JP2932036B2 - Alternator - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pair of brackets which hold a stator, a plus heat sink to which a plus diode is attached, a minus heat sink to which a minus diode is attached, and a regulator. Alternator.

[0002]

2. Description of the Related Art Conventionally, such an alternator is disclosed in, for example, Japanese Utility Model Laid-Open No.
It is already known from Japanese Patent No. 6868 and the like.

[0003]

However, in the above-mentioned conventional device, the plus side heat sink and the minus side heat sink are provided.
Since the regulator and the regulator are fixed to the bracket independently of each other, it cannot be said that the assembling work efficiency is excellent.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an alternator that facilitates assembling both heat sinks and a regulator and improves the efficiency of assembly work.

[0005]

SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides a plus heat sink having a plus diode mounted on one of a pair of brackets holding a stator and a minus heat sink having a minus diode mounted thereon. In the alternator to which the side heat sink and the regulator are fixed, the plus side and the minus side heat sink, in which the diodes are arranged on the inner side and face each other, are provided at both ends of a support cylinder portion having both ends abutting on both heat sinks. Cylindrical synthetic resin spacers, each of which is provided with a fitting portion that elastically fits on the heat sink, are interposed,
The regulator is provided with a holding plate sandwiched between both heat sinks having fitting cylinder portions fitted on both heat sinks on both sides, and holding the holding plate of the regulator between both heat sinks with the spacer interposed therebetween. And a screw member inserted into the spacer, and a screw member penetrating the holding plate and inserted into both fitting cylinder portions, and fastened to one bracket. I do.

[0006]

An embodiment of the present invention will be described below with reference to the drawings.

FIGS. 1 to 10 show an embodiment of the present invention. FIG. 1 is an electric circuit diagram of an alternator, and FIG.
4 is a longitudinal sectional view of the alternator, taken along line 2-2 in FIG. 4, FIG. 3 is a left side view of FIG. 2, FIG. 4 is a view showing a state where a cover is removed from FIG. 3, and FIG. 4 is a sectional view taken along line 5-5, FIG. 6 is a sectional view taken along line 6-6 in FIG. 4, FIG. 7 is a sectional view taken along line 7-7 in FIG. 4, and FIG. 9 is an enlarged view of a main part of FIG. 4, and FIG. 10 is a cross-sectional view taken along line 10-10 of FIG.

First, referring to FIG.
Is a brushless alternator mounted on an automobile
And three-phase power generation coil 12_A, 12_B, 12_CConsisting of
A stator 13 having a stator coil 12 and four stators;
Las diode 14_P, 15 _P, 16_P, 17_PAverage
Positive heat sink mounted in row electrical connection
Qu 18_PAnd four negative diodes 14_M, 15
_M, 16_M, 17_MAre mounted in parallel electrical connection
Negative heat sink 18 that is grounded_M
And a field coil 19 and a regulator 20.
It is.

The positive diodes 14 _{P to} 17 _P are connected in parallel to the output terminal 21 via the positive heat sink 18 _P , and the field coil 19 and the regulator 20 are also connected to the output terminal 21. You. The output terminal 21 of the alternator 11 is connected to the positive terminal of the battery 23 via the fuse 22. The plus diode 14 _P and the minus diode 14
Generating coils 12 _A to a connection point of _M is positive-side diode 15 _P and negative-side diode 15 _M of the generating coil 12 to the connection point _B is, the connection point of the positive side diodes 16 _P and negative-side diode 16 _M is generating coil 12 _C is the connection point of the positive side diodes 17 _P and negative-side diode 17 _M generating coils 12 _a to 12
The connection points of c are respectively connected.

The regulator 20 includes capacitors 24 and 2
IC regulators 5 and 26 are attached, and four lead wires 27, 28 and 2 connected to the regulator 20 are provided.
Couplers 31 are provided at the ends of 9, 30. The lead wire 27 among the lead wires 29 to 30 is connected to the battery 23 via the charge lamp 32 and the key switch 33.
, And the lead wire 28 is connected between the charge lamp 32 and the key switch 33.

The structure of the alternator 11 will now be described. Referring to FIG. 2, the stator 13 includes a stator core 1 formed by laminating a plurality of annular core plates.
2 and the stator 13 is provided with a first
And the second bracket 35, 36. Thus, the first and second brackets 35 and 36 are fastened to each other by a plurality of through bolts 37,
Is sandwiched between the brackets 35 and 36.

At the center of the first and second brackets 35 and 36, cylindrical bosses 38 and 39 are provided coaxially.
One end of a rotating shaft 40 is rotatably supported by a bearing 41 on the boss 38 of the first bracket 35. Thus, the other end of the rotating shaft 40 penetrates the boss 39 of the second bracket 36 and protrudes outward, and a bearing 42 is interposed between the boss 39 and the rotating shaft 40.

A claw-pole type rotor 43 is fixedly mounted coaxially with the stator 13 on the rotating shaft 40 inside the stator 13, and a cylindrical field core 44 inserted into the rotor 43.
Are fixed to the inner surface side of the first bracket 35 with a plurality of bolts 45. Thus, the field coil 44 is
Is wound.

With respect to the rotor 43, the first bracket 3
A cooling fan 46 is fixed to the rotating shaft 40 on the side opposite to the side 5, in this embodiment, outside the second bracket 36. A pulley 47 is fixed to the rotating shaft 40 further outward than the cooling fan 46, and an endless belt (not shown) for transmitting power from an engine (not shown) is wound around the pulley 47.

Referring to FIG. 3, FIG. 4 and FIG.
The first bracket 35 is provided with a cover 51 so as to form a storage chamber 50 between the first bracket 35 and the outer surface of the first bracket 35.
Are mounted, and each diode 14 _P , 15 _P , 16 _P ,
_{17 P; 14 M, 15 M} , 16 M, 17 each comprise a _M plus side and minus-side heat sink 18 _P, 1
8 _M and the regulator 20 are covered with the cover 51 so that the heat sink assembly 52 is
Inside, it is attached to the outer surface side of the first bracket 35.

Heat sink 1 on plus side and minus side
8 _P and 18 _M are arc-shaped members that support one end of the rotating shaft 40 and surround a part of the boss 38 provided on the first bracket 35, and are formed of an aluminum alloy plate to reduce the weight. Is done. Thus, the plus side heat sink 1
8 The negative-side heat sink 18 surface opposed to _M of _P, positive-side diode 14 _P to 17 _P are mounted at intervals in the circumferential direction so as to soldering the one end and negative-side heat sink 18 _M the positive-side heat sink 18 _P facing the surface of the negative-side diodes 14 _M to 17 _M is attached at intervals in the circumferential direction so as to solder one end. That is, the plus side diodes 14 _{P to} 17 _P are connected to the plus side heat sink 1.
Electrically mounted in connected state in parallel to the 8 _P, negative-side diode 14 _M to 17 _M will be attached in a state of being electrically connected in parallel to the negative-side heat sink 18 _M. Moreover, diodes 14 _P and 14 _M connected in series; 15 _P and 15 _M ; 16 _P and 16 _M ;
17 _P and 17 _M are attached to both heat sinks 18 _P and 18 _M at positions corresponding to each other.

By the way, both heat sinks 18 _P , 18 _M
Is in the state in which the respective diode _{14 P ~17 P, 14 M ~17} M inward, which is caused to face each other along a plane perpendicular to the axis of the rotary shaft 40, both the heat sink 18 in this state _P, 18 is between _M, as shown in Figure 6, a plurality of, for example, a pair of spacers 53 made of synthetic resin
Is interposed. The spacer 53 is formed in a cylindrical shape with fitting portions 55 _P and 55 _M provided at both ends of a support tubular portion 54, the ends of which contact the heat sinks 18 _P and 18 _{M. P} , 18 _M are provided with fitting holes 56 _P , 56 _M provided correspondingly to each other.
5 _P and 55 _M are fitted elastically. Thus, the fitting portions 55 _P and 55 _M are arranged at positions spaced apart in the circumferential direction of the tapered cylindrical portion to facilitate fitting into the fitting holes 56 _P and 56 _M. are those made provided with a plurality of slits extending in a direction, configured to exert a resilient force of the enlarged diameter direction when fitted into the fitting hole 56 _P, 56 _M. These fitting portions 55 _P and 55 _M are provided with fitting holes 5.
6 _P, 56 is intended to fit freely inserted into or removed from _M, together with the disassembly and reassembly of both the heat sink 18 _P, 18 _M is easy, it is possible to use the spacer 53 and again when reassembling . Moreover, both mating parts 55 _P ,
The axial length of 55 _M is set so as to protrude outward from both the heat sink 18 _P, 18 _M a supporting tube portion 55 being in contact with the opposing surfaces of the heat sink 18 _P, 18 _M .

Referring also to FIG.
In the housing 57 made of a synthetic resin, the fitting cylindrical portion 5 which is resiliently fitted to the heat sinks 18 _P and 18 _M is provided.
8 _P , 58 _M on both sides and both heat sinks 18 _P , 1
Holding plate 59 sandwiched between the 8 _M is provided so as overhangs laterally. And Thus, the fitting tubular portion 58 _P, 58 _M are those put in engagement with both the heat sink 18 _P, 18 _M fitting hole 60 provided in correspondence with each other _P, 60 _M,
The axial length of the fitting cylindrical portion 58 _P, 58 _M is set to the holding plate 59 from both the heat sink 18 _P, 18 _M in a state sandwiched between the heat sink 18 _P, 18 _M so as to protrude outward ing.

Thus, the fitting of the pair of spacers 53 is performed.
Joint 55_P, 55_MThe fitting hole 56_P, 56_MTo each
By elastically fitting, the spacer 53 is interposed between each other.
Mounted heat sinks 18_P, 18_MMaintains the facing posture of
In this state, both heat sinks 18_P, 18_Mwhile
And the fitting cylinder 58_P, 58_MThe fitting hole 60_P, 60_MTo
By holding the holding plate 59 so as to fit each other,
Diode 14_P, 15 _P, 16_P, 17_P; 14_M,
Fifteen_M, 16_M, 17_MPlus side and
And negative heat sink 18_P, 18_MAnd regular
And a heat sink assembly 52 comprising the heat sink 20.
Will be.

The heat sink assembly 52 is grounded.
Electrical connection with the first bracket 35
And a negative heat sink on the outer surface of the first bracket 35.
18 _MAbut on the first bracket 35
Is done. That is, each spacer 53 of the first bracket 35
In the position corresponding to, as shown in FIG.
Heat sink 18_MFitting portion 55 projecting from_MMating
Fitting recess 61, and coaxially connected to the fitting recess 61.
Screw holes 62 are provided, and the first bracket 35
In the position corresponding to the holding plate 59, as shown in FIG.
Minus side heat sink 18_MFitting part 5 protruding from
8_MAnd a fitting recess 61 for fitting the
1 is provided with a screw hole 62 coaxially continuous therewith. In addition,
The first bracket 35 is provided on the housing 57 of the
A coupling plate 64 having a cylindrical projection 63 protruding to the side
The first bracket is
At a position corresponding to the coupling plate 64 of the
Into the fitting recess 61 and the fitting recess 61
A screw hole 62 is provided coaxially. Therefore, each space
A pair of screw members 65 respectively inserted through the
1 is screwed into the screw hole 62 of the bracket 35,
Through the holding plate 59, the two fitting cylindrical portions 58_P, 58 _MPenetrated into
Screw member 65 to be screwed into the corresponding screw hole 62,
Screw member 66 inserted into plywood 64 and cylindrical projection 63
Are screwed into the corresponding screw holes 62. Moreover, each spacer
Fitting part 55 in 53_PAnd the fitting tube portion 58_PNo
Lath side heat sink 18_PThe protruding part is made of synthetic resin
Each of which is surrounded by a ring-shaped insulating washer 67 made of
The head 65a of each screw member 65 and each insulating washer 67
With metal washers 68 interposed between
In this state, each screw member 65 is tightened. Screw member 6
6 is a washer 6 between its head 66a and the coupling plate 64.
8 is fastened.

With particular attention to FIG.
In the positive heat sink 18_PAnd minus
Side heat sink 18_MIn the position corresponding to the outer peripheral edge of
Diode 15_P, 15_M; 17_P, 17_MInstallation part of
Ventilation hole 71 formed in an arc shape corresponding to₁And Daio
Code 16_P, 16_MFormed in an arc shape corresponding to the arrangement part of
Ventilation holes 71_TwoAnd diode 14_P, 14_MArrangement
Ventilation hole 71 formed in an arc shape corresponding to the installation portion_ThreeWhen,
Positive and negative heat sinks 18_P, 18_M
A plurality of ventilation holes 7 arranged in portions other than the arrangement position of
1_Four, 71_Five, 71 ₆, 71₇Are provided. Also the
As shown in FIG. 2, a plurality of ventilation
Holes 72 are provided.

The two heat sinks 18 _P , 1 facing each other
8 The heatsink i.e. positive-side heat sink 18 _P disposed on the cover 51 side of _M, as best in Figure 8, a plurality of cooling air circulation holes 73 ... and the cooling air circulation holes 73 ... of a rectangular shape A plurality of fins 74... Extending to the inner side, that is, the minus side heat sink 18 _M side, respectively, are formed by cutting and raising.

By the way, the minus side heat sink 18_M
Means that the outer peripheral edge is a ventilation hole 17₁~ 17_ThreeCorresponding to the inner periphery of
The heat sink
18 _PMeans that the outer peripheral edge is a ventilation hole 17₁~ 17_ThreeInner rim of
It is formed so as to be located on the outer side than
Each diode 14_P, 15_P, 16_P, 17_P1
4 _M, 15_M, 16_M, 17_MPlus in the part corresponding to
Side heat sink 18_PSemicircular notch 7
5 (see FIG. 4) are provided.

Moreover, each diode 14_P, 14_M15
_P, 15_M; 16_P, 16_M; 17 _P, 17_MConnected to
Heat sink 18_P, 18_MIs extended to the outside side of
Connecting terminals 76... Correspond to the respective notches 75.
So that the connection terminals 76 corresponding to each other overlap one another
It is arranged. That is, 14_P, 14_MConnection terminal 7
6 ..., diode 15_P, 15_MConnection terminals 76 ...
Iod 16_P, 16 _MConnection terminals 76 ...
Iod 17_P, 17_MConnection terminals 76 are notches 7
5 ...
You. However, the diode 14_P, 14_MConnection terminal 76 of ...
Is connected to the connection terminal 77 extended from the regulator 20.
They are arranged so as to be sandwiched between them.

On the other hand, each power generation coil of the stator coil 12
12_A, 12_B, 12_C(See Fig. 1)
Connection terminals 76 ..., 77 and regulator 29
Lead wires 78 to be connected to the connected connection terminals 79,
It extends in a straight line. That is, the power generation coil 12_BNire
Are formed as ventilation holes 71.₁Through
Iod 15_P, 15_MStraight line up to the connection terminals 76 ...
The power generation coil 12_A~ 12_CConnected to a connection point
A single lead wire 78 is₁Dio through
Code 17_P, 17_MTo the connection terminals 76 ...
Installed, the power generation coil 12_A~ 12_CSimply connected to the connection point of
One lead wire 78 is a ventilation hole 71_FourThrough the regular
To the connection terminal 79 of the
Il 12 _BAre connected to the ventilation holes 71.
_TwoThrough the diode 16_P, 16_MConnection terminal 76
.. Are extended in a straight line up to_ALinked to
The pair of lead wires 78 are the ventilation holes 71._ThreeDio through
Code 14_P, 14_MAnd the connection end of the regulator 20
It extends straight to the child 77. Thus, each lead line
78 are soldered to the corresponding connection terminals 76, 77, 79
Attached.

9 and 10, a pair of connection holding portions 80, 81 projecting toward the boss 38 of the first bracket 35 are provided on the housing 57 of the regulator 20.
And engagement grooves 82, 83 extending in parallel with the axis of the rotating shaft 40 are provided in portions of the connection holding portions 80, 81 on the boss 38 side. The connection holding unit 8
On the opposite side of the first portion 35 of the cover 81, that is, on the surface on the side of the cover 51, conductive portions 84 and 85 each having a conductive metal plate buried so as to expose the surface are extended into the regulator 20. In addition, terminal plates 86 and 87 integrally connected to the conductive portions 84 and 85 are erected adjacent to the engagement grooves 82 and 83.

On the other hand, the boss 38 has the connection holding portion 8
Notch grooves 88, 89 are provided corresponding to the positions 0, 81, respectively. A pair of lead wires 90, 91 connected to the field coil 19 and penetrating the field core 44 are formed at the position where the regulator 20 is disposed. Ventilation hole 71 provided in one bracket 35
₄ is drawn into the notched grooves 88, 89. Moreover, the leading portions of the lead wires 90 and 91 from the field coil 19 are covered with insulating covering tubes 92 except for the end portions thereof.
2 are engaged with the engagement grooves 82 and 83, respectively. Thus, the protruding portions of the lead wires 90 and 91 from the covering tube 92 are soldered while being wound around the terminal plates 86 and 87, respectively.

By the way, both heat sinks 18 _P , 18 _M
The cover 51 that covers the regulator 20 is formed in a dish shape with a synthetic resin. On the other hand, at the position adjacent to the boss portion 38, the first bracket 38 has a cylindrical mounting portion having a step portion 93a abutting on the inner surface of the cover 51 and a small-diameter cylindrical portion 93b protruding from the step portion 93a on the distal end side. Boss 93
Is protruded. The small-diameter cylindrical portion 93b penetrates the cover 51 whose inner surface is in contact with the step portion 93a so that the distal end surface faces outward. The small-diameter cylindrical portion 93b is grounded between the small-diameter cylindrical portion 93b and the distal end. A screw member 94 having a head 94a sandwiching the terminal 95a is screwed to the mounting boss 93. The ground wire 95 is connected to the ground terminal 95a.
The bracket 35 is grounded via the screw member 94, the ground terminal 95a, and the ground wire 95.

The cover 51 has connection terminals 76,.
A plurality of protective cover portions 96, which are located on the outer side of the connection portions of the connecting wires 77, 79 and the lead wires 78, to prevent the connection portions from contacting with the first bracket 35, are provided with a first protection cover portion 96. It extends toward the bracket 35 and is provided integrally. Moreover, at the tips of some of the protective cover portions 96.
Locking portions 97 provided on the outer edge of the first bracket 35.
Are respectively provided with engaging claws 98 which resiliently engage with each other.

Further, the cover 51 is provided with a plurality of cooling air introduction holes 99 and a plurality of air guide plate portions 100 extending inward so as to be continuous with the edges of the cooling air introduction holes 99. .

[0031] Between the cover 51 and the first bracket 35, which insulating member 101 and the grommet 102 is sandwiched, the output terminal 20 connected to the positive-side heat sink 18 _P projecting outward through the insulating member 101 Is done. Also, four lead wires 2 connected to the regulator 20
7 to 30 are drawn out through the grommet 102.

Next, the operation of this embodiment will be described.
And rotation of the rotating shaft 40 due to transmission of driving force from the engine
When the cooling fan 46 is operated by the operation, the cover 51
The cooling air introduced into the storage chamber 50 from the cooling air introduction holes 99.
The air is supplied to each ventilation hole 71 of the first bracket 35.₁~ 71
₇Through the second bracket 36 through the side of the rotor 43.
The air is circulated to the outside through the air holes 72. At this time, storage
In the chamber 50, each diode 14_P~ 17_P, 14
_M~ 17_MThe plus side in the opposite posture with
And negative heat sink 18_P, 18_MIs the first
An arc shape surrounding a part of the boss 38 of the bracket 35
And is fixed to the outer surface of the first bracket 35.
The bracket 35 has a plus side heat and a minus side heat.
Sink 18 _P, 18_MVentilation holes 71 corresponding to the outer peripheral edge of
₁~ 71_ThreeIs provided. Therefore, in the storage room 50
As shown by arrows in FIG. 5, the cooling air introduced into
Heat sink 18_P, 18_MInflow from the inner periphery
And each ventilation hole 71 from the outer peripheral side.₁~ 71_ThreeCirculate to
Become like In addition, both heat sinks 18_P, 18_MOut of
Plus side heat sink 18 arranged on cover 51 side_P
Are provided with a plurality of cooling air circulation holes 73.
And both heat sinks 18_P, 18_MIntroducing cooling air between
Entry is promoted. Therefore, both heat sinks 18_P,
18_MMake the cooling air flow efficiently between the
Heat sink 18_P, 18_MCan improve the cooling efficiency of
it can.

In addition, the plus side heat sink 18 _P has
A plurality of fins 74... Extending inward in connection with the edges of the respective cooling air flow holes 73 are formed.
3 ... so is cut and bent molded with, despite the plurality of cooling air circulation holes 73 ... are provided, without reducing the thermal mass of the positive-side heat sink 18 _P, it is possible to increase its surface area. As a result, the cooling efficiency can be further improved, and there is no need to join other components such as heat radiation fins.

Further, a plus side and a minus side heat sink
Qu 18_P, 18_MThe spacer 53 interposed between the two ends
Heat sink 18_P, 18_MSupport tube to abut
Heat sinks 18 at both ends of 54_P, 18_MTo each
Fitting portion 55 that resiliently fits_P, 55_MA circle consisting of
It is cylindrical, with spacers 53 interposed between each other
As a result, both heat sinks 18_P, 18_MIs the opposite
It will be temporarily assembled while maintaining the posture. Also
The heat sink 18_P, 18_MTo
Fitted cylindrical portion 58 to be fitted_P, 58_MWith both sides
Heat sink 18 _P, 18_MA holding plate 59 sandwiched between
The two heat sinks 18 are in a temporarily assembled state._P,
18_MBetween the fitting cylinder 58_P, 58_MThe corresponding heat
Sink 18_P, 18_MAre fitted to each other to
Between the two heat sinks 18._P, 18_M
And the regulator 20 constitute the heat sink assembly 52.
Is done. Moreover, a screw portion inserted into each spacer 53
Material 65, and both fitting tubular portions 58
_P, 58_MThe screw member 65 inserted through the first bracket
35, both heat sinks 18_P, 18_M
And the regulator 20 to the first bracket 35 at a time.
It is possible to assemble and improve the efficiency of assembly work.
You.

Further, it is fixed to the outer surface of the first bracket 35.
Heat sink 18_P, 18 _MAt each other
Corresponding plus and minus diodes 14_P~
17 _P, 14_M~ 17_MConnection terminals 76 connected to
... but both heat sinks 18_P, 18_MLayered on the outside
And the ventilation hole 71 of the first bracket 35₁, 71_Two, 71
_ThreeAnd extends straight from the stator coil 12
The lead wires 78 are connected to the mutually overlapping connection terminals 76.
So that each diode 14_P~ 17_P, 14_M~
17_MConnection with the lead wires 78.
It can be done very easily on the outside of the 35
It can contribute to improvement of business efficiency. Moreover, both heats
Sink 18_P, 18_MAnd cover it with the first bracket 35.
Each connection terminal 7 is attached to a cover 51 made of synthetic resin to be attached.
6 and protection for covering the outside of the connection part of the lead wire 78.
Since the cover portions 96 are provided, the
Contact with one bracket 35 can be reliably avoided.
You.

The lead wire 9 connected to the field coil 19
Except for the leading end of the field coil 19, the lead-out portions of the regulator coil 20 are covered with insulating covering tubes 92, respectively, and the housing 57 of the regulator 20 has an engaging groove for engaging the covering tube 92. Connection holding portions 80 and 81 having 82 and 83 are provided, and the projecting portions of the lead wires 90 and 91 from the respective coating tubes 92 are connected to the connection holding portions 8.
Since it is connected to the terminal plates 86 and 87 provided on the first and second brackets 0 and 81, the lead wires 90 and 91 are reliably prevented from coming into contact with the surrounding conductive member, that is, the first bracket 35. A reliable electric connection state can be obtained.

Although the embodiments of the present invention have been described in detail above, the present invention is not limited to the above embodiments, and various design changes can be made without departing from the present invention described in the appended claims. It is possible to do.

For example, the cooling fan 46 may be fixed to the rotating shaft 40 inside the second bracket 36,
Further, the present invention can be applied to an alternator having a brush and a slip ring, and a heat sink may be formed of a copper plate.

[0039]

As described above, according to the present invention, the plus side and the minus side heat sinks in which the respective diodes are arranged on the inner side and opposed to each other are provided at both ends of the support cylindrical portion having both ends abutting on both heat sinks. The heat sink is provided with a cylindrical spacer made of synthetic resin, which is provided with a fitting portion for resiliently fitting to each of the heat sinks. The regulator has fitting cylinder portions on both sides to be fitted to both the heat sinks. A holding plate sandwiched between both heat sinks, a heat sink assembly configured by sandwiching a holding plate of a regulator between the two heat sinks with the spacer interposed therebetween, a screw member inserted into the spacer, and It is fastened to one bracket with a screw member that penetrates the holding plate and is inserted into both fitting cylinders. Only it is possible, it is possible to improve the assembling work efficiency.

[Brief description of the drawings]

FIG. 1 is an electric circuit diagram of an alternator.

FIG. 2 is a vertical sectional view of the alternator, taken along line 2-2 of FIG.
It is sectional drawing which follows a line.

FIG. 3 is a left side view of FIG. 2;

FIG. 4 is a view showing a state where a cover is removed from FIG. 3;

FIG. 5 is a sectional view taken along line 5-5 in FIG. 4;

FIG. 6 is a sectional view taken along line 6-6 in FIG. 4;

FIG. 7 is a sectional view taken along the line 7-7 in FIG. 4;

FIG. 8 is a sectional view taken along line 8-8 in FIG. 4;

FIG. 9 is an enlarged view of a main part of FIG. 4;

FIG. 10 is a sectional view taken along line 10-10 of FIG. 9;

[Explanation of symbols]

11 Alternator 13 Stator 14 _P -17 _P Positive diode 14 _M -17 _M Minus diode 18 _P Positive heat sink 18 _M Minus heat sink 20 ..Regulators 35 and 36... Bracket 53... Spacer 54... Supporting tube portion 55 _P , 55 _M ... Fitting portion 58 _P , 58 _M. Plate 65 ・ ・ ・ Screw member

Claims (1)

(57) [Claims] One (35) of claim 1. A pair of sandwiching the stator (13) brackets (35, 36), a positive-side heat sink of the positive side diodes (14 _P to 17 _P) is attached (18 _P), negative Side diode (14 _M
ヒ ー ト シ ン ク 17 _M ) is attached to the minus side heat sink (1
And 8 _M), in an alternator regulator (20) are fixed, each diode (14 _P to 17 _P, 14
_{M to} 17 _M ) are arranged on the inner side, and the plus and minus heat sinks (18 _P , 18 _M ) facing each other are arranged.
Both ends on both the heat sink of the support tube portion to abut the ends on both the heat sink _{(18 P, 18 M) (} 54) (1
8 _P , 18 _M )
5 _P, 55 _M) cylindrical synthetic resin spacer composed provided with (53) is interposed, the regulator (20), both the heat sink (18 _P, 18 _M) to fit the fitting cylindrical part (58 _P, 58 _M) and has on both sides two heat sinks (18 _P, 18 _M) clamping plates sandwiched between (59) is provided, both the heat sink (18 _P obtained by interposing the spacer (53) , 18 _M ), a heat sink assembly (52) configured to hold the holding plate (59) of the regulator (20) between the screw member (65) inserted through the spacer (53), and the holding plate (59) both fitting cylinder through the (58 _P, 58 _M) in inserted through the screw member (6
5) An alternator, wherein the alternator is fastened to one bracket (35).