Brakes – Vehicle – Wheel and ground
Reexamination Certificate
2002-02-27
2003-11-25
Lavinder, Jack (Department: 3683)
Brakes
Vehicle
Wheel and ground
C301S006300, C280S757000
Reexamination Certificate
active
06651783
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to vehicle ice and chain traction traction systems which may be both rapidly deployed and rapidly retracted. More particularly, it relates to apparatuses for mounting such systems on vehicles.
2. Description of Related Art
Rapidly-deployable chain traction systems, which may be characterized generally as systems which fling short chain or cable segments beneath a road tire, have been known for some 90 years. Such a system is disclosed in U.S. Pat. No. 1,045,609 and in German Pat. No. No. 266,487 to W. H. Putnam for an ANTISKIDDING DEVICE. Throughout the years, various modifications and improvements have been made by numerous inventors. The following list is a representative list of a dozen other U.S. patents issued in this field:
U.S. Pat. No. 1,150,148 for a TRACTION AND ANTISKIDDING DEVICE;
U.S. Pat. No. 1,223,070 for an ANTISKIDDING DEVICE FOR VEHICLES;
U.S. Pat. No. 1,374,252 for an ANTISKID DEVICE FOR AUTOMOBILES;
U.S. Pat. No. 1,381,001 for a NON-SKID DEVICE FOR MOTOR AND OTHER VEHICLES;
U.S. Pat. No. 1,975,325 for an ANTISKID CHAIN AND MEANS FOR APPLYING AND REMOVING SAME;
U.S. Pat. No. 2,241,923 for an AUTOMATIC EMERGENCY TRACTION DEVICE FOR AUTOMOBILES;
U.S. Pat. No. 2,264,466 for an ANTISKID DEVICE FOR VEHICLES;
U.S. Pat. No. 2,277,036 for an ANTISKID DEVICE;
U.S. Pat. No. 2,283,948 for an AUTOMOBILE TRACTION DEVICE;
U.S. Pat. No. 2,442,322 for an ANTISKID DEVICE;
U.S. Pat. No. 4,299,310 for an ANTISKID DEVICE FOR MOTOR VEHICLES;
U.S. Pat. No. 4,800,992 for an ANTI-SKID DEVICE; and
U.S. Pat. No. Des. 286,524 for ANTI SKID CHAIN UNIT FOR VEHICLE TIRES.
Referring now to the prior-art system of
FIG. 1
, a modern rapidly-deployable chain traction system
100
is depicted in its deployed configuration in this rear elevational view drawing. The chain traction system
100
is removably affixed to a drive axle
101
which incorporates a differential unit
102
. Inner and outer road wheels (
103
A and
103
B, respectively) are mounted on the visible half of the drive axle
101
. On each road wheel (
103
A and
103
B) is mounted a rubber tire (
104
A and
104
B, respectively). The chain system
100
includes a friction drive disc
105
to which a plurality of chain segments
106
A,
106
B and
106
C are attached. Chain segment
106
A is depicted as being below the road surface
114
, which is normally covered with a layer of snow or ice when the chain system
100
is in the deployed configuration. The friction drive disc
105
is rotatably mounted on a spindle
107
which is affixed to a support member
108
which is pivotally mounted to a mounting bracket
109
. The mounting bracket is, in turn, bolted to the U-bolt shackles
113
which secure the suspension leaf springs
112
to the drive axle
101
. The chain system
100
also includes a pneumatic cylinder
110
that is bolted to the mounting bracket
109
. The pneumatic cylinder
110
has a slidable piston
111
that is held in a normally retracted position within cylinder
110
by spring biasing when pressure within cylinder
108
equals ambient pressure. The outer end of piston
111
is connected to support member
108
. In the deployed configuration, the outer rim of friction drive disc
105
is pressed against the sidewall of tire
104
A by a biasing force applied to support member
108
by piston
111
. The biasing force is provided by pneumatic pressure inside pneumatic cylinder
110
which overcomes the spring biasing and causes piston
111
to extend. As the tire
104
A rotates, the friction drive disc
105
also rotates with the chain segments
106
extended more or less radially therefrom. Thus each chain segment
106
is flung, sequentially, beneath the tread portion of tire
104
A. In order to retract the system and disengage the friction drive disc
105
from contact with the sidewall of tire
104
A, pneumatic pressure to pneumatic cylinder
110
is cut off, causing piston
111
to retract within cylinder
110
and raising the support member
108
, the rotatably attached friction drive disc
105
and the attached chain segments
106
. In the retracted configuration, the chain segments
106
do not touch the road surface
114
.
Typically, the mounting brackets used to attach the rapidly-deployable chain traction system components to the spring shackles must be custom fabricated for each vehicle, as wheel sizes and shackle configurations and suspension geometry dimensions vary from vehicle to vehicle. In U.S. Pat. No. 4,800,992, granted to Olle Andersson and Lennart Carlsson on Jan. 31, 1989, a unique mounting system is disclosed for rapidly-deployable chain traction systems. A cylindrical tube is slidably and rotatably mounted within a pair of clamps attached to the spring shackle bolts. The support member which carries the spindle-mounted drive disc at one end, is pivotally mounted at the other end to a mounting plate which is welded to an end of the cylindrical tube. A large measure of adjustability is provided by this arrangement. During installation, the clamps are maintained in a somewhat loose condition until operational alignment of the traction components is achieved by sliding and rotating the cylindrical tube. When proper alignment is achieved, the clamps are tightened to secure the cylindrical tube in a fixed position. Although this system provides greatly facilitated installation with minimal customization of parts, there are several disadvantages. The first is that the cylindrical tube may rotate with use, even though tightly clamped. The second is that the range of adjustability is not ideal. Though positionable without a change in orientation along the sliding axis, there is no effective height adjustment. If the mounting plate is welded off center from the axis of the cylindrical tube, height of the system may be adjusted by rotating the cylindrical tube. However, off center mounting of the mounting plate increases the torque around the axis of the tube, thereby increasing the tendency of the tube to rotate during use. In addition, adjustment of the height of the system by rotating the tube changes the angular orientation of the components.
What is needed is a new type of mounting system for rapidly-deployable chain traction systems which are simple to adjust, provide for adjustment of the traction components about three axes with no change in angular orientation, and which are relatively impervious to alignment changes during operation.
SUMMARY OF THE INVENTION
The invention is an improved mounting apparatus for chain traction systems installable on wheeled vehicles. Designed for use on vehicles which have a beam or live axle (i.e., one which incorporates a differential), the apparatus mounts to U-bolt shackles which commonly secure the axle to either a set of leaf springs or an air bag assembly. If no U-bolts are present on the axle, a new set of U-bolts may be installed thereon and used to secure the system. In either case, the new mounting system is designed to be mounted directly to the exposed, threaded ends of the U-bolt shackles.
For each side of the vehicle, the new mounting system includes four threaded coupling nuts, each of which is threadably secured to a threaded end of one of the U-bolt shackles. A cross plate having a pair of outer apertures and a central aperture ties each lateral pair of coupling nuts together. Thus, each side of the vehicle employs two cross plates. One of the apertures of each cross plate is elongated so that the cross plate may accommodate a range of spacing between U-bolt shackles. Bolts are used to attach the cross plates to the coupling nuts. A mounting tube of generally square cross section has four apertures aligned along its length. The first two apertures are round and near one end of the tube. The other two apertures are elongated for adjustably attaching the tube to the central apertures of the two cross plates with bolts and nuts. A mounting plate includes two sets of two holes. The holes of the first set, which are round, are used to attach the chain traction components
Fox III Angus C.
Lavinder Jack
Siconolfi Robert A.
LandOfFree
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