Electricity: motive power systems – Motor structure adjustment or control
Reexamination Certificate
2000-11-13
2002-09-24
Ro, Bentsu (Department: 2837)
Electricity: motive power systems
Motor structure adjustment or control
C318S722000, C318S801000, C318S139000, C363S132000
Reexamination Certificate
active
06456029
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a controller for controlling a motor provided for a vehicle.
2. Description of the Related Art
Electric vehicles such as an electric drive type forklift have a running mechanism section and a lifting mechanism section. The running mechanism section is mainly composed of a running motor, an accelerating mechanism section and a braking mechanism section, which are used for the running of the vehicle. The lifting mechanism section is mainly composed of a lifting motor, an operation lever, and a hydraulic pressure mechanism section, which are used for the lifting operation by the forklift.
The running motor and the working motor are controlled by a controller in which electric circuits are collectively arranged. The controller is composed of a running motor chopper used for the control of the running motor and a lifting motor chopper used for the control of the lifting motor. The chopper is a switching unit to carry out a switching operation. The switching unit is composed of an IGBT (Insulated Gate Bipolar Transistor) device and a diode unit.
FIG. 1
is a plan view of a conventional controller. Referring to
FIG. 1
, the controller
1
is composed of a control unit
2
, a capacitor unit
3
, a wiring line group
4
of a first bus bar or a first wiring line
4
a
and a second bus bar or a second wiring line
4
b
, a first terminal group
5
and a second terminal group
6
.
In
FIG. 1
, the control unit
2
is arranged in an upper right section. The capacitor unit
3
is arranged in the left side of the control unit
2
. The first bus bar
4
a
and the second bus bar
4
b
are arranged along the capacitor unit
3
. The first terminal group
5
is arranged under the capacitor unit
3
in the figure. The second terminal group
6
is arranged on the right side of the first terminal group
5
.
FIG. 2
shows a side view of the conventional controller, when the controller
1
is viewed from the direction of A of FIG.
1
. The capacitor unit
3
is arranged along the first bus bar
4
a
and the second bus bar
4
b
on a substrate
10
as shown in FIG.
1
. The control unit
2
is arranged on the substrate
10
. Also, the first terminal group
5
and the second terminal group
6
are arranged on the substrate
10
.
FIG. 3
shows a front view of the conventional controller, when the controller is viewed from the direction of B in FIG.
1
. Referring to
FIG. 3
, the control unit
2
is provided onto the substrate
10
. The capacitor unit
3
is provided above the substrate
10
through the first bus bar
4
a
and the second bus bar
4
b.
The first terminal group
5
and the second terminal group
6
are provided on the substrate
10
.
The first terminal group
5
is composed of five terminals. The second terminal group
6
is composed of five terminals. The capacitor unit
3
is composed of six capacitors.
FIG. 4
shows another plan view of conventional controller, when the controller
2
and the capacitor unit
3
are removed from the state shown in FIG.
1
. Referring to
FIG. 4
, on the substrate
10
are arranged the first bus bar
4
a
, the second bus bar
4
b
, the first to fourth terminals
5
a
to
5
d
, the fifth to ninth terminals
6
a
to
6
e
, the first to third IGBT devices
7
a
to
7
c
, the first to third diodes
8
a
to
8
c
, and the first to fourth terminal receiving planes
9
a
to
9
d.
The first to third IGBT devices
7
a
to
7
c
are provided on the substrate
10
. Also, the first to third diodes
8
a
to
8
c
are provided on the substrate
10
. The first bus bar
4
a
is connected to one end of each of the first to third diodes
8
a
to
8
c
. The first to third IGBT devices
7
a
to
7
c
are connected with the second bus bar
4
b
at one end. The second bus bar
4
b
is connected with the fourth terminal
5
d
. The fourth terminal
5
d
is connected with a negative terminal of a battery (not shown). The other terminal of the first diode
8
a
is connected with the other terminal of the first IGBT device
7
a
and the first terminal
5
a
. The other terminal of the second diode
8
b
is connected with the other terminal of the second IGBT device
7
b
and the second terminal
5
b
. The other terminal of the third diode
8
c
is connected with the other terminal of the third IGBT device
7
c
and the third terminal
5
c
. The first bus bar
4
a
is connected with the fourth to eighth terminals
6
a
to
6
e
. The seventh terminal
6
d
is connected with the positive terminal of the battery (not shown). The eighth terminal
6
e
is connected with a power steering motor (not shown).
The first, second and sixth terminals
5
a
,
5
b
and
6
a
are connected with the running motor. The third and fifth terminals
5
c
and
6
c
are connected with the working motor (not shown).
In the conventional controller
1
, the switching unit, namely, the first to third IGBT devices
7
a
to
7
c
and the first to third diodes
8
a
to
8
c
share the capacitor unit
3
in common. Therefore, the arrangement position of the capacitors to the switching unit is not always appropriate. When the arrangement position of the capacitors is not appropriate, there is a case that the effect of inductance correction is not sufficiently obtained.
Also, the wiring line route of the bus bar is long and complicated. Therefore, the bus bar needs to be processed or fabricated in accordance with the wiring line route. The fabrication of the bus bar causes cost rise.
SUMMARY OF THE INVENTION
Therefore, an object of the present invention is to provide a controller for a motor of a vehicle, in which a capacitor unit can be arranged in an appropriate position to a switching unit.
Another object of the present invention is to provide a controller for a motor of a vehicle, in which it not necessary to prepare a bus bar with a complicated shape.
In order to achieve an aspect of the present invention, a controller for a vehicle motor, includes a switching unit, a capacitor unit, output terminals and wiring lines. The switching unit is provided on a substrate to control power supply to a motor. The capacitor unit is arranged adjacent the switching unit, and is connected to the switching unit. The output terminals are connected to the motor. The wiring lines in the form of elongated bus bars connect the switching unit and the output terminals in a straight line route.
In this case, the switching unit may include switching devices and diodes arranged in alignment with the switching devices, respectively. In this case, the wiring lines, i.e. bus bars, are provided so as to extend in a direction orthogonal to the alignment of the diode and the switching device.
Also, the capacitor unit is provided above the switching unit using brackets. It is desirable that the capacitor unit is provided above the switching unit using brackets. In this case, when the capacitor unit is connected to the switching devices and the diodes, a direction of the brackets is substantially parallel to wiring lines between the switching devices and the diodes.
Also, the controller for the vehicle motor may further include a control circuit formed on an additional substrate which extends upward from the substrate, and the control circuit controls the switching unit.
Also, the capacitor unit is electrically connected with one of the output terminals. Also, the switching unit includes IGBT (Insulated Gate Bipolar Transistor) devices.
Also, the motor is a running motor used for running of the vehicle, and the controller further includes a running control unit for controlling an operation of the running motor. Instead, the motor is a working motor used for a work by the vehicle, and the controller further includes a working control unit for controlling an operation of the working motor.
In order to achieve another aspect of the present invention, a controller of a vehicle motor includes a first switching unit for controlling power supply to a running motor used running of a vehicle; a first capacitor unit arranged adjacent the first switching unit, and con
Akahane Fumihiro
Kobayashi Shin-ichi
Mitsubishi Heavy Industries Ltd.
Ro Bentsu
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