Safety system for vehicle

A safety system for protecting a driver of a vehicle has a single continuous safety cable designed to retract a steering column and at the same time pull a driver's seat belt when an engine is shoved rearward in a head-on collision of the vehicle. A cable portion for pulling the steering column is connected in series with a cable portion for pulling the seat belt so that the steering column is retracted only when the driver's seat belt is fastened. When the driver's seat belt is fastened, the safety cable system protects the driver by increasing the seat belt tension and retracting the steering column. When the driver's seat belt is not fastened, the safety cable system leaves the steering column at its normal position to absorb impact energy of a secondary collision of the driver against the steering wheel.

BACKGROUND OF THE INVENTION 
The present invention relates to a safety system or apparatus for 
protecting a person or persons in a vehicle, and more specifically to a 
safety cable system or apparatus for protecting a driver by retracting a 
steering column and increasing a belt tension of a seat belt assembly in 
response to a backward movement of an engine of the vehicle in a head-on 
collision of the vehicle. 
Japanese Utility Model Provisional (KOKAI) Publication No. 52-119226 
discloses a safety cable system connecting a seat belt assembly and a 
steering column. This cable system is arranged to retract the steering 
column toward the front of the vehicle by utilizing a belt tension 
produced by an inertial force of a seat occupant in a vehicle's collision 
(primary collision) in order to reduce the danger of a collision between 
the steering wheel and the head or upper torso of the driver (secondary 
collision). In this cable system, however, the belt tension is not 
produced until the driver is thrown toward the front of the vehicle 
through a predetermined distance. Therefore, this system entails a delay 
in securing the driver with the seat belt. 
FIG. 3 shows another prior art safety cable system which includes a cable 1 
having one end connected with a seat belt 2 of a front passenger seat, and 
the other end which is bifurcated into a first branch portion connected 
with a seat belt 3 of a driver's seat, and a second branch portion 
connected with a steering column 4. The cable 1 is passed round two 
support posts 5 and hooked by an engine 6, as shown in FIG. 3. In a 
head-on collision of the vehicle, the engine 6 is shoved backward to a 
position shown by a broken line in FIG. 3. Therefore, the cable 1 
increases the tensions of the seat belts 2 and 3, and at the same time 
pulls the steering column 4 together with a steering wheel 7 toward the 
front of the vehicle. 
When the seat belts 2 and 3 are in a fastened (restraint) state for 
protecting a seat occupant, this cable system can protect the driver and 
passenger against a secondary collision by immediately increasing the belt 
tension on a primary collision. However, when the driver's seat belt 3 is 
not in the fastened state, that is, the driver is not secured by the seat 
belt 3, then the steering column 4 is retracted by the cable 1 before a 
secondary collision of the driver, and therefore, the steering column 4 
becomes unable to absorb the energy of the secondary collision. 
SUMMARY OF THE INVENTION 
It is an object of the present invention to provide a safety cable system 
or apparatus which can protect a seat occupant whether a seat belt 
assembly is in a fastened state or not. 
According to the present invention, a safety system for a vehicle, 
comprises a safety cable comprising first, second and third cable 
portions. The first cable portion is caught by an engine of the vehicle, 
and forced to move in a rearward direction of the vehicle and to increase 
a cable tension of the safety cable by the engine when the engine is moved 
in the rearward direction in a head-on collision of the vehicle. The 
second cable portion is connected with a steering column of the vehicle, 
and arranged to pull the steering column in a forward direction of the 
vehicle when the cable tension of the safety cable is increased. The third 
cable portion is connected with a first seat belt assembly and arranged to 
apply a pulling force to the first seat belt assembly so as to increase a 
belt tension of the first seat belt assembly when the cable tension of the 
safety cable is increased while the first seat belt assembly is in a 
fastened state. The first, second and third cable portions are connected 
so as to form a single continuous line.

DETAILED DESCRIPTION OF THE INVENTION 
As shown in FIG. 1, a safety system according to a first embodiment of the 
present invention comprises a continuous flexible safety cable 19. The 
safety cable 19 extends continuously from a first cable end 19a to a 
second cable end 19b in the form of a single continuous winding line. The 
safety cable 19 of this embodiment has only these two ends 19a and 19b, 
and has not other end. The safety cable 19 of this embodiment is 
branchless. 
The safety cable 19 has a first cable portion 19c which is caught by an 
engine (or engine assembly) 12 of the vehicle, so that the safety cable 19 
is pulled in a rearward direction toward the rear of the vehicle along a 
longitudinal axis of the vehicle by the engine (assembly) 12 if the engine 
12 is shoved in the rearward direction in a head-on collision of the 
vehicle. A first cable holder 12a is fixed to the engine 12. The first 
cable holder 12a may be an integral part of a housing member of the engine 
(assembly) 12. The first cable holder 12a serves as a first holding means 
for holding the first cable portion 19c at a first position shown by a 
solid line in FIG. 1. The first cable holder 12a may be a projection 
formed with a hole through which the cable 19 passes and moves, or may be 
shaped like a hook, or may comprise a pulley for carrying the cable 19. 
The engine (assembly) 12 is normally held at a normal engine position 
shown by solid lines in FIG. 1. The engine (assembly) 12 is displaced in 
the rearward direction to a displaced position shown by broken lines in 
FIG. 1 is a frontal impact is applied to the front of the vehicle. In this 
embodiment, the first cable portion 19c is somewhat sharply bent when the 
safety cable 19 is tense. 
The safety cable 19 further has a second cable portion 19d which is caught 
by a steering column 13 and designed to retract the steering column 13 
together with a steering wheel 22 from a normal column position shown by 
solid lines in FIG. 1 to a retracted position shown by broken lines, by 
pulling the steering column 13 in a forward direction toward the front of 
the vehicle. A second cable holder 13a is formed in the steering column 
13. The second holder 13a may be an integral part of, or fixed to, a 
nonrotational member of the steering column 13. The second cable holder 
13a serves as a second holding means for holding the second cable portion 
19a at a second position. The second cable holder 13a of this embodiment 
is a projection which is formed in the steering column 13 and designed to 
function as a hook. The second cable portion 19d is also sharply bent. In 
this embodiment, the steering column 13 is of a collapsible type designed 
to absorb impact energy. 
The safety cable 19 further has a third cable portion 19e which is 
connected with a first seat belt assembly 15 for a driver's seat. The 
first seat belt assembly 15 comprises a seat belt 15a, a belt connector 
15b, a tongue 15c and a belt end metal member 15d. In this embodiment, the 
seat belt 15a is a webbing, and the belt connector 15b is a buckle. The 
driver's seat belt assembly 15 is in a fastened state when the tongue 15c 
is inserted into the buckle 15b and latched in the buckle 15b. The belt 
assembly 15 is in a released state when the tongue 15c is disconnected 
from the buckle 15b. The third cable portion 19e of the safety cable 19 
can pull the belt webbing 15a and increase the belt tension only when the 
belt assembly 15 is in the fastened state. In this embodiment, the first 
cable end 19a of the safety cable 19 is contained in the third cable 
portion 19 e, and connected with the buckle 15b of the driver's seat belt 
assembly 15 in such a manner that the third cable portion 19e can pull the 
buckle 15b. From the first cable end 19a, the third cable portion 19e 
extends in such a direction that the third cable portion can increase the 
belt tension by pulling the buckle 15b when the seat belt assembly 15 is 
in the fastened state. The buckle 15b is movable to a limited extent. 
First and second support posts (or support members) 20a and 20b are fixed 
to a main body structure 21 of the vehicle. FIG. 1 shows only a small 
portion of the main body structure 21. In a front collision, the engine 12 
is displaced in the rearward direction relative to the support posts 20a 
and 20b and relative to the main body structure 21. When the steering 
column 13 is strongly pulled by the safety cable 19, the steering column 
13 is displaced relative to the main body structure 21 and the support 
posts 20a and 20b. Each of the support posts 20a and 20b has a smooth 
convex outside surface. In this embodiment, each of the support posts 20a 
and 20b extends along the vertical z axis of the vehicle, and has a 
cylindrical outside surface. 
The safety cable 19 further has fourth and fifth cable portions 19f and 19g 
which, in this embodiment, both extend around the first support post 20a. 
Each of the fourth and fifth cable portions 19f and 19g describes a 
semicircle around the first support posts 20a. The fourth cable portion 
19f is intermediate between the first and second cable portions 19c and 
19d along the longitudinal line of the sinuous safety cable 19. The fifth 
cable portion 19g is intermediate between the first and third cable 
portions 19c and 19e along the safety cable 19. In this embodiment, the 
second cable portion 19d is intermediate between the first and third cable 
portions 19c and 19e, and the fifth cable portion 19g is intermediate 
between the second and third cable portions 19d and 19e. Each of the 
fourth and fifth cable portions 19f and 19g is bent in the shape of a U by 
the first support post 20a. The first support post 20a is located ahead of 
any of the first and second cable holders 12a and 13a, and the buckle 15b 
of the seat belt assembly 15. That is, the support post 20a is closest to 
the front of the vehicle, and remotest from the rear of the vehicle. 
The safety cable 19 of this embodiment further has a sixth cable portion 
19h which is intermediate between the first cable portion 19c and the 
second cable end 19b. The sixth cable portion 19h is bent in the U shape 
by the second support post 20b. The second support post 20b is located 
ahead of the first cable holder 12a. 
In the first embodiment, the second cable end 19b of the safety cable 19 is 
connected with a second seat belt assembly 16 of a front passenger's seat. 
The second seat belt assembly 16 is substantially identical to the first 
seat belt assembly 15. In the first embodiment, the second cable end 19b 
is connected with a belt end member 16d of the second seat belt assembly 
16 in such a manner that the safety cable 19 can pull the belt end member 
16d. The safety cable 19 is always connected with a seat belt 16a of the 
second seat belt assembly 16 in such a manner that the safety cable 19 can 
pull the seat belt 16a. The belt end member 16d is movable to a limited 
extent relative to the main body structure 21, and capable of pulling the 
second seat belt 16a. This limited extent of the belt end member 16d of 
the second seat belt assembly 16 is smaller than that of the buckle 15b of 
the first seat belt assembly 15. 
Thus, the safety cable 19 of the first embodiment extends from the second 
end 19b to the first end 19a, through the second support post 20b, the 
first cable holder 12a, the first support post 20a, the second cable 
holder 13a and the first support post 20a. Each of the first and second 
cable holders 12a and 13a and the support posts 20a and 20b changes the 
direction of the safety cable 19. The safety cable 19 of this embodiment 
is in the form of a continuous single line, and each of the first through 
sixth cable portions 19c-19h is in the form of a line segment of the 
single line. The cable portions 19c-19h are connected in series so as to 
form a continuous single path for transmitting a pulling force from the 
first end 19a to the second end 19b. Each cable portion is not fixed, but 
slidable along the longitudinal line of the cable 19. 
If a frontal collision of the vehicle causes a rearward displacement of the 
engine 12 relative to the vehicle main body structure 21 from the normal 
position shown by the solid lines in FIG. 1 to the displaced position 
shown by the broken lines while the driver's seat belt assembly 15 is in 
the fastened state, then the safety cable 19 increases the tension of the 
seat belt 15a by pulling the buckle 15b, and at the same time pulls the 
steering column 13 and the steering wheel 22 from the normal position 
toward the front of the vehicle. Therefore, the seat belt 15 prevents the 
driver from being thrown violently toward the front of the vehicle by an 
inertial force, by restraining the driver immediately without delay, and 
securely with the preliminarily given belt tension (preload). On the other 
hand, the steering column 13 with the steering wheel 22 is retracted 
toward the front of the vehicle. Thus, this safety system reliably 
prevents a secondary collision between the driver and the steering wheel 
22 by securing the driver with the seat belt 15 and simultaneously 
retracting the steering wheel 22. If the second seat belt 16 is also 
fastened, then the safety cable 19 of this embodiment pulls the second 
seat belt 16 too, and secures to passenger in the front passaenger's seat. 
If a frontal collision occurs when the driver's seat belt assembly 15 is 
not in the fastened state, then the safety cable 19 leaves the steering 
column 13 in the normal projected position in spite of a rearward 
displacement of the engine 12. The safety cable 19 does not retract the 
steering column 13 because the tongue 15c is disconnected from the buckle 
15b. In the released state of the driver's seat belt assembly 15, the 
safety cable 19 pulls only the buckle 15b which is disconnected from the 
belt 15a. Therefore, only the buckle 15b moves relative to the main body 
structure 21, and the safety cable 19 can neither increase its own tension 
nor retract the steering column 13. In this case, the driver is thrown 
forwardly by the inertial force, and collides against the steering wheel 
22. However, the steering column 13 collapses and absorbs impact energy of 
the secondary collision. This safety system can mitigate the results of a 
front end collision of the vehicle by making proper use of the collapsible 
steering column 13 even if the driver fails to fasten the seat belt. 
In this embodiment, the first end 19a of the safety cable 19 is connected 
with the buckle 15b of the first seat belt assembly 15, and the buckle 15b 
is movable in a relatively wide range. Therefore, the first seat belt 
assembly 15 in the released state does not impose a constraint on the 
first end 19a of the safety cable 19, so that the steering column 13 is 
not drawn back by the safety cable 19. The second end 19b of the safety 
cable 19 is connected with the belt end metal member 16d which is movable 
only in a narrow range. Therefore, the second seat belt assembly 16 
imposes a constraint on the second end 19b of the safety cable 19 
regardless of whether the second seat belt assembly is in the fastened 
state or the released state. When the second seat belt assembly 16 is in 
the fastened state, the safety cable 19 increases the tension of the 
second seat belt 16a in accordance with a rearward displacement of the 
engine. 
FIG. 2 shows a safety cable system according to a second embodiment of the 
present invention. A safety cable 23 of the second embodiment also has 
only two cables ends 23a and 23b. The first cable end 23a is connected 
with the steering column 13 so that the safety cable 23 can pull the 
steering column 13. The second cable end 23b is connected with the buckle 
15b of the driver's seat belt assembly 15 so that the safety cable 23 can 
pull the buckle 15b. 
The safety cable 23 has a first cable portion 23c which is caught by the 
engine 12 in the same manner as in the first embodiment. In the second 
embodiment, the first cable end 23a is contained in a second cable portion 
23d, and therefore, the second cable portion 23d is connected with the 
steering column 13 in such a manner that the second cable portion 23d can 
pull the steering column 13. The second cable end 23b is contained in a 
third cable portion 23e, and therefore, the third cable portion 23e is 
connected with the buckle 15b of the driver's seat belt assembly 15 in 
such a manner that the third cable portion 23e can pull the buckle 15b. 
The first cable portion 23c is intermediate between the second and third 
cable portions 23d and 23e. The first, second and third cable portions 
23c, 23d and 23e are connected in series so as to form a single continuous 
line. 
The safety cable 23 further has a fourth cable portion 23f between the 
first and second cable portions 23c and 23d, and a fifth cable portion 23g 
between the first and third cable portions 23c and 23e. The fourth and 
fifth cable portions 23f and 23g are curved, respectively, by the first 
and second support posts 20a and 20b as in the first embodiment. 
The safety cable system of the second embodiment is also designed to 
retract the steering column 13 only when the driver's seat belt is 
fastened by inserting the tongue 15c into the slit of the buckle 15b. The 
safety cable 23 of the second embodiment is not connected with the second 
seat belt assembly of the front passenger's seat. 
In the first embodiment shown in FIG. 1, it is optional to fix the first 
cable portion 19c to the engine 12. In the second embodiment, however, the 
first cable holder 12a catches the first cable portion 23 in such a 
slidable manner that the first cable portion 23 is slidable through the 
first cable holder 12a. In each of the first and second embodiments, the 
safety cable 19 or 23 is a steel cable. The tongue 15c may be fixed to one 
end of the belt 15a, or may be a sliding tongue slidable along the belt 
15a.