BACKGROUND OF THE INVENTION
1. Field of the Invention
[0001] The present invention relates to a door lock device for a vehicle.
2. Description of the Related Art
[0002] A door lock device for a vehicle is a device that, when the door is closed, becomes
engaged with a striker on a vehicle and holds the striker, and when the door is open,
releases the striker. Such a door lock device has some electric parts that are housed
in a casing. For example, there is a switch for detecting the status of a locking-and-unlocking
member, a switch for a room lamp, a motor for rotating levers, and conductive terminals
that are connected to these electric parts. These electric parts are fixed to a plate,
and the entire plate is attached to the casing.
[0003] Terminals are often provided as a pair in parallel, in a manner corresponding to
a switch or a motor. In the door lock device disclosed in Japanese Patent No.
4517914, before the terminals are fixed to the plate, an integration of two terminals, integrated
with several short links, is attached to the plate, and the links are then cut off
so that the integration is divided into two terminals in the subsequent step. Cutouts
are provided to both ends of the link. In other words, cutouts for allowing the link
to be cut off easily are provided to both ends, that is, two points, of the link.
[0004] In the door lock device disclosed in Japanese Patent No.
4517914, one end of the link is cut off by pushing the link, but because the cutout is provided
to the other end, too, the link cannot be bent at a sharp angle. If the link is bent
at a sharp angle, the other end might also break off, and the link might get inside
of the casing. Because the link cannot be bent at a sharp angle, only a short distance
is ensured between the terminals near the bent piece, and the terminals may become
electrically connected to each other when that part becomes wet, and a conduction
failure may occur.
[0006] The present invention is made in consideration of the above, and an object of the
present invention is to provide a door lock device capable of improving insulation
between two terminals.
SUMMARY OF THE INVENTION
[0007] To resolve the above problems and attain the object, a door lock device according
to the present invention includes a housing; electric components housed in the housing;
first and second terminals, each of which being electrically conductive and connected
to the electric components; a plate that holds the first terminal and the second terminal
and having holes formed at positions corresponding to positions between the first
terminal and the second terminal; bent pieces that protrudes from the first terminal
and are bent at edges of the holes; and insulating pins that protrude from the housing,
are positioned inside of the respective holes, and are interposed between the respective
bent pieces and the second terminal.
[0008] The bent pieces may be inserted into the respective holes.
[0009] The bent pieces may be resultant of being cut off from the second terminal along
respective cutouts, and have respective cut off portions.
[0010] The first terminal may have curved portions projecting in a direction moving away
from the second terminal, and the bent pieces may protrude from the respective curved
portions.
[0011] the plate may have a bumper that protrudes, and the bumper that is being elastically
deformed may be kept in abutment with the housing.
[0012] In the door lock device according to the present invention, because the bent piece
on the first terminal is bent at the edge of the hole, and the pin is interposed between
the bent piece and the second terminal, the insulation between the two terminals can
be improved.
BRIEF DESCRIPTION OF THE DRAWINGS
[0013]
FIG. 1 is a perspective view of a door lock device according to an embodiment;
FIG. 2 is a side view of the door lock device seen from inside of a cabin, with a
cover and a waterproofing cover removed;
FIG. 3 is a side view of the door lock device seen from outside of the cabin, with
a casing and the waterproofing cover removed;
FIG. 4 is an exploded perspective view of a plate and a terminal attached to the plate;
FIG. 5 is a partially enlarged perspective view of inside of the casing;
FIG. 6A is a perspective view of a hole, a link, and the surroundings before the link
is cut off at a cutout;
FIG. 6B is a perspective view after the link is cut off at the cutout;
FIG. 7 is a first partially enlarged perspective view of the plate attached to the
casing;
FIG. 8 is a sectional view of the hole, the bent piece, and the pin;
FIG. 9 is a second partially enlarged perspective view of the plate attached to the
casing;
FIG. 10 is a perspective view illustrating an assembly process for attaching the plate
to the casing;
FIG. 11 is a perspective view of the casing with the plate and other parts assembled
thereto; and
FIG. 12 is a perspective view of a bumper provided to the plate and the surroundings.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0014] A door lock device according to an embodiment of the present invention will be explained
in detail with reference to the accompanying drawings.
[0015] FIG. 1 is a perspective view of a door lock device 10 according to an embodiment
of the present invention. The door lock device 10 is to be mounted inside of a vehicle
door (e.g., a front side door), and includes a door latch device 12, a casing 14,
and a cover 16. In this example, the casing 14 and the cover 16 have different names,
but both of these elements are housings that are assembled into one unit to cover
internal parts. The casing 14 may be referred to as an outer housing. The cover 16
may be referred to as an inner housing. The door lock device 10 illustrated in FIG.
1 is an example in which the door lock device 10 is used in the right side door of
a vehicle, but it is also possible to achieve a door lock device 10 to be used in
the left side door by a symmetrical structure.
[0016] The door lock device 10 includes a coupler 18 to be electrically connected with an
external device, a waterproofing cover 20, waterproofing seals 22 and 24, and a cable
cover 26. The waterproofing cover 20 covers the boundary between the casing 14 and
the cover 16, on the top surface and the front surface of the door lock device 10.
The waterproofing seal 22 covers the circumference of the coupler 18. The waterproofing
seal 24 covers the upper side and both sides of the door latch device 12, and covers
a part of the inner side, up to a position reaching the cable cover 26. The cover
16 has a bulged portion 16a extending along a vertical direction.
[0017] The door latch device 12 is a device that closes the door of the vehicle and that
makes the door ready to be open, by becoming engaged with and removed from a striker
that is provided to the vehicle body. The door latch device 12 is fixed to the casing
14 on the rear side of the vehicle, and is supported by the casing 14 in this orientation.
Such a door latch device 12 includes a body 12a, a cover plate 12b, and a latch mechanism
12c. The latch mechanism 12c is provided to the body 12a, and covered by the cover
plate 12b. The cover plate 12b has an entry groove 12d, and is attached to the body
12a in such a manner that the entry groove 12d communicates with the latch mechanism
12c in an in-and-out direction of the vehicle. The entry groove 12d is a groove where
the striker on the vehicle enters when the door of the vehicle is closed.
[0018] FIG. 2 is a side view of the door lock device 10 seen from the inside of the cabin,
with the cover 16 and the waterproofing cover 20 removed, and FIG. 3 is a side view
of the door lock device 10 seen from the outside of the cabin, with the casing 14
and the waterproofing cover 20 removed. To avoid complexity, some of the elements
are omitted in FIGS. 2 and 3. As illustrated in FIGS. 2 and 3, the door lock device
10 includes, as electric parts, two motors 28a and 28b and three switches 30a, 30b,
and 30c inside the door lock device 10. Rotational axes 32a, 32b of the motors 28a,
28b are provided with worm gears 34a, 34b, and are engaged with wheel gears that are
not illustrated. It is preferable for the worm gears 34a, 34b to be slidable in the
axial direction for a purpose of ensuring the engagement with the wheel gears, and
these worm gears 34a, 34b are not fixed to the rotational axes 32a, 32b.
[0019] The motors 28a, 28b and the switches 30a, 30b, 30c are fixed to a plate 38. The plate
38 fixes together and electrically connects the electric parts of the door lock device
10 to the others. The plate 38 extends along the waterproofing cover 20, across the
top to the front surfaces in the door lock device 10, and is provided immediately
below the waterproofing cover 20. The switch 30a is held at a rear upper end of the
plate 38. A coupler pin 18a of the coupler 18 is held at a bottom front end, and the
switch 30c is held near the coupler pin 18a. The switch 30b is held substantially
at the center of the plate 38, and the motors 28a, 28b are held above and below the
switch 30b, respectively, with the switch 30b interposed therebetween. A bumper 48a
diagonally protruding toward the rear side is provided near the front bottom end of
the plate 38, and a bumper 48b diagonally protruding toward the front side is provided
near the rear upper end of the plate 38. The bumpers 48a, 48b have appropriate lengths
and flexibility. Ribs 49a, 49b are provided upright to the cover 16, at positions
facing the ends of the bumper 48a, 48b, respectively, and the bumper 48a, 48b are
pressed against the ribs 49a, 49b, while being slightly elastically deformed.
[0020] Pairs of right and left engaging claws 40a, 40b hold the motors 28a, 28b, respectively,
on the plate 38. The motors 28a, 28b are also aligned by front walls 42a, 42b and
rear walls 44a, 44b, respectively, (see FIG. 2) provided upright from the casing 14.
The rotational axes 32a, 32b are somewhat orientated diagonally downwards, but worm
gears 34a, 34b do not fall because these gears are surrounded by side walls 46a, 46b,
(see FIG. 2) provided upright on the casing 14. The side wall 46a and the front wall
42a are connected at their ends, and the side wall 46b and front wall 42b are connected
at their ends.
[0021] As illustrated in FIG. 2, the plate 38 is provided with terminals that serve as power
lines or signal lines to the electric components. The side of the plate 38 exposed
in FIG. 2 will be referred to as a rear side, and the opposite side will be referred
to as a front side. The terminals include signal line terminals 50a, 50b, 50c, 52
that are connected to the switches 30a, 30b, 30c, and power line terminal 54a, 54b,
56a, 56b that are connected to the motors 28a, 28b. Each end of those terminals is
provided with the coupler pin 18a. Each of these terminals is positioned and fixed
along a plate groove 38a that is provided on the plate 38. The signal line terminal
50a is a ground wire. The signal line terminals 50a, 50b, 50c, 52 and the power line
terminals 54a, 54b are fixed to the rear side of the plate 38. The power line terminals
56a, 56b are fixed to the front side of the plate 38. The signal line terminal 50a
intersects with the signal line terminal 52 in a non-contact fashion.
[0022] The signal line terminal 50b has a short length. The signal line terminals 50a, 50c
have long lengths, and extend in parallel at positions near to each other. The signal
line terminal 52 and the power line terminals 54a, 54c, 56a, 56b have somewhat long
lengths. The power line terminals 54a, 54c extend in parallel at positions adjacent
to each other.
[0023] At a stage prior to the assembly of the door lock device 10, the signal line terminal
50a and the signal line terminal 50b are connected to each other via a link 58a. Similarly,
the signal line terminal 50a and the signal line terminal 50c are connected to each
other via links 58b, 58c, 58d. In this way, the signal line terminals 50a to 50c are
integrated as a terminal body 50. The power line terminal 54a and the power line terminal
54b are connected to each other via links 58e, 58f, and are integrated as a terminal
body 54. The power line terminal 56a and the power line terminal 56b are connected
to each other via links 58g, 58h, and are integrated as a terminal body 56. The signal
line terminal 52 is provided as a single body. To make it possible to have certain
lengths of the links 58a to 58h, a curved portion 60 is provided, which projects in
a direction moving away from one of the terminals toward the other. The curved portion
60 may be provided to either one of the terminals extending in parallel, and as an
example, the curved portions 60 of the links 58b, 58c are provided to the signal line
terminal 50c, and the curved portion 60 of the link 58d is provided to the signal
line terminal 50a. By forming the curved portion 60 where the distance between the
terminals is short, not only the appropriate lengths of the links 58b, 58c, 58d, 58f,
58g can be ensured, so that these links to be easily cut off, but also pins 64, which
will be described later, can be inserted easily, so that higher insulation can be
ensured.
[0024] Holes 62a, 62b, 62c, 62d, 62e, 62f, 62g, 62h are provided, in the order listed herein,
to the plate 38, at the position facing the links 58a, 58b, 58c, 58d, 58e, 58f, 58g,
58h, respectively.
[0025] To each of the links 58a to 58h, one cutout 61 is provided (see FIG. 6A). For explanation
purposes, hereinafter, the link 58a to 58h may be collectively referred to as a link
58, and the holes 62a to 62h may be collectively referred to as a hole 62. Furthermore,
among the two terminals extending in parallel, the terminal further away from the
cutout 61 may be referred to as a first terminal 63a, and the terminal on the side
provided with the cutout 61 may be referred to as a second terminal 63b. In the door
lock device 10, the curved portion 60 is basically formed on the side of the first
terminal 63a, but may alternatively be formed on the side of the second terminal 63b.
[0026] The cutout 61 may be provided either on the front side or on the rear side of the
link 58, or may be provided to both of the surface positions facing each other. Otherwise,
the cutout 61 may be provided as a neck portion with a smaller width. Each of these
examples of the cutout 61 can substantially be considered as a single cutout. In the
link 58 where the curved portion 60 is formed, the cutout 61 is provided, in a manner
crossing the link 58, on the side which is further away from the curved portion 60.
That is, the cutout 61 is formed at the end on the side where the link 58 is connected
to the second terminal 63b. The hole 62 (see FIG. 6A) is provided immediately below
the link 58 in a manner covering almost the entire length of the link 58. An edge
of the hole 62 on the side of the first terminal 63a extends along a line that is
perpendicular to the direction in which the link 58 extends, and has a beveled portion
68a. A hole wall 68b extending from the beveled portion 68a in a depth direction is
a plane that is perpendicular to the front surface of the plate 38. As will be described
later, the link 58 will be cut and bent at the cutout 61, in the assembling process,
and each of the terminals comes to serve as independent conductive body that is insulated
from the other. In other words, the cutout 61 may be considered as a vulnerable portion
that is to be cut across easily.
[0027] As illustrated in FIGS. 2 and 5, the casing 14 is provided with pins 64a, 64b, 64c,
64d, 64e, 64f, 64g, 64h. Some of these pins have their base portions reinforced with
ribs 65. The pins 64a to 64h may be collectively referred to as a pin 64. The pin
64 is provided at a position and with a height to be inserted into the hole 62. The
pin 64 has a columnar shape, and its tip has a spindle-like shape to facilitate insertion
into the hole 62. The pin 64 has a moderate level of strength that is enough to not
deform or not to break off even when a bent piece 66 is brought into contact therewith.
[0028] The assembling process of the plate 38 and electric components in the door lock device
10 will now be explained.
[0029] To being with, the plate 38 is placed with the rear side thereof facing upwards (see
FIG. 4), and the terminal bodies 50, 54 and the signal line terminal 52 are inserted
into the corresponding plate grooves 38a, from the rear side of (above) the plate
38. The terminal bodies 50, 54 and the signal line terminal 52 are fitted in the plate
grooves 38a, and stabilize with appropriate frictions. The terminal body 56 is then
inserted into the plate groove 38a from the front side of (below) the plate 38. Because
the terminal body 56 is fitted in the plate groove 38a and subjected to appropriate
friction, the terminal body 56 does not fall unless an excessive force or vibration
is applied thereto. Because, at this point in time, a worker only needs to attach
only four parts, including the terminal bodies 50, 54, 56 and the signal line terminal
52, to the plate 38, excellent workability is achieved. Furthermore, the terminal
bodies 50, 54, 56 are not excessively small and can be handled easily, and the positions
at which these terminals are to be attached can be easily found. For example, the
signal line terminal 50a and 50c have similar shapes, but because these terminals
are integrated as the terminal body 50, these terminals are not easily inserted to
wrong places.
[0030] As illustrated in FIGS. 4 and 6A, the links 58a to 58f are positioned immediately
above the holes 62. The links 58g, 58h of the terminal body 56 are, by contrast, positioned
immediately below the holes 62.
[0031] Each of the links 58a to 58f is then pressed down with a pressing tool, from the
rear side of the plate 38 toward the front side, and are caused to cut off at the
cutout 61, to bend into the hole 62, as illustrated in FIG. 6B, and forms a bent piece
66. In this manner, the first terminal 63a and the second terminal 63b are separated
from each other, and thus insulated from each other. The bent piece 66 is bent along
the beveled portion 68a toward a proper direction at a proper curvature, and a part
of the bent piece 66 is brought into abutment with the hole wall 68b with an appropriate
friction or pressing force to be stabilized. In this manner, the terminals are fixed
to the plate 38 appropriately and firmly. The inner edges of the bent piece 66 and
of the curved portion 60 are kept at an appropriate distance from the cut off portion
of the cutout 61 on the second terminal 63b. In the same manner, the links 58g, 58h
are pressed down with a pressing tool, from the rear side toward the front side, and
form bent pieces 66, but the bent pieces 66 formed with the links 58g, 58h stand upright
in the opposite direction, without being inserted into the holes 62 (see FIG. 9).
[0032] After attaching the motors 28a, 28b to the plate 38, as will be described later,
the plate 38 is mounted on the casing 14 (see FIG. 2). The plate 38 is oriented in
such a manner that the rear side thereof faces the inner surface of the casing 14.
[0033] As illustrated in FIGS. 7 and 8, the pins 64 enter into the corresponding holes 62,
and becomes interposed between the bent piece 66, which is protruding from the first
terminal 63a, and the second terminal 63b. With such a structure, the presence of
the curved portion 60 ensures an appropriate length of the link 58, the bent piece
66 is bent at substantially 90 degrees, and the distance between the bent piece 66
and the second terminal 63b is sufficiently long. Furthermore, because the pin 64,
which is insulating, is interposed between the bent piece 66 and the second terminal
63b, the bent piece 66 and the second terminal 63b are highly insulated from each
other. Therefore, even if this part gets wet, non-conduction is ensured. Furthermore,
because the cutout 61 is not positioned at the root of the bent piece 66, and the
beveled portion 68a ensures that the bent piece 66 is bent at an appropriate curvature,
the bent piece 66 is mechanically strong, and highly vibration-resistant. Even if
the bent piece 66 is vibrated, the presence of the pin 64 prevents the bent piece
66 from being brought into contact with the second terminal 63b. Therefore, the door
lock device 10 having such a structure is particularly suited for applications for
vehicles.
[0034] It is also possible to increase the height of the hole wall 68b by providing a support
70 to an open edge of the hole 62f, as illustrated in FIG. 7, so that the bent piece
66 is supported thereby. By providing a T-shape to the support 70, some displacements
of the bent piece 66 can be permitted, and the strong force applied at the time of
bending can be supported.
[0035] As illustrated in FIG. 9, because the power line terminals 56a, 56b are positioned
in the front side of the plate 38, the link 58h is bent upwards in FIG. 9 at the position
of the hole 62h, and the resultant bent piece 66 is not inserted in the hole 62h.
However, still in this case as well, the insertion of the pin 64h in the hole 62h
has an effect of ensuring insulation.
[0036] Furthermore, it is also possible to achieve two bent pieces 66 by cutting the link
58g in the middle, as illustrated at the position of the hole 62g of FIG. 9. In this
case as well, the insertion of the pin 64g in the hole 62g has an effect of ensuring
insulation.
[0037] A process of assembling the plate 38 onto the casing 14 will now be explained.
[0038] As illustrated in FIG. 10, before assembling the plate 38 to the casing 14, the motors
28a, 28b are attached to the plate 38. To attach, to begin with, the motor 28a is
set in such an orientation that the rotational axis 32a points somewhat diagonally
upwards, and the worm gear 34a is fitted to the rotational axis 32a. Because the rotational
axis 32a is somewhat diagonally upward, the worm gear 34a does not fall off. The motor
28a in this orientation is then placed at a predetermined position of the plate 38,
and engaged and held by using the engaging claws 40a. The plate 38 is kept somewhat
inclined in a manner aligned with the orientation of the motor 28a. The same process
is performed on the motor 28b and the worm gear 34b, but FIG. 10 illustrates the motor
28b as having already been attached to the plate 38.
[0039] Next, while the casing 14 is kept somewhat inclined in a manner aligned with the
orientation of the plate 38 and the motors 28a, 28b, the plate 38, on which the motors
28a, 28b are mounted, is mounted on a predetermined position of the casing 14. As
a result, the worm gear 34a becomes surrounded by the side wall 46a, and the worm
gear 34b becomes surrounded by the side wall 46b, and therefore, these worm gears
34a and 34b do not fall off from the rotational axes 32a, 32b. The casing 14 is then
horizontally placed, as illustrated in FIG. 11, and other parts are assembled thereto,
and the cover 16, the waterproofing cover 20, and the waterproofing seals 22, 24 are
then attached.
[0040] Once the cover 16 is attached, the end of the bumper 48a protruding from the plate
38 is brought into abutment with the rib 49a on the cover 16, by deforming elastically,
as illustrated in FIG. 12. In this manner, instability of the plate 38 is prevented,
and the plate 38 is stabilized. The abutment of the bumper 48b with the rib 49b (see
FIG. 3) has the same effect.
[0041] The present invention is not limited to the embodiment described above, and it is
needless to say that the embodiment can be modified in any way within the scope of
the present invention as defined by the claims.