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BACKGROUND OF THE INVENTION
The present invention relates to a bus bar construction of an electrical
connection box, in which bus bars are inserted into connectors of wiring
harnesses for a motor vehicle so as to be connected thereto for branch
connection.
In an electrical connection box such as a branch joint box used for
connecting wiring harnesses for a motor vehicle to various electrical
devices through branching, a branch connection point is concentrated at
one spot so as to perform branch connection of wiring reasonably and
economically. In response to recent rise of wiring density of the wiring
harnesses, various electrical connection boxes are developed in accordance
with models of motor vehicles and use applications.
Bus bars forming a circuit pattern according to models of motor vehicles
and use applications are accommodated in a casing of the branch joint box
and have tabs acting as male terminals inserted into female connectors of
the wiring harnesses so as to be connected to the female connectors.
In the conventional electrical connection box, the bus bars are disposed
horizontally or vertically and portions of each bus bar are bent from a
linear body of each bus bar in accordance with circuit pattern so as to
impart function of branch connection to the bent portions.
However, in the known electrical connection box, since circuits conforming
to requirements of wiring harnesses, respectively are formulated, lengths
of the linear bodies of the bus bars and locations of bending for the bent
portions of the bus bars vary according to the circuits. Therefore, the
number of kinds of the bus bars increases, so that a number of dies for
molding the bus bars are required to be prepared, thus resulting in rise
of cost of the molding dies. Furthermore, since the bus bars are manually
mounted on the casing of the electrical connection box one by one,
operation of mounting the bus bars on the casing has many drawbacks such
as high cost and low efficiency.
SUMMARY OF THE INVENTION
Accordingly, an essential object of the present invention is to provide a
bus bar construction of an electrical connection box, which can be
produced at low cost and has a wide range of applications.
In order to accomplish this object of the present invention, a bus bar
construction of an electrical connection box, according to a first
embodiment of the present invention comprises: a plurality of m and n
(m=integer.gtoreq.2, n=integer .gtoreq.2) bus bar pieces in each of which
a predetermined number of substantially H-shaped bus bars are arranged in
series at a preset pitch and intermediate portions of neighboring ones of
the bus bars are linked with each other; the bus bars each having an upper
portion formed with a first slot and a lower portion formed with a second
slot; the m bus bar pieces being arranged longitudinally in m columns; the
n bus bar pieces being arranged laterally in n rows on the m bus bar
pieces so as to fit the second slots of the n bus bar pieces into the
first slots of the m bus bar pieces from above such that the m and n bus
bar pieces are assembled with each other in latticed shape; the
intermediate portions of each of the n bus bar pieces being cut off in
accordance with a necessary circuit pattern such that the m and n bus bar
pieces are press fitted into a casing of the electrical connection box.
Meanwhile, a bus bar construction of an electrical connection box,
according to a second embodiment of the present invention comprises: a
plurality of m (m=integer.gtoreq.2) bus bar pieces in each of which a
predetermined number of bus bars are arranged in series at a preset pitch;
the bus bars each having an upper portion formed with a first slot and a
lower portion formed with a second slot; a plurality of n
(n=integer.gtoreq.2) terminal pieces in each of which a predetermined
number of substantially A-shaped terminals are arranged in series at a
preset pitch and intermediate portions of neighboring ones of the
terminals are linked with each other; the terminals each including an
upper portion having a terminal and a lower portion formed with a slot;
the m bus bar pieces being arranged longitudinally in m columns; the n
terminal pieces being arranged laterally in n rows on the m bus bar pieces
so as to fit the slots of the n terminal pieces into the first slots of
the m bus bar pieces from above such that the m bus bar pieces and the n
terminal pieces are assembled with each other in latticed shape; the
intermediate portions of each of the n terminal pieces being cut off in
accordance with a necessary circuit pattern such that the m bus bar pieces
and the n terminal pieces are press fitted into a casing of the electrical
connection box.
In accordance with the present invention, a number of the bus bars are
continuously formed by a press and are cut to a plurality of the m and n
(m=integer.gtoreq.2, n=integer.gtoreq.2) bus bar pieces at an interval of
a predetermined number of the bus bars. Then, the m bus bar pieces are
arranged longitudinally in the m columns, while the n bus bar pieces are
arranged laterally in the n rows on the m bus bar pieces so as to fit the
slots of the n bus bar pieces into the slots of the m bus bar pieces from
above such that the m and n bus bar pieces are assembled with each other
in latticed shape. Subsequently, the intermediate portions of each of the
n bus bar pieces are cut off in accordance with the circuit pattern and
finally, the assembled m and n bus bar pieces are press fitted into the
casing of the electrical connection box.
Meanwhile, a number of the bus bars are continuously formed by a press and
are cut to a plurality of the m (m=integer.gtoreq.2) bus bar pieces at an
interval of a predetermined number of the bus bars. Furthermore, a number
of the terminals are continuously formed by a press and are cut to a
plurality of the n (n=integer.gtoreq.2) terminal pieces at an interval of
a predetermined number of the terminals. Then, the m bus bar pieces are
arranged longitudinally in the m columns and the n terminal pieces are
arranged laterally in the n rows on the m bus bar pieces so as to fit the
slots of the n terminal pieces into the slots of the m bus bar pieces from
above such that the m bus bar pieces and the n terminal pieces are
assembled with each other in latticed shape. Thereafter, the intermediate
portions of each of the n terminal pieces are cut off in accordance with a
circuit pattern and finally, the assembled m bus bar pieces and n terminal
pieces are press fitted into the casing of the electrical connection box.
Accordingly, in the present invention, length of the bus bar pieces or the
terminal pieces to be produced may be restricted to only one kind, thereby
resulting in reduction of kinds of their length. Meanwhile, since hitherto
required bending operation becomes unnecessary, cost of molding dies can
be reduced. Furthermore, since the assembled bus bar pieces or the
assembled bus bar pieces and terminal pieces can be press fitted into the
casing of the electrical connection box at one stroke, assembly cost is
lowered. Furthermore, since the upper and lower bus bar pieces or the
terminal pieces and the bus bar pieces are fitted into each other
vertically, a female connector of a wiring harness can be connected to the
casing from above and below the casing. In addition, since latticed wiring
can be performed easily by the upper and lower bus bar pieces or the
terminal pieces and the bus bar pieces, circuit changes are facilitated,
thereby resulting in improvement of versatility.
BRIEF DESCRIPTION OF THE DRAWINGS
This object and features of the present invention will become apparent from
the following description taken in conjunction with the preferred
embodiments thereof with reference to the accompanying drawings, in which:
FIG. 1 is an exploded perspective view of a bus bar construction of an
electrical connection box, according to a first embodiment of the present
invention;
FIG. 2 is a fragmentary perspective view showing latticed assembly of
orthogonally intersecting bus bar pieces employed in the bus bar
construction of FIG. 1;
FIG. 3 is a sectional view showing a state in which a bus bar of the bus
bar piece of FIG. 2 is inserted into a female connector of a wiring
harness;
FIG. 4 is a front elevational view of the bus bar piece of FIG. 2;
FIG. 5 is an exploded perspective view of a bus bar construction of an
electrical connection box, according to a second embodiment of the present
invention;
FIG. 6 is a front elevational view of a terminal piece employed in the bus
bar construction of FIG. 5; and
FIG. 7 is a front elevational view of a bus bar piece employed in the bus
bar construction of FIG. 5.
Before the description of the present invention proceeds, it is to be noted
that like parts are designated by like reference numerals throughout
several views of the accompanying drawings.
DETAILED DESCRIPTION OF THE INVENTION
Referring now to the drawings, there is shown in FIGS. 1 to 4, a bus bar
construction of an electrical connection box, according to a first
embodiment of the present invention. As shown in FIG. 1, the electrical
connection box includes a casing 3. As shown in FIG. 4, each of bus bars 1
has a substantially H-shaped configuration and includes an upper portion
1a formed with a slot 1c and a lower portion 1b formed with a slot 1d. By
blanking a narrow metal strip continuously at a predetermined pitch P by a
press such that intermediate portions 1e of neighboring ones of the bus
bars 1 are linked with each other, a number of the bus bars 1 are
obtained. These bus bars 1 are wound into a reel during blanking.
Then, predetermined numbers of the bus bars 1 are cut off at the
intermediate portions 1e such that bus bar pieces 1A, 1B, 1C and 1D are
obtained. For example, if the bus bars 1 are cut off along cutting lines a
and g, the bus bar piece 1A having six bus bars 1 is obtained. When the
bus bars 1 are cut off along cutting lines a and d, the bus bar piece 1B
having three bus bars 1 is obtained. Meanwhile, in case the bus bars 1 are
cut off along cutting lines a and c, the bus bar piece 1C having two bus
bars 1 is obtained. Furthermore, if the bus bars 1 are cut off along
cutting lines a and b, the bus bar piece 1D having one bus bar 1 is
obtained. As shown in FIG. 3, each of the upper and lower portions 1a and
1b of each bus bar 1 of each of the bus bar pieces 1A-1D is a tab acting
as a male terminal and is inserted into a female connector 2 of a wiring
harness so as to be connected thereto.
As shown in FIG. 1, five bus bar pieces 1A each having six bus bars 1 are
longitudinally arranged in five columns. Then, three bus bar pieces 1A
are, respectively, laterally arranged at the first, third and sixth rows
of the bus bars 1 of the longitudinal bus bar pieces 1A. As described
below, FIG. 1 shows a state after cutting of the lateral bus bar pieces
1A, in which the lateral bus bar piece 1A at the third row of the bus bars
1 of the longitudinal bus bar pieces 1A is replaced by the two lateral bus
bar pieces 1C, while the lateral bus bar piece 1A at the sixth row of the
bus bars 1 of the longitudinal bus bar pieces 1A is replaced by the
lateral bus bar pieces 1B and 1D.
Subsequently, at each of the first, third and sixth rows of the bus bars 1
of the five longitudinal bus bar pieces 1A, the slot 1d of the lower
portion 1b of each bus bar 1 of the three lateral bus bar pieces 1A is
fitted into the slot 1c of the upper portion 1a of each bus bar of the
longitudinal bus bar pieces 1A in crossed shape from above. Thus, the
upper lateral bus bar pieces 1A and the lower longitudinal bus bar pieces
1A are assembled with each other in latticed shape as shown in FIG. 2.
Thereafter, the intermediate portions 1e of the upper lateral bus bar
pieces 1A are cut off at one stroke by a press in accordance with a
necessary circuit pattern. In the example of FIG. 1, the intermediate
portions 1e between the second and third bus bars 1 and between the fourth
and fifth bus bars 1 from left in the upper lateral bus bar piece 1A
disposed at the third row of the bus bars 1 of the longitudinal bus bar
pieces 1A are cut off and thus, the two bus bar pieces 1C each having two
bus bars 1 are obtained. Meanwhile, the intermediate portions 1e between
the third and fourth bus bars 1 and between the fifth and sixth bus bars 1
from left in the upper lateral bus bar piece 1A disposed at the sixth row
of the bus bars 1 of the longitudinal bus bar pieces 1A are cut off, so
that the bus bar pieces 1B and 1D having three bus bars 1 and one bus bar
1, respectively are obtained.
Finally, the lower portions 1b of the lower longitudinal bus bar pieces 1A
with which the upper lateral bus bar pieces 1A-1D are assembled are press
fitted into hollows 3a of the casing 3 of the electrical connection box at
one stroke.
Consequently, in the first embodiment, since it is merely necessary to
produce only one kind of the bus bar pieces 1A having six bus bars 1,
kinds of the necessary bus bar pieces to be prepared is reduced greatly.
Meanwhile, the need for bending operation required in conventional bus
bars is eliminated. Furthermore, since the lower longitudinal bus bar
pieces 1A can be press fitted into the casing 3 of the electrical
connection box together with the upper lateral bus bar pieces 1A at one
stroke, assembly cost is lowered.
Meanwhile, since the upper lateral bus bar pieces 1A and the lower
longitudinal bus bar pieces 1A are assembled with each other vertically in
the casing 3, the female connector 2 of the wiring harness can be
connected to the upper and lower bus bar pieces 1A from above and below
the casing 3. Furthermore, since latticed wiring can be easily performed
by the upper and lower bus bar pieces 1A, circuit can be easily changed by
merely changing positions for cutting off the intermediate portions 1e,
thereby resulting in remarkable improvement of versatility.
FIGS. 5 to 7 show a bus bar construction of an electrical connection box,
according to a second embodiment of the present invention. As shown in
FIG. 7, each of bus bars 5 has a substantially H-shaped configuration and
includes an upper portion 5a formed with a slot 5c and a lower portion 5b
formed with a slot 5d. By blanking a narrow metal strip continuously at a
predetermined pitch by a press such that intermediate portions 5e of
neighboring ones of the bus bars 5 are linked with each other, a number of
the bus bars 5 are obtained. These bus bars 5 are wound into a reel during
blanking.
Meanwhile, as shown in FIG. 6, each of terminals 6 has a substantially
A-shaped configuration and includes an upper portion 6a having a terminal
portion 6c and a lower portion 6b formed with a slot 6d. By blanking a
narrow metal strip continuously at a predetermined pitch by a press such
that intermediate portions 6e of neighboring ones of the terminals 6 are
linked with each other, a number of the terminals 6 are obtained. These
terminals 6 are wound into a reel during blanking.
When a series of these bus bars 5 are cut off at the intermediate portions
5e at an interval of a predetermined number of the bus bars 5, a bus bar
piece 5A is obtained. For example, when the bus bars 5 are cut off along
cutting lines a and g in FIG. 7, the bus bar piece 5A has six bus bars 5.
Meanwhile, when a series of the terminals 6 are cut off at the
intermediate portions 6e at an interval of predetermined numbers of the
terminals 6, terminal pieces 6A to 6D are obtained. For example, if the
terminals 6 are cut off along cutting lines a and g in FIG. 6, the
terminal piece 6A having six terminals 6 are obtained. When the terminals
6 are cut off along cutting lines a and d, the terminal piece 6B having
three terminals 6 is obtained. Meanwhile, in case the terminals 6 are cut
off along cutting lines a and c, the terminal piece 6C having two
terminals 6 is obtained. Furthermore, if the terminals 6 are cut off along
cutting lines a and b, the terminal piece 6D having one terminal 6 is
obtained. In the same manner as the first embodiment, the terminal portion
6c disposed at the upper portion 6a of each of the terminal pieces 6A to
6D is a tab acting as a male terminal and is inserted into the female
connector 2 of the wiring harness so as to be connected thereto.
After five bus bar pieces 5A each having six bus bars 5 have been arranged
longitudinally in five columns as shown in FIG. 5, three terminal pieces
6A each having six terminals 6 are, respectively, are laterally arranged
at the first, third and sixth rows of the bus bars 5 of the longitudinal
bus bar pieces 5A. In FIG. 5, the terminal pieces 6B to 6D each obtained
by cutting off the terminals 6 of the terminal piece 6A are shown at the
third and sixth rows of the bus bars 5 of the longitudinal bus bar pieces
5A.
Subsequently, at each of the first, third and sixth rows of the bus bars 5
of the five longitudinal bus bar pieces 5A, the slot 6d of the lower
portion 6b of each terminal 6 of the three lateral terminal pieces 6A is
fitted into the slot 5c of the upper portion 5a of each bus bar 5 of the
longitudinal bus bar pieces 5A in crossed shape from above. Thus, in the
same manner as the first embodiment, the upper lateral terminal pieces 6A
and the lower longitudinal bus bar pieces 5A are assembled with each other
in latticed shape.
Thereafter, the intermediate portions 6e of the upper lateral terminal
pieces 6A are cut off at one stroke by a press in accordance with a
necessary circuit pattern. In the example of FIG. 5, the intermediate
portions 6e between the second and third terminals 6 and between the
fourth and fifth terminals 6 from left in the upper lateral terminal piece
6A disposed at the third row of the bus bars 5 of the longitudinal bus bar
pieces 5A are cut off and thus, the two terminal pieces 6C each having two
terminals 6 are obtained. Meanwhile, the intermediate portions 6e between
the third and fourth terminals 6 and between the fifth and sixth terminals
6 from left in the upper lateral terminal piece 6A disposed at the sixth
row of the bus bars 5 of the longitudinal bus bar pieces 5A are cut off,
so that the terminal pieces 6B and 6D having three terminals 6 and one
terminal 6, respectively are obtained.
Finally, the lower portions 5b of the lower longitudinal bus bar pieces 5A
with which the upper lateral terminal pieces 6A-6D are assembled are press
fitted into the hollows 3a of the casing 3 of the electrical connection
box at one stroke.
As is clear from the foregoing description of the bus bar construction of
the electrical connection box, according to the present invention, the bus
bars or the terminals are formed continuously as a continuous strip by
using a press so as to produce the bus bar piece or the terminal piece by
cutting off the continuous strip at an interval of a predetermined number
of the bus bars or the terminals. Then, a plurality of the bus bar pieces
or the terminal pieces are arranged longitudinally in a plurality of
columns and laterally in a plurality of rows. Thus, the slots of the
longitudinal and lateral bus bar pieces or terminal pieces are vertically
fitted into each other such that the longitudinal and lateral bus bar
pieces or terminal pieces are assembled with each other in latticed shape.
Subsequently, after the intermediate portions of the upper bus bar pieces
or terminal pieces have been cut off at one stroke so as to form a
necessary circuit pattern, the assembled bus bar pieces or terminal pieces
are press fitted into the casing of the electrical connection box.
In accordance with the present invention, since the bus bar pieces or the
terminal pieces, which have only one kind of length, may be produced,
kinds of the bus bars or the terminal pieces is reduced. Meanwhile, since
hitherto required bending operation becomes unnecessary, cost of molding
dies is lowered. Furthermore, since the assembly of the bus bar pieces
with the bus bar pieces or terminal pieces can be press fitted into the
casing of the electrical connection box at one stroke, assembly cost is
lessened. In addition, since the bus bar pieces are fitted into the bus
bar pieces or the terminal pieces vertically, the female connector of the
wiring harness can be connected to the casing of the electrical connection
box from above and below the casing. Moreover, since latticed wiring can
be easily performed by the assembly of the bus bar pieces with the bus bar
pieces or the terminal pieces, the circuit can be changed easily, thereby
resulting in improvement of versatility.
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