 22 is made ineffective and is not transmitted to the latch mechanism, and the latch mechanism is not released. Therefore, in the state in that the latch mechanism engages with the striker, this engagement is not released by the door opening operation of the outside handle 10, and the door D is maintained as being closed.
As seen in
The lever returning spring 27 is a coil spring formed by spirally winding a middle portion of an elastic wire member and projecting both ends outward radially, and is disposed between the switching lever 24 and the housing 21 while the middle portion is disposed around the lever shaft 25 and both ends are press-engaged with a spring engaging piece 40 of the housing 21. The spring engaging piece 40 of the housing 21 is an arc-shaped protrusion formed at a position to be covered by the switching lever 24 when the switching lever 24 is at the neutral position. This lever returning spring 27 has a spring constant set smaller than that of the cylinder returning spring 12 of the key cylinder 11.
The spring working piece 28 is a projection provided from the end face on the indoor side of the switching lever 24 toward the housing 21. This spring working piece 28 is disposed so as to project between two ends of the lever returning spring 27 on the side closer to the lever shaft 25 than the spring engaging piece 40 of the housing 21 when the switching lever 24 is at the neutral position.
When the lever returning spring 27 is at the neutral position, as shown in
Furthermore, the door lock system includes a shutter spring 50 around the cylindrical hole 30 of the housing 21. The shutter spring 50 is constructed by appropriately molding an elastic wire member as shown in
In the door lock system constructed as described above, when the key cylinder 11 is rotated by a key operation, this rotating force is transmitted to the switching lever 24 of the lock mechanism 20 through the torque cable 15 and turns the switching lever 24 from the neutral position to the unlocking position or the locking position, whereby the lock mechanism 20 is switched to an unlocked state or a locked state.
On the other hand, when the key operation force is removed, the key cylinder 11 is returned to the normal position by the cylinder returning spring 12. Furthermore, not only is the returning movement of the key cylinder 11 transmitted to the switching lever 24 through the torque cable 15, but also the switching lever 24 is returned to the neutral position by the lever returning spring 27.
As a result, even when the torque cable 15 is curved to increase the degree of freedom of design and layout and the power transmission efficiency is much lower than 100%, the switching lever 24 always reliably returns to the neutral position, so that the lock mechanism 20 can be correctly switched by a successive key operation.
In the door lock system including the lock mechanism 20 housed inside the housing 21 as described above, when the torque cable 15 is pulled out of the housing 21, the switching lever 24 is exposed to the outside through the cylindrical hole 30, and if this switching lever 24 is directly operated, the lock mechanism 20 may become capable of switching to an unlocked state.
However, according to the door lock system described above, when the torque cable 15 is pulled out, the arresting portion 54 of the shutter spring 50 projects to the inside of the cylindrical hole 30 and effectively prevents the switching lever 24 from being directly operated. Namely, when the torque cable 15 is pulled out from the state of
In addition, when the door lock system is assembled, by inserting the outer tube 16 into the cylindrical hole 30 from the state of
According to the invention, a normal state holding unit reliably returns the switching lever to the neutral position when a key operation force is removed. Therefore, the lock mechanism can be correctly switched by a successive key operation.
Although the invention has been described with respect to a specific embodiment for a complete and clear disclosure, the appended claims are not to be thus limited but are to be construed as embodying all modifications and alternative constructions that may occur to one skilled in the art that fairly fall within the basic teaching herein set forth.
This application claims priority from Japanese Patent Application 2005-053358, filed Feb. 28, 2005, which is incorporated herein by reference in its entirety.
Number | Date | Country | Kind |
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2005-053358 | Feb 2005 | JP | national |
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Number | Date | Country |
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2004-197377 | Jul 2004 | JP |
2004-332449 | Nov 2004 | JP |
2004-346542 | Dec 2004 | JP |
Number | Date | Country | |
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20060191304 A1 | Aug 2006 | US |