Knee bolster

Land vehicles – Wheeled – Attachment

Reexamination Certificate

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Reexamination Certificate

active

06702324

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a knee protector for a vehicle, hereinafter called a knee bolster, that relieves the impact to the knees of an occupant of a car involved in crash by absorbing the impact energy, and that is capable of securely receiving the load of the knees and thereby of controlling the posture of the occupant.
DESCRIPTION OF THE RELATED ART
A conventional knee bolster is generally composed of two components, including, as depicted in
FIG. 6
, a panel
10
for receiving and supporting the knees of the occupant when a collision occurs, and a stay
11
that is linearly disposed and that deforms while panel
10
supports the knees so as to absorb the impact energy of the crash. The front portion of the stay
11
is fixed to the instrument panel frame
12
, and the rear portion thereof is fixed to the upper area of panel
10
. In order to stabilize the characteristics of the stay
11
by reducing the variation in performance based on the differences in the deformation mode caused, for example, by various knee positions of the occupant, a deformation starting point
13
, such as a groove or notch, is provided in stay
11
so that deformation always starts from the same position. Further, in order to improve resistance, flange surfaces
14
are often provided to both end rims of the stay
11
, as depicted in
FIG. 8
, so as to increase the section modulus thereof.
In order to effectively absorb impact by the knee bolster, it is necessary to enable the displacement to occur with a fixed deceleration within the range of displacement, or in other words, to maintain a fixed resistance during displacement. However, the stay
11
of the conventional knee bolster does not have an average displacement resistance, and the resistance deteriorates during displacement, so it is difficult to absorb the impact energy with an effective stroke, as can be seen from FIG.
10
.
There are many reasons why the conventional knee bolster lacks a fixed displacement resistance against impact energy and thus cannot effectively absorb the impact energy, and the typical reasons are indicated below. The first problem is that stress is concentrated to one portion of the stay
11
, thus deforming only that portion, and when that portion bends the resistance of the whole stay
11
is decreased greatly. The deformation starting point
13
becomes the stress concentration point, and the stay
11
is bent at this point
13
as depicted in
FIG. 7
, and the whole resistance of the stay
11
is deteriorated.
The second problem is that the flange surface
14
is deformed and opened outward by the deformation of the stay
11
caused by concentrated stress, as depicted in
FIG. 8
, and the section modulus required to maintain resistance is deteriorated locally. By the deformation of the flange, the stay is even more easily bent, thus the whole resistance of the stay is further reduced.
The third problem is that the position of entry of the knees to the panel
10
differs greatly according to the occupant; that is, the knee entry position is high if the occupant is for example a large male, and low if the occupant is a small female. However, the fixture position of the stay
11
is biased toward the upper portion of the panel
10
, and if the position of knee entry is low, the lower portion of the panel
10
moves in the upper forward direction, and panel
10
rotates around the rear portion of the stay
11
, thus lacking to exhibit resistance, deteriorating the impact absorbing effect of the bolster greatly, as depicted in FIG.
9
. If the knee entry position is high, the impact energy received by the panel
10
can be absorbed by the stay
11
being deformed toward the instrument panel frame
12
, as depicted in FIG.
7
. However, if the knee entry position is low, the stay
11
is often not deformed in the desired manner, and the impact energy cannot be absorbed effectively. When this happens, the panel
10
moves in the forward direction, and the knee bolster cannot perform its function of controlling the posture of the occupant and absorbing the impact energy upon collision.
If due to the various reasons mentioned above the knee bolster is undesirably displaced greatly, it may interfere with the collapsing of the steering column which is intended to reduce the possibility of chest injury to the occupant, and this may lead to serious impact to the human body during the collision.
SUMMARY OF THE INVENTION
The present invention provides a knee bolster that solves the problems of the prior art, having a stay that does not give way due to concentrated stress to one point, that is capable of maintaining resistance constantly, that can absorb the impact energy in an effective manner, that can suppress the amount of displacement, and that effectively absorbs the impact on and controls the posture of the occupant irrespective of the knee entry position of the occupant.
In order to achieve the above objects, the knee bolster according to the present invention for reducing the load received by the knees of the occupant during a collision comprises a pair of left and right panels adapted to be opposed to the knees of the occupant, for receiving the knees upon collision, an upper stay provided to each panel, with the rear portion of the upper stay fixed to the upper area of the panel, and a lower stay provided to each panel, with the lower portion of the lower stay fixed to the lower area of each panel and the upper portion of the lower stay fixed to the front portion of the upper stay, the two substantially deltoid assemblies, each constituted of a panel, an upper stay and a lower stay, are disposed side by side, separated by a predetermined distance, and are connected and fixed to a connecting member. According to another embodiment of the invention, the upper stays and the lower stays of the bolster are arced in opposite directions. Even further, according to the present invention, the radius of curvature of the arced lower stays is smaller than the radius of curvature of the upper stays.
According to the present invention, the knee bolster maintains a constant resistance when displaced within the possible displacement range, and thus can absorb impact energy efficiently. Since the present knee bolster is structured by assembling an upper arced stay and a lower arced stay together as depicted in
FIG. 2
, upon receiving the load from the knees, the bolster disperses the stress at the arced portion so as not to create a specific stress concentration point to the stays. Thus, the stays are deformed as a whole as depicted in
FIG. 3
, instead of being bent at one point, and the impact energy can be absorbed efficiently.
According to the present invention, the knee bolster maintains a fixed resistance constantly without showing any drop in energy absorption during deformation, and thus can absorb a fixed amount of energy constantly, as illustrated in FIG.
11
. The deformation resistance of the stay is averaged so as to improve the energy absorption performance.
Moreover, the present knee bolster is capable of providing stable control of the posture of occupants having various builds, corresponding to anyone from a typical grownup male to a small female, as illustrated in FIG.
5
. Even if the knee entry position is low, the present knee bolster, having upper and lower stays absorbs the impact energy effectively, and at the sametime the lower stay supports the load securely, reducing the movement of the panel in the forward direction and thereby controlling the posture of the occupant. The knee bolster exerts its function sufficiently even for occupants of small build. By setting the radius of curvature R
1
of the arced lower stay to be smaller than the radius of curvature R
2
of the arced upper stay, the rear portion of the lower stay curves back toward the front and extends to the lower area of the panel, being fixed to the panel. The rear portion of the lower stay extends to the lower area of the panel, so the present knee bolster is capable of exerting a stable resistance against va

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