Land vehicles – Wheeled – Running gear
Reexamination Certificate
2001-03-08
2002-06-25
Johnson, Brian L. (Department: 3618)
Land vehicles
Wheeled
Running gear
C280S785000, C280S124109
Reexamination Certificate
active
06409216
ABSTRACT:
FIELD OF THE INVENTION AND RELATED ART STATEMENT
The present invention relates to a suspension frame construction for supporting a suspension lower arm, an engine mounting member, and the like.
Generally, the vehicle body constructions of motor vehicles are broadly divided into a framed construction used for motor trucks and the like and a frameless construction used for passenger cars and the like. The frameless construction incorporates side members and cross members as a part of body in place of a frame to increase the torsional rigidity. A chassis part is usually attached directly to the body, but, on some vehicles, it is attached to a partial frame, what is called a subframe, and then is assembled to the body.
The subframe is also referred to as a suspension frame because suspension lower arms are usually attached to both sides of the subframe. Hereafter, the subframe and the like are given a general name of a suspension frame.
The suspension frame is assembled to the vehicle body as an assembled part after a suspension lower frame, a stabilizer, and the like are attached thereto. The suspension frame is generally composed of an upper plate, a lower plate, and lower arm mounting brackets as a basic construction.
FIGS. 21
to
28
show a construction of a conventional suspension frame (Japanese Patent Provisional Publication No. 7-179180).
A suspension frame
100
is supported on a pair of side members
101
,
101
at both sides thereof, and suspension lower arms
102
,
102
are attached to both sides of the suspension frame
100
. Between the suspension frame
100
and a cross member
103
installed on the front is provided a center member
104
, to which an engine
105
is assembled.
The suspension frame
100
is usually disposed at the lower part of an engine room isolated by a dash panel
106
, and is fitted with various fittings. The dash panel
106
is fitted with a steering knuckle
107
via brackets
108
.
As shown in
FIGS. 24
to
26
, the suspension frame
100
is formed by joining an upper plate
109
and a lower plate
110
, which are formed by pressing a steel plate etc., by welding or other means, and at both sides, right and left, of the suspension frame
100
are provided vehicle body mounting portions h, i and j, and in the central portion thereof are provided engine mounting member mounting portions k. At both sides in the vehicle width direction of the suspension frame
100
, a pair of suspension lower arm mounting portions
100
a
and
100
d
are provided. In the suspension lower arm mounting portion
100
a
on the front side of the vehicle body is provided a lower arm mounting bracket
111
in a cantilever state.
The lower arm mounting bracket
111
is formed into a substantially square box shape with one side being open by pressing or other means, and the opposed wall faces
111
a
and
111
b
thereof are provided with pivotally supporting portions
112
,
112
for the suspension lower arms
102
,
102
. This lower arm mounting bracket
111
, which is supported on the outside of the vehicle body mounting portions h, i and j in a cantilever manner, has a construction that provides low rigidity and is disadvantageous in terms of driving stability and vibration noise.
To mount the lower arm mounting bracket
111
, as shown in
FIG. 26
, a distal end portion
109
a
of the upper plate
109
is lapped partially on and joined to the upper face of the lower arm mounting bracket
111
. Also, the distal end of the lower plate
110
is butt-welded to the wall face of the lower arm mounting bracket
111
. Therefore, a reinforcement
113
is installed between the upper plate
109
and the lower plate
110
to reinforce the mounting portion of the lower arm mounting bracket
111
. Further, a flange portion
114
is provided along the open end portion of the lower arm mounting bracket
111
to increase the rigidity of the bracket
111
.
The suspension frame
100
is subjected to the severest condition when a longitudinal load is applied thereto (for an actual vehicle, for example, when the brake is applied or when a wheel falls into a pothole).
When a braking load is applied to the suspension frame
100
, as shown in
FIG. 27
, the mounting portion
100
a
of the lower arm mounting bracket
111
is put into a deformation mode of being opened to the outside while being twisted as indicated by the arrow {circle around (
1
)}, and a central portion
100
b
of the suspension frame
100
is put into a deformation mode of being sunk as indicated by the broken line {circle around (
2
)}.
The central portion
100
b
of the suspension frame
100
is also sunk in the same manner by a load applied by the engine mounting member at the time of sudden start.
On the other hand, as shown in
FIG. 28
, when a load is applied in the lateral direction, the mounting portion
100
a
of the lower arm mounting bracket
111
is twisted to the inside as indicated by the arrow {circle around (
3
)}. As a result, one of the lower arm mounting portions
100
d
on the vehicle body rear side of the suspension frame
100
is deformed upward as indicated by the arrow {circle around (
4
)} and the other thereof is deformed downward as indicated by the arrow {circle around (
5
)}. Also, on both sides of the central portion
100
b
of the suspension frame
100
, one side is deformed upward as indicated by the arrow {circle around (
4
)} and the other side is deformed downward as indicated by the arrow {circle around (
5
)}. Thus, the suspension frame
100
is put into a deformation mode of being wavy.
As is apparent from the above-described deformation modes, the rigidity around the opening portion of the lower arm mounting bracket
111
is low in the case where the suspension frame
100
is formed merely by two upper and lower plates joined to each other. Near the opening portion, the vehicle body mounting portions lie. If the rigidity of this portion of the suspension frame
100
is low, therefore, there is a possibility that the first-order natural frequency of the suspension frame
100
resonates with the vehicle body.
OBJECT AND SUMMARY OF THE INVENTION
The present invention has been made to solve the above problems, and accordingly an object thereof is to provide a suspension frame construction capable of increasing rigidity when a braking load, a lateral load, or an engine mounting load is applied to a suspension frame.
To solve the above problems, the present invention provides a suspension frame construction comprising an upper plate and a lower plate joined to each other to form a suspension frame; and front- and rear-side suspension arm support portions provided at both ends, right and left, of the suspension frame, wherein the lower plate is made up of a pair of side plates each provided with a support portion for supporting at least a rear-side arm of a suspension arm and a center plate for connecting the side plates to each other.
Also, the present invention is characterized in that the thicknesses of the side plates are made greater than the thickness of the center plate, and a vehicle body mounting portion is provided on the side plate.
Further, the present invention is characterized in that the suspension arm support portions are provided on the front and rear of the right and left side plates, and a side wall portion is formed on the outside of the side plate.
Still further, the present invention is characterized in that bent portions are formed at both ends of the center plate to form a gap between the center plate and the right and left side plates, and the distal lower end of the bent portion is joined to the side plate to form a vertical wall portion for partitioning the interior of the suspension frame.
Also, the present invention is characterized in that the vertical wall portion is arranged in a substantially straight line with respect to the side wall portion.
Further, the present invention is characterized in that the side wall portion provided on the side plate is formed so as to be close to the vehicle body mounting portion of the suspension frame.
Still further, the
Alston & Bird LLP
Fleming Faye M.
Johnson Brian L.
Suzuki Motor Corporation
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