Rectifier device in vehicle AC generator

In a rectifier device in a vehicle AC generator, a pair of heat sinks are formed curved with the middle portions of the diode mounting seats thereof parallel-shifted vertically from the remaining end portions, and each of the diode mounting seats has a number of cooling fins, and the cooling fins extended from the middle portions of the diode mounting seats are longer than those extended from the other portions, whereby the heat sinks are increased in heat radiating area and decreased in length.

BACKGROUND OF THE INVENTION 
This invention relates to a rectifier device in a vehicle AC generator, 
which converts alternating current generated by the generator into direct 
current. 
FIG. 4 is a sectional view showing a vehicle AC generator equipped with a 
conventional rectifier device. In FIG. 4, reference numeral 1 designates a 
stator comprising a stator core 2, and a stator coil 3 wound on the stator 
core; 4, a rotor comprising a pair of magnetic pole cores 5 and 6 
confronted with each other, an exciting coil 7 interposed between those 
cores 5 and 6, a rotary shaft 8, and slip rings 9 fixedly mounted on the 
rotary shaft 8 in such a manner that the former are electrically insulated 
from the latter; 10 and 11, fans mounted on the magnetic pole cores 5 and 
6, respectively; 12, a front bracket supporting the stator 1, the front 
bracket 12 having air sucking holes 12a and air discharging holes 12b; 13, 
a rear bracket having air sucking holes 13a and air discharging holes 13b, 
the rear bracket 13 being secured to the front bracket 12 with tightening 
bolts 14 in such a manner that the stator core 2 is held between the front 
bracket 12 and the rear bracket 13; 15 and 16, bearings through which the 
front bracket 12 and the rear bracket 13 support the rotary shaft 8; and 
17, a pulley fixedly mounted on one end portion of the rotary shaft 8, the 
pulley 17 being coupled through belt means to the engine. 
Further in FIG. 4, reference numeral 18 designates the rectifier device 
connected through lead wires to the stator coil 3, the rectifier device 18 
adapted to convert polyphase alternating currents into a direct current 
which is supplied to a DC load such as a battery; and 19, a voltage 
regulator mounted on the rear bracket together with a brush holder 20. The 
voltage regulator 19 detects the output voltage of the generator to 
control the exciting current thereby to maintain the supply terminal 
voltage at a predetermined value. The brush holder 20 supports brushes 21 
in such a manner that the brushes 21 are held pushed against the slip 
rings 9. 
As shown in FIG. 5, a front view of the inside of the rear bracket 13, the 
rectifier device 18 is mounted on the rear bracket 13 with mounting screws 
31a and 31b . In order to receive the mounting screws 31a and 31b the rear 
bracket 13 has arcuate protrusions 13c extended radially outwardly 
therefrom. The brush holder 20 together with the voltage regulator 19 is 
mounted on the rear bracket 13 with mounting screws 34. The slip rings 9 
are surrounded by a cylinder 20 of synthetic resin which is formed 
integral with the casing of the brush holder 20. A connector 23 is 
provided in a frame which is formed integral with the casing of the brush 
holder 20. 
The rectifier device 18 is shown in FIG. 6 in more detail. A positive (+) 
side heat sink 27 (cf. FIG. 7) with positive (+) side diodes 25, and a 
negative (-) side heat sink 28 (cf. FIG. 7) with negative (-) side diodes 
26, together with a wiring board 30, are mounted on the rear bracket 13 
with the mounting screws 31a and 31b . The rectifier device 18 further 
includes three auxiliary diodes 32, and a capacitor 33. 
The heat sinks equipped with the diodes as shown in FIG. 6 are illustrated 
in the parts (A) and (B) of FIG. 7, which are a front view and a side 
sectional view, respectively. As is apparent from FIG. 7, the diode 
mounting seats of the heat sinks 27 and 28 are flush with each other and 
extended parallel with each other. The heat sink 27 has a number of 
cooling fins 27a , and the heat sink 28 also has a number of cooling fins 
28a . The heat sinks 27 and 28 have mounting holes 29a and 29b. 
In the conventional rectifier device thus constructed, the diode mounting 
seats of the heat sinks 27 and 28 are flush with each other as was 
described above, and in order for the heat sinks to have sufficient heat 
radiating areas, their length L is necessarily long, and accordingly 
arcuate protrusions 13c of the rear bracket 13 are unavoidably large. This 
structure may obstruct the mounting of the AC generator on the engine. 
SUMMARY OF THE INVENTION 
Accordingly, an object of this invention is to eliminate the 
above-described difficulties accompanying a conventional rectifier device 
in a vehicle AC generator. 
More specifically, an object of the invention is to provide a rectifier 
device of a vehicle AC generator in which the heat sinks are increased in 
heat radiating area, and are decreased in length, and the protrusions of 
the rear bracket which are extended radially outwardly are made small, 
when compared with those in the conventional rectifier device, whereby the 
AC generator can be smoothly mounted on the engine. 
The foregoing object and other objects of the invention have been achieved 
by the provision of a rectifier device for a vehicle AC generator which 
comprises a pair of heat sinks opposite in polarity whose diode mounting 
seats are spaced vertically from each other, and a plurality of diodes 
mounted on each of the diode mounting seats, the heat sinks together with 
a wiring board being mounted on the rear bracket of the AC generator; in 
which 
the pair of heat sinks are formed curved with the middle portions of the 
diode mounting seats parallel-shifted vertically from the remaining end 
portions, 
each of the diode mounting seats having a number of cooling fins in such a 
manner that the cooling fins of one of the diode mounting seats are 
extended in the direction opposite to the direction in which the cooling 
fins of the other diode mounting seat are extended, and the cooling fins 
extended from the middle portions of the diode mounting seats are longer 
than the cooling fins extended from the other portions, 
whereby the heat sinks are decreased in length, and protrusions of the rear 
bracket which are radially outwardly extended therefrom to receive both 
ends of the heat sinks when the rectifier is mounted on the rear bracket, 
is reduced in size. 
In the rectifier device, the middle portions of the diode mounting seats 
are parallel-shifted vertically from the remaining end portions as was 
described above. This structure increases the heat radiating area of the 
fins, and decreases the length of the heat sinks. Therefore, the radially 
outwardly extended protrusions of the rear bracket can be made smaller, 
and accordingly the AC generator equipped with the rectifier device can be 
readily mounted on the engine. 
The nature, principle, and utility of the invention will be more clearly 
understood from the following detailed description of the invention when 
read in conjunction with the accompanying drawings.

DETAILED DESCRIPTION OF THE INVENTION 
On example of a rectifier device of a vehicle AC generator according to 
this invention will be described with reference to FIG. 1. In FIG. 1, 
reference numerals 13, 19 through 23, 31a , 31b and 34 designate the same 
components as those in FIG. 5 which shows the conventional rectifier 
device. The rectifier device 40 is mounted on the rear bracket 13 with the 
mounting screws 31a and 31b . The length of the rectifier device 40 is 
shorter than that of the conventional one, and accordingly the protrusions 
13d of the rear bracket 13 which are extended radially outwardly therefrom 
are smaller. The AC generator equipped with the rectifier device 40 is the 
same as in FIG. 4. 
As shown in FIG. 2, a front view of the rectifier device 40, a positive (+) 
side heat sink 41 (cf. FIG. 3) having positive (+) side diodes 25, and a 
negative (-) side heat sink 42 (cf. FIG. 3) having negative (-) side 
diodes 26, together with a wiring board 44, are mounted on the rear 
bracket 13 with the mounting screws 31a and 31b. 
The heat sinks 41 and 42 are shown in the parts (A) and (B) of FIG. 3 in 
more detail. The heat sinks 41 and 42 are so shaped that the middle 
portions of the diode mounting seats are parallel-shifted upwardly from 
the remaining end portions as shown in the part (A) of FIG. 3. The heat 
sink 41 has a number of cooling fins 41a , and the heat sink 42 also has a 
number of cooling fins 42a. The heat sinks 41 and 42 have mounting holes 
43a and 43b. The end portions of the cooling fins 41a and 42aare tapered. 
The fins extended from the middle portions of the diode mounting seats, 
which should be cooled most, are longer than those from the other 
portions, for improvement of the heat radiating effect. Thus, the length L 
of the heat sinks 41 and 42 is shorter than that of those in the 
conventional rectifier device, and accordingly the radially outwardly 
extended protrusions 13d of the rear bracket 13 is smaller than those in 
the prior art. 
As was described above, in the rectifier device according to the invention, 
the pair of upper and lower heat sinks whose diode mounting seats are 
spaced vertically from each other are so designed that the middle portions 
of the diode mounting seats are parallel-shifted vertically from the 
remaining portions, and each of the heat sinks has a number of cooling 
fins, and the fins extended from the middle portions of the diode mounting 
portions are made longer than the other fins. That is, the heat sinks are 
formed curved. Hence, the heat radiating area is increased as much, and 
the length is decreased as much. Accordingly, the radially outwardly 
extended protrusions of the rear bracket are made smaller. Therefore, the 
generator equipped with the rectifier device can be installed smoothly on 
the engine. 
While there has been described above the preferred embodiment of this 
invention, it will be obvious to those skilled in the art that various 
changes and modifications may be made therein without departing from the 
invention, and it is aimed, therefore, to cover in the appended claim all 
such changes and modifications as fall within the true spirit and scope of 
the invention.