Webbing take-up device

Details Webbing take-up device Webbing take-up device

2001-02-15

2003-02-04

Jillions, John M. (Department: 3654)

Winding, tensioning, or guiding

Reeling device

With spring motor

Reexamination Certificate

active

06513746

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a webbing take-up device which restrains a vehicle occupant by a webbing belt.
2. Description of the Related Art
A webbing take-up device forms a main portion of a seat belt device which restrains the body of a vehicle occupant by an elongated webbing belt. In the webbing take-up device, a take-up shaft which takes up the webbing belt is urged by an urging device such as a spiral spring in a direction of taking up the webbing belt. (Hereinafter, for convenience of explanation, the rotating direction in the direction of taking up the webbing belt will be called the “take-up direction”, and the rotating direction in the direction opposite to the take-up direction will be called the “pull-out direction”.) When a vehicle occupant cancels the state in which the webbing belt is applied to him or her, due to the urging force of the urging device such as that described above, the webbing belt is taken up onto the take-up shaft and is accommodated.
Further, the urging force of an urging device such as a spiral spring increases in accordance with the amount of the webbing belt which is pulled out. Thus, when the webbing belt is applied, a compressing sensation caused by the urging force of the urging device is applied to the vehicle occupant to which the webbing belt is applied. As a result, in recent years, webbing take-up devices have been proposed which are provided with a so-called tension reducer mechanism which, in a state in which the webbing belt is pulled out to a predetermined amount, reduces the urging force of the urging device such that the aforementioned constricting sensation is mitigated.
There are tension reducer mechanisms of a type utilizing a structure in which the rotational force of a shaft member, which rotates coaxially and integrally with the take-up shaft, which rotational force is due to the urging force of the urging device is lessened by the frictional force at the time when a torsion coil spring, which is wound in a spiral shape around the shaft member, is fit closely to the outer peripheral portion of the shaft member. Hereinafter, this type of tension reducer mechanism will be briefly explained.
This type of tension reducer mechanism includes a ratchet wheel which is provided so as to be able to rotate coaxially with and relative to the take-up shaft. One end of the torsion coil spring is anchored on the ratchet wheel. The take-up shaft passes through the inner side of the torsion coil spring, and the other end of the torsion coil spring is anchored on the take-up shaft. When the ratchet wheel rotates relatively with respect to the take-up shaft in the pull-out direction, the torsion coil spring is wound tighter, and is ultimately set in close contact with the outer peripheral portion of the take-up shaft.
The ratchet wheel is generally rotatable. However, when an engagement pawl, which is formed at a plunger for locking which is provided next to the ratchet wheel, engages with the outer peripheral portion of the ratchet wheel, the ratchet wheel can rotate in the pull-out direction, but rotation thereof in the take-up direction is restricted.
Namely, when the webbing belt is applied to an occupant, and the rotation of the ratchet wheel is restricted by the engagement pawl of the plunger, the rotation of the take-up shaft in the take-up direction due to the urging force of the spiral spring becomes relative rotation in the take-up direction with respect to the ratchet wheel. At this time, the ratchet wheel rotates in the pull-out direction when viewed from the standpoint of the take-up shaft. Therefore, when the take-up shaft rotates to a certain extent, the torsion coil spring is wound tighter, and begins to fit closely to the outer peripheral portion of the take-up shaft. The torsion coil spring, one end of which is anchored to the ratchet wheel, cannot rotate integrally with the take-up shaft. Thus, a frictional force is generated between the outer peripheral portion of the take-up shaft and the torsion coil spring. This frictional force acts to prevent rotation of the take-up shaft in the take-up direction. Thus, a force, which is of a magnitude equal to the urging force of the spiral spring minus the frictional force, is the restraining force of the webbing belt. Accordingly, the restraining force is less than a case in which the urging force of the spiral spring is directly applied to the vehicle occupant and thus, the compressive sensation can be mitigated.
In a state in which a vehicle is traveling normally, when the body of a vehicle occupant sways due to slight movements of the vehicle or the like, the body of the vehicle occupant (in particular, the shoulders or the like of the vehicle occupant) may pull the webbing belt. However, in this case, in the tension reducer mechanism of the above-described type, the urging force of the spiral spring applied to the webbing belt cannot be reduced from a structural standpoint. When the body of the vehicle occupant attempts to pull the webbing belt out, the full urging force of the spiral spring is applied to the body of the vehicle occupant.
SUMMARY OF THE INVENTION
In view of the aforementioned, an object of the present invention is to provide a webbing take-up device in which, when a webbing belt is pulled out, the urging force applied in the direction of taking up the webbing belt can be reduced.
A first aspect of the present invention is a webbing take-up device for taking up an elongated webbing belt for restraining a body of a vehicle occupant, the webbing take-up device comprising: (a) a take-up shaft to which one longitudinal direction end of the webbing belt is anchored, and which takes up the webbing belt by rotating in a take-up direction which is one direction around an axis of the take-up shaft; (b) a shaft member provided so as to be rotatable coaxially with and relatively to the take-up shaft; (c) a first urging device connected to the shaft member, the first urging device urging the shaft member in the take-up direction by urging force of a magnitude corresponding to an amount of rotation of the shaft member in a pull-out direction which is opposite to the take-up direction; and (d) a second urging device connecting the take-up shaft and the shaft member such that the take-up shaft and the shaft member are able to rotate relatively over a predetermined angle, and when an angle of rotation in the pull-out direction of the shaft member with respect to the take-up shaft exceeds a predetermined angle, the second urging device connects the shaft member and the take-up shaft integrally such that the shaft member and the take-up shaft are able to rotate in the pull-out direction.
A second aspect of the present invention is a webbing take-up device used in a seat belt device of a vehicle, the webbing take-up device comprising: (a) a take-up shaft to which one end of a webbing is anchored, and which is able to rotate in a webbing take-up direction and in a webbing pull-out direction which is opposite to the webbing take-up direction; (b) a first urging device which urges the take-up shaft in the webbing take-up direction; and (c) a second urging device which, while rotation of the take-up shaft in the webbing pull-out direction is within a predetermined angle, urges the take-up shaft in the webbing pull-out direction by an urging force which is less than an urging force of the first urging device.
In accordance with the webbing take-up devices having the above-described structures, when the webbing belt is pulled out, the take-up shaft rotates in the pull-out direction. At this time, the second urging device attempts to rotate, by the urging force thereof, the shaft member to follow the rotation of the take-up shaft. However, because the urging force of the first urging device is greater than the urging force of the second urging device, the shaft member cannot rotate in the same direction as the rotating direction of the take-up shaft. Accordingly, the take-up shaft rotates in the pull-out direction relatively

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