Integrated ignition coil device

Inductor devices – With outer casing or housing – Potted type

Reexamination Certificate

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Details

C336S192000, C336S090000, C336S092000

Reexamination Certificate

active

06377154

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to an integrated ignition coil device in which plural ignition coil modules each consisting of a primary coil, a secondary coil, and a core are integrated into one case in order to supply a high voltage to ignition coils respectively disposed in cylinders of a multi-cylinder internal combustion engine.
FIG. 6A
is a partially sectional view showing a conventional integrated ignition coil.
FIG. 6B
is a view showing a state where ignition coil modules are housed in a case and flat terminals are arranged, and
FIG. 6C
is a view showing a state where the flat terminals are arranged on a cover.
FIG. 7
is an enlarged view showing the wiring state in the integrated ignition coil using the flat terminals. In the conventional integrated ignition coil device, each of ignition coil modules
10
a
,
10
b
, and
10
c
is configured by: a primary coil
17
in which a primary copper wire is wound; a secondary coil
19
in which a secondary copper wire is wound; and a core
24
which is made of a ferromagnetic material such as silicon steel plates or the like. The ignition coil modules are housed in a slender case
11
which has a small width and a large length. In order to receive an ignition signal for the ignition coil modules, a primary voltage input portion
15
is attached to the case
11
, and a primary voltage input terminal
16
for inputting the primary current is attached to the interior of the primary voltage input portion
15
.
Wirings between the primary voltage input terminal
16
of the primary voltage input portion
15
and a primary coil terminal
18
of each primary coil
17
, and between a secondary coil terminal
20
of each secondary coil
19
and each of secondary high voltage terminals
21
are configured by flat terminals
22
(formed by brass plates or the like) which are shaped by using press molds.
The integrated ignition coil has a slender shape which is small in width and large in length. Therefore, the wirings between the primary voltage input terminal
16
of the primary voltage input portion
15
and the primary coil terminal
18
of each primary coil
17
, and between the secondary coil terminal
20
of each secondary coil
19
and each of the secondary high voltage terminals
21
are as long as 30 cm at the maximum. The wires are connected to respective connecting portions by soldering. The case is closed by a cover
12
and then insulatingly sealed by an epoxy resin or the like. The cover is provided with high voltage towers
23
respectively having the secondary high voltage terminals
21
in order to supply a high voltage to ignition plugs which are not shown.
The primary voltage is applied to the primary voltage input portion
15
which is attached to the ignition coil case
11
to cause the primary coils
17
to generate magnetic fluxes. The core
24
enables the magnetic fluxes to easily pass therethrough. The primary voltage is interrupted in accordance with the ignition timing to generate a high voltage in the corresponding secondary coil
19
. The high voltage generated in the secondary coil
19
is supplied to the corresponding ignition plug (not shown) via the secondary high voltage terminal
21
in the corresponding high voltage tower
23
of the cover
12
.
In the above-described conventional device, the coupling in the connecting portions of the metal flat terminals and the ignition coil modules is performed by soldering. In a severe environment such as that to which components of an automobile engine are exposed, therefore, deterioration due to thermal stresses for years may cause the soldered portions to be peeled off, or cracks to be produced in edge portions of solders insulatingly sealed by an epoxy resin. This raises a problem in that a trouble which results in disconnection of a wire, or dielectric breakdown may be produced.
The flat terminals
22
through which the metallic terminals are electrically connected to each other are as long as 30 cm at the maximum. Therefore, the production of molds for performing the press molding is expensive, whereby the production cost of the terminals is increased.
SUMMARY OF THE INVENTION
In view of the problems discussed above, it is an object of the invention to provide an integrated ignition coil device in which a trouble due to deterioration with time in metallic terminals and connecting portions of ignition coil modules is eliminated, and terminals can be electrically connected to each other by an economical method.
In order to solve the problems, the provides an integrated ignition coil device comprising: plural ignition coil modules each consisting of a primary coil, a secondary coil, and a core, said ignition coil modules being housed in a case; a primary voltage input portion; and secondary high voltage terminals for respectively supplying a high voltage to ignition coils, wherein wirings to connecting portions of a primary voltage input terminal of said primary voltage input portion, primary coil terminals of said primary coils, secondary coil terminals of said secondary coils, and said secondary high voltage terminals are configured by using a plated copper wire, each of connecting portions is formed into an angular pin-like shape having plural edges in a section, and said plated copper wire is wrap-connected to said angular pin-like connecting portion of each of said terminals so that said plated copper wire is tightly wound at several turns around the connecting portion so as to bite into the edges of the angular pin-like shape.
Preferably, the connecting portions of the primary voltage input terminal, the primary coil terminals, the secondary coil terminals, and the secondary high voltage terminals which portions are formed into an angular pin-like shape may be placed in a state where the connecting portions vertical upstand from the bottom face of the case. According to this configuration, a step of performing wrapping connection can be easily performed on the terminals of an angular pin-like shape.
Also in an integrated ignition coil device in which secondary high voltage terminals for respectively supplying a high voltage to ignition coils are disposed on a cover, the connecting portions of the secondary high voltage terminals and having an angular pin-like shape may be aligned with an axis of winding the plated copper wire so that a step of performing wrapping wiring on the terminals of an angular pin-like shape can be easily performed.
When the above-described means is employed, in the connecting portions of the primary voltage input terminal, the primary coil terminals of the ignition coil modules, and the like, connection can be realized without performing soldering. The plated copper wire is wound at several turns around the connecting portion of each of the terminals and having an angular pin-like shape, by means of wrapping connection, so as to bite into the edges, whereby the terminals having an angular pin-like shape are connected to the plated copper wire. The reliability of the connecting portions is not lowered even by thermal stresses for years. Since wiring terminals for electrically connecting metallic terminals are not used, no molds are required.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1
is a partially sectional front view showing an embodiment to which the technique of the invention is applied.
FIG. 2
is a partially sectional view showing the embodiment to which the technique of the invention is applied, as seeing from the point A in FIG.
1
.
FIG. 3
is a partially sectional view showing the embodiment to which the technique of the invention is applied, as seeing from the point B in FIG.
1
.
FIG. 4
is an enlarged view of the portion C of FIG.
3
and showing the embodiment to which the technique of the invention is applied.
FIG. 5
is a view showing wrapping connection in the embodiment to which the technique of the invention is applied.
FIGS. 6A
to
6
C are partially sectional views showing a conventional integrated ignition coil.
FIG. 7
is an enlarged view showing a state where wiring is performed

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