[0001] The present invention relates to an improvement in or relating to the structure of
a buckle in a seat belt applied to a seat of a motor vehicle to protect an occupant
in the event of a collision or the like, so that an associated tongue can be unlatched
from the buckle by a reduced, namely, lighter operating force.
[0002] Reference is first made to FIG. 6, which is a perspective view showing the overall
construction of a seat belt. To protect an occupant in a seat of a motor vehicle the
event of a collision or a similar accident, the seat is provided with a seat belt
similar to that shown in FIG. 6.
[0003] To use the seat belt, a tongue plate 2 through which a continuous lap-shoulder webbing
1 extends is latched in a buckle 4 which is secured to an upper end of an anchor member
3 supported at a lower end thereof on a stationary part of the motor vehicle. As a
result, the occupant in a seat 5 is restrained by the webbing 1 so that the occupant
will be protected from being thrown forward in the event of a collision or the like.
[0004] Upon egress from the motor vehicle, a release button of the buckle 4 is pressed to
release the latching between the buckle 4 and the tongue plate 2, so that the webbing
1 is taken up in an unillustrated retractor. Accordingly, the occupant is no longer
prevented from leaving the seat 5.
[0005] To ensure smooth entry into and egress from the motor vehicle, it is necessary to
allow the occupant to easily effect both latching and unlatching of the buckle 4 and
the tongue plate 2. As disclosed, for example, in Japanese Utility Model Application
Laid-Open (Kokai) Nos. 134306/1986 and 153511/1986, seat belt buckles of various structures
have been proposed to achieve such an object.
[0006] The structure of such a conventionally-known buckle 4 will first be described with
reference to FIGS. 2-5. Some parts shown in FIG. 2 have slightly different shapes
from their corresponding parts depicted in FIG. 3-4. It is to be noted that these
parts have no relevance to the subject matter of the present invention.
[0007] A buckle base 8 is held within a spacing defined by an upper cover 6 and a lower
cover 7, and is connected at one end thereof to a proximal end portion of an anchor
member 3 (see FIG. 6). The buckle base 8 has been formed by bending a metal plate
having sufficient rigidity, such as a steel plate in a flattened square U-shaped transverse
cross-section. The buckle base 8 includes a flat base plate portion 9, which lies
right above the lower cover 7, and upright side wall portions 10,10 extending at right
angles from both side edges of the base plate portion 9.
[0008] Designated at numeral 11 is a buckle latch piece for bringing the buckle base 8 of
the buckle 4 into engagement with the associated tongue plate 2. The buckle latch
piece 11 has a detent 12 at a front end portion, which is positioned closer to the
free end of the buckle 4 and is a left-hand end portion as viewed in FIGS. 2-4. At
a rear end portion of the buckle latch piece 11, said rear end portion being closer
to the basal end portion of the buckle 4 where the buckle 4 is connected to the anchor
member 3, lugs 13,13 extend laterally from both side edges of buckle latch piece 11
into first through-holes 14,14 formed in the corresponding upright side wall portions
10,10, whereby the buckle latch piece 11 is supported rockably about the rear end
portion thereof between the paired upright side wall portions 10,10.
[0009] Numeral 15 indicates a lock plate which unless a button 18 to be described subsequently
is pressed by the occupant, holds the buckle latch piece 11 at a lock position, namely,
at a position where the detent 12 is positioned close to the base plate portion 9
as shown in FIG. 5 to be described subsequently. Both lateral end portions of the
lock plate 15 are inserted in second through-holes 16,16 formed in the corresponding
upright side wall portions 10,10 in such a way that the lateral end portions are movable
to limited extents in both up-and-down and rear-and-front directions as viewed in
the drawings. The lock plate 15 is composed of a plate-like member having a predetermined
width in the direction of the length of the buckle 4, namely, in the horizontal direction
as viewed in the drawings. Disposed between the rear edge of the lock plate 15 and
the buckle latch piece 11 is a lock plate spring 17 in the form of a compression spring,
whereby a spring force is applied to the lock plate 15 in an upward and frontward
direction.
[0010] At numeral 19, there is illustrated a buckle slider. A push-out spring 21 in the
form of a compression spring is arranged between the buckle slider 19 and a catch
seat 20 formed in the base plate portion 9 of the buckle base 8, whereby a forward
spring force is always exerted to the buckle slider 19.
[0011] The release button 18 is disposed movably back and forth between the lower face of
the upper cover 6 and the upper edges of the upright side wall portions 10,10 of the
buckle base 8. A button spring 24 in the form of an extension spring is provided between
a hook 22 formed at a rear end portion of the release button 18 and a hook 23 formed
at a front portion of the buckle latch piece 11, so that a forward spring force is
applied to the release button 18 and a clockwise turning spring force is exerted to
the buckle latch piece 11.
[0012] To latch the tongue 2 in the buckle 4 constructed of such parts or components as
described above, a free end portion 2a of the tongue plate 2 is inserted into a slit-like
gap 25 defined between the lower face of the release button 18 and the upper face
of the base plate portion 9 of the buckle base 8 (see FIG. 4), thereby to push the
buckle slider 19 rearward (rightward as viewed in FIGS. 2-4) against the spring force
of the push-out spring 21.
[0013] As the buckle slider 19 moves rearward, a rear face 19a of the buckle slider 19 rearwardly
pushes bent fingers 26,26 extending downwardly from the buckle latch piece 11. As
a consequence, the buckle latch piece 11 is rocked counterclockwise, as viewed in
FIG. 4, against the spring force of the button spring 24 about the rear end portion
thereof where the lugs 13,13 are in engagement with the corresponding first through-holes
14,14, so that the detent 12 formed at the front end portion of the buckle latch piece
11 is caused to advance into the opening 28 formed in the free end portion 2a of the
tongue plate 2 to inseparably unit the tongue plate 2 and the buckle plate 4.
[0014] On the other hand, because of the engagement between the notch 27 of the lock plate
15 and the neck portion 23' of the hook 23, the lock plate 15 is associated with the
buckle latch piece 11 in such a way that they are slidable relative to each other
only in the directions of planes in which they lie respectively. Following rocking
of the buckle latch piece 11, the lock plate 15 also rocks in the same direction,
i.e., counterclockwise as viewed in FIG. 4, and eventually the lock plate 15 is pushed
by the spring force of the lock plate spring 17 into the constricted hole portions
16a,16a formed on the front sides of the second through-holes 16,16. The lock plate
15 is held in this state, so that the front end portion of the buckle latch piece
11 is prevented from moving upward. As a result, it is possible to avoid any accidental
release of the engagement between the detent 12 of the buckle latch piece 11 and the
opening 28 of the tongue plate 2.
[0015] To release the engagement between the buckle 4 and the tongue plate 2, the release
button 18 is pressed toward the basal end portion of the buckle 4 (i.e., rightwards
as viewed in FIG. 4) against the spring force of the button spring 24, whereby the
lock plate 15 is pushed rearward by rear faces 18a (see FIG. 4) of side wall portions
formed in the release button 18.
[0016] As a result, both the lateral end portions of the lock plate 15 are disengaged from
the corresponding constricted hole portions 16a,16a of the second through-holes 16,16,
and are brought into the broader hole portions 16b,16b formed behind and in continuation
with the constricted hole portions 16a,16a so that the lock plate 15 becomes movable
upwardly. Consequently, the buckle latch piece 11 is rockable clockwise, as viewed
in FIG. 4, about a pivot formed by the engagement between the first through-holes
14,14 and the corresponding lugs 13,13. The buckle latch piece 11 thus rocks clockwise
by the spring force of the button spring 24. As a consequence, the detent 12 formed
at the front end portion of the buckle latch piece 11 is upwardly pulled out of the
opening 28 of the tongue plate 2 so that the tongue plate 2 and the buckle 4 can be
separated from each other.
[0017] Conventional seat belt buckles which are constructed and operate as described above
are however accompanied by the following inconvenience.
[0018] As shown in FIG. 5, upper edges 29 of the constricted hole portions 16a formed on
the front sides of the second through-holes 16 to loosely receive the corresponding
lateral end portions of the lock plate 15 are parallel to the upper surface of the
buckle latch piece 11 in a locked state (also to the base plate portion 9 as a matter
of fact), namely, when the tongue plate is latched in the buckle 4. Therefore, the
lower surface of the lock plate 15 and the upper surface of the buckle latch piece
11 are caused to contact with each other over a wide area when the lock plate 15 and
the buckle latch piece 11 are brought into a locked state. Incidentally, for the sake
of clarification, the term "upper" as used herein indicates an element, portion, part
or the like farther from the base plate portion 9 of the buckle base 8 while the term
"lower" indicates the corresponding element, portion, part or the like closer to the
base plate portion 9. It is therefore to be noted that the indication of "upper" or
"lower" does not necessarily conform with the position in actual use.
[0019] When the lower surface of the lock plate 15 and the upper surface of the buckle latch
piece 11 are brought into contact with each other over such a wide area in a locked
state as described above, a large friction force is produced between these surfaces
so that a great force is required to move the lock plate 15 from the constricted hole
portions 16a to the broader hole portions 16b.
[0020] The need for such a large force to move the lock plate 15 from the constricted hole
portions 16a to the broader hole portions 16b as described above undesirably leads
to the need for a large operating force to press the release button 18 upon release
of the engagement between the tongue plate 2 (see FIG. 6) and the buckle 4.
[0021] An object of the present invention is therefore to provide a seat belt buckle which
does not involve such inconvenience.
[0022] In one aspect of the present invention, there is thus provided a buckle for a seat
belt, including a buckle base formed by bending a metal plate in a flattened square
U-shaped transverse cross-section and having a base plate portion and a pair of opposing
upright side wall portions extending from both side edges of the base plate portion,
a buckle latch piece pivotally supported at a rear end portion thereof on the upright
side wall portions and having at a front end thereof a detent releasably engageable
with an opening formed in an associated tongue plate, a spring normally biasing the
buckle latch piece in a direction that the detent moves away from the base plate portion,
a pair of through-holes formed in a mutually-opposing relation in the paired upright
side wall portions, respectively, said through holes defining in a continuous relation
broader hole portions on rear sides thereof and constricted hole portion on front
sides thereof, a lock plate arranged movably back and forth on an upper surface of
the buckle latch piece and loosely received at both lateral ends thereof in the paired
through-holes, respectively, and a lock plate spring disposed between the lock plate
and the buckle latch piece and applying a spring force to the lock plate in a direction
toward a front end portion of the buckle latch piece. Upper edges of the constricted
hole portions of the paired through-holes, said upper edges being located on a side
opposite to the base plate portion relative to lower edges of the constricted hole
portions, extend obliquely relative to the base plate portion whereby the distances
between the upper edges and the base plate portion increase as rear ends of the upper
edges are approached.
[0023] When the tongue plate is latched in or unlatched from the seat belt buckle of the
present invention constructed as described above, the buckle operates in substantially
the same manner as the conventional seat belt buckle described above.
[0024] In the seat belt buckle of the present invention, the upper edges of the constricted
hole portions are formed oblique or aslant relative to the base plate portion and
a spring force is applied upwardly and frontwardly to the lock plate by the lock plate
spring. At the time of locking, the lock plate is therefore tilted relative to the
upper surface of the buckle latch piece so that the lower surface of the lock plate
and the upper surface of the buckle latch piece are not brought into firm contact
with each other over a wide area.
[0025] The frictional force to be produced between the lower surface of the lock plate and
the upper surface of the buckle latch piece is therefore reduced, whereby a smaller
force is required to pull out the lock plate from the constricted hole portions. This
means that a smaller operating force is required to press the release button when
it is desired to release the engagement between the tongue plate and the buckle.
[0026] The seat belt buckle according to the present invention therefore requires a smaller
force for operating the release button to release the engagement between the tongue
plate and the buckle in spite of the fact that its structure is still simple and its
manufacturing cost is not high.
[0027] The above and other objects, features and advantages of the present invention will
become apparent from the following description of the invention and the appended claims,
taken in conjunction with the accompanying drawings, in which:
FIG. 1 is a partly-simplified fragmentary side view of a seat belt buckle according
to a preferred embodiment of the present invention;
FIG. 2 is an exploded perspective view of an exemplary conventional seat belt buckle;
FIG. 3 is a plan view of the conventional seat belt buckle in an assembled state,
in which a part of an upper cover is cut away;
FIG. 4 is a longitudinal cross-sectional view of the conventional seat belt buckle,
taken in the direction of arrows IV-IV of FIG. 3;
FIG. 5 is a side view of the conventional seat belt buckle in a state similar to the
seat belt buckle in FIG. 1; and
FIG. 6 is a perspective view showing the overall construction of a seat belt.
[0028] The seat belt buckle according to the preferred embodiment of the present invention
will hereinafter be described in further detail with reference to FIG. 1, in which
elements of structure similar to the corresponding ones in the conventional example
of FIGS. 2-5 are identified by like reference numerals. Description of such elements
is omitted herein.
[0029] In the seat belt buckle according to the preferred embodiment of this invention,
upper edges 29' of the constricted hole portions 16a of the paired through-holes 16
extend obliquely and upwardly at an angle ϑ relative to the base plate portion 9 of
the buckle base 8 so that the distances between the upper edges 29' and the base plate
portion 9 increases as rear ends of the upper edges 29' (namely, the righthand ends
of the upper edges 29' as viewed in FIG. 1) are approached.
[0030] When the tongue plate 2 is latched in and unlatched from the buckle 4 constructed
as described above, the buckle 4 operates in exactly the same manner as the conventional
buckle described above.
[0031] However, the force required to press the release button 18 so as to release the engagement
between the buckle 4 and tongue plate 2 is lighter in the buckle 4 of the present
invention compared with the conventional seat belt buckle.
[0032] In the case of the seat belt buckle 4 according to the present invention, the upper
edges 29' of the constricted hole portions 16a extend obliquely relative to the base
plate portion 9. As have been described above in connection with the conventional
seat belt buckle, the constricted hole portions 16a make up the front parts of the
second through-holes 16 in which both lateral end portions of the lock plate 15 are
loosely received and when the tongue plate 2 is latched in the buckle 4, the lateral
end portions of the lock plate 15 are positioned in the constricted hole portions
16a, respectively. By the lock plate spring 17 provided between the lock plate 15
and the buckle latch piece 11, a spring force is applied to the lock plate 15 in an
upward and frontward direction. Accordingly, upon latching, the lock plate 15 is caused
to turn in such a way that the lock plate 15 is twisted counter-clockwise as viewed
in FIG. 1, whereby the upper surfaces of both the lateral end portions of the lock
plate 15 are brought into firm contact with the corresponding upper edges 29'.
[0033] In this state, as shown in FIG. 1, the lock plate 15 lies obliquely relative to the
upper surface of the buckle latch piece 11 so that the lower surface of the lock plate
15 is in contact with the upper surface of the buckle latch piece 11 only at an extremely
small area of a front end portion of the former surface and both the surfaces are
no longer allowed to contact with each other over a wide area.
[0034] A reduction has hence been brought about in the frictional force to be developed
between the lower surface of the lock plate 15 and the upper surface of the buckle
latch piece 11 when the tongue plate 2 is latched in the buckle 4. As a result, a
smaller force is required to move the lock plate 15 rightward as viewed in FIG. 1
and to pull out of the lock plate 15 from the constricted hole portions 16a of the
second through-holes 16 toward their wider hole portions 16b.
[0035] The lock plate 15 is not prevented from tilting relative to the upper surface of
the buckle latch piece 11 by the engagement between the neck portion 23' of the hook
23 of the buckle latch piece 11 and the notch 27 of the lock plate 15, because the
engagement is loose.
[0036] When it is desired to unlatch the tongue plate 2 from the buckle 4, a smaller operation
force is therefore required to press the release button 18 for moving the lock plate
15 rearward.
[0037] The inclination ϑ of the upper edges 29' of the constricted hole portions 16a is
suitably about 3-8 degrees. If ϑ is smaller than the lower limit, no substantial advantageous
effects can be brought about over the conventional buckle. On the other hand, ϑ values
greater than the upper limit lead to a reduction in the function to hold the latch
piece 11.
1. A buckle for a seat belt, including a buckle base (8) formed by bending a metal plate
in a flattened square U-shaped transverse cross-section and having a base plate portion
(9) and a pair of opposing upright side wall portions (10) extending from both side
edges of the base plate portion, a buckle latch piece (11) pivotally supported at
a rear end portion thereof on the upright side wall portions and having at a front
end thereof a detent (12) releasably engageable with an opening (28) formed in an
associated tongue plate (2), a spring (24) normally biasing the buckle latch piece
in a direction that the detent moves away from the base plate portion, a pair of through-holes
(16) formed in a mutually-opposing relation in the paired upright side wall portions,
respectively, said through holes (16) defining in a continuous relation broader hole
portions (16b) on rear sides thereof and constricted hole portion (16a) on front sides
thereof, a lock plate (15) arranged movably back and forth on an upper surface of
the buckle latch piece and loosely received at both lateral ends thereof in the paired
through-holes, respectively, and a lock plate spring (17) disposed between the lock
plate and the buckle latch piece and applying a spring force to the lock plate in
a direction toward a front end portion of the buckle latch piece, characterised in
that upper edges (29') of the constricted hole portions (16a) of the paired through-holes
(16), said upper edges being located on a side opposite to the base plate portion
(9) relative to lower edges of the constricted hole portions (16a), extend obliquely
relative to the base plate portion (9) whereby the distances between the upper edges
(29') and the base plate portion (9) increase as rear ends of the upper edges (29')
are approached.
2. The buckle of claim 1, wherein the lock plate (15) is composed of a plate-like member
having a predetermined width in the direction of the length of the buckle (4) and
the lock plate (15) is biased at a rear end portion thereof by the lock plate spring
(17), whereby upon engagement of the tongue plate (2) with the latch piece (11), the
lock plate (15) is in contact with the latch piece (11) only at a front end portion
of the lock plate while being maintained in contact with the upper edges (29') of
the through-holes (16).
3. The buckle of claim 1 or 2, wherein the inclination of the upper edges (29') relative
to the base plate portion (9) is 3-8 degrees.
4. The buckle of any one of claims 1-3, wherein the latch piece (11) has an upwardly
extending hook (23), and the hook (23) is received in a notch (27) formed longitudinally
in the lock plate (15) and has a neck portion (23') for permitting rocking of the
lock plate (15) relative to the latch piece (11).