Patent Grant
7291950
1. Field of the Invention
The present invention relates to an electric rotating machine for vehicle and, more particularly, to improvement in connection of a stator winding thereof.
2. Description of the Related Art
The field cores 25a and 25b are fitted into the rotating shaft 24 and rotate integrally with the rotating shaft 24. The cooling fans 27a and 27b are fixed onto sides of the field cores 25a and 25b respectively. Numeral 29 designates an armature acting as a stator, which includes an armature core 30 acting as a stator core and an armature winding 31 acting as a stator winding. The armature winding 31 is inserted into a slot of the armature core 30, and a coil end of the armature winding 31 protrudes from the armature core 30 in the axial direction. The armature core 30 has an internal peripheral wall forming a cylindrical hollow portion, and the rotor 23 is inserted in this hollow portion.
In the conventional electric rotating machine for vehicle of above construction, a three-phase output terminal 32 and a lead wire 33 of the stator are connected through a metallic terminal 34, which is connected to the lead wire 33 of a winding wound around the stator core 30, and through a metallic terminal 36, which is embedded in an insulator 35 made of resin.
Since the conventional electric rotating machine for vehicle has been constructed as described above, plural metallic terminals are essentially required between the three-phase output terminal and the lead wire of the winding wound around the stator core. Accordingly, a problem exists in that excessive cost and complicated manufacturing processes have been required.
Moreover, since there are metallic terminals formed by resin molding, a further problem exists in that combustion loss may occur if a large current passes through, and that resistance of the metallic terminal brings about reduction in both output and efficiency.
The present invention has been made to solve the above-discussed problems and has an object of reducing not only cost and manufacturing processes but also resistance of the metallic terminal in order to improve output and efficiency by interposing just a single metallic terminal between a lead wire of a stator and a three-phase output terminal.
An electric rotating machine for vehicle of the invention includes a rotor fixed onto a rotating shaft disposed in a housing, a stator core disposed opposite to the rotor, a stator winding wound around the stator core, and a three-phase output terminal to which a lead wire of the stator winding is connected. And the lead wire is connected to the three-phase output terminal through a single metallic terminal. As a result, not only cost and manufacturing processes but also resistance is reduced, and therefore output and efficiency are improved.
An embodiment of the present invention is hereinafter described with reference to the accompanying drawings.
In the drawing, numeral 1 designates a housing, numeral 2 designates a rotating shaft disposed in the housing 1 and numeral 3 designates a rotor fixed onto the rotating shaft 2. Numeral 4 designates a field winding wound around the rotor 3, numeral 5 designates a stator core disposed opposite to the rotor 3 and numeral 6 designates a stator winding wound around the stator core 5. Numeral 7 designates a cooling fan and numeral 8 designates a three-phase output terminal for taking out output from the stator.
Further, the three-phase output terminal 8 is provided with a threaded hole 9. At least one of lead wires 10 of the stator winding 6 wound around the stator core 5 is connected to the three-phase output terminal 8 through a single metallic terminal 11 by screwing with a screw 12.
The three-phase output terminal 8 is fixed at an external part of the housing 1 with an insulator 13 such as resin, and the insulator 13 is fixed to the housing 1. It is also preferable that the output terminal 8 is fixed at an internal part of the housing 1.
In this manner, since the single metallic terminal 11 interposes between the lead wire 10 and the three-phase output terminal 8, not only cost and manufacturing steps but also resistance is reduced, and as a result output and efficiency are improved.
Further, since any metallic terminal embedded in an insulator made of resin or the like is not required unlike the conventional technique, any combustion loss does not occur. Since the metallic terminal 11 is exposed, cooling efficiency is improved.
Furthermore, since a screw 12 connects the three-phase output terminal 8 and the lead wire 10 through the metallic terminal 11 by screwing, assembling becomes easier and manufacturing cost is reduced.
Additionally, an air-cooling system provided with the cooling fan 7 is adopted and cools around the lead wire 10 by cooling wind, the construction becomes simpler than that of water-cooling system.
In this manner, since a connection part between the lead wire 10 and the three-phase output terminal 8 is formed at the head portion 8a of the three-phase output terminal 8, the connection becomes easier.
Further, since the three-phase output terminal 8 and the metallic terminal 14 as well as the lead wire 10 of the stator winding 6 wound around the stator core 5 are fixed with the nut 15, strength of the three-phase output terminal 8 is sufficiently secured.
Furthermore, since the connection part between the lead wire 10 and the three-phase output terminal 8 is disposed at internal part of the housing 1, it becomes scarcely exposed to water, and therefore the corrosion-resistance is improved.
In case that Y-connection is adopted on the stator side and the stator windings are not connected in parallel, one single lead wire 10 is sufficient. However, in case that Y-connection is adopted on the stator side and the stator windings are connected in parallel, or in case that delta-connection is adopted on the stator side, plural than lead wires 10 are required. To cope with this, it is also preferable that the nut 15 connects the plural metallic terminals 14 with the three-phase output terminal 8, as shown in
This embodiment is the same as the foregoing Embodiment 2 in the aspect that the head portion 8a of the three-phase output terminal 8 is provided with the male screw 8b. In this embodiment, however, at least one lead wire 10 of the stator winding 6 wound around the stator core 5 is directly connected with the three-phase output terminal 8 with a nut 15, thus the metallic terminal 14 being omitted.
Although a nut is employed for fixation in the above description, it is also preferable that a screw is employed for fixation.
As described above, since no metallic terminal is interposed between the lead wire 10 and the three-phase output terminal 8, not only cost and manufacturing processes but also resistance are reduced, eventually resulting in improvement of output and efficiency.
In this embodiment, at least one of lead wires 10 of the stator winding 6 wound around the stator core 5 is connected by TIG welding directly to the three-phase output terminal 8 on the head portion 8a side.
In the drawings, the lead wire 10 is put on a groove 16 provided on the head portion 8a of the three-phase output terminal 8, and the lead wire 10 and the three-phase output terminal 8 are directly connected by TIG welding B.
Instead of welding, the lead wire 10 maybe connected by brazing.
Furthermore, as shown in
As described above, the three-phase output terminal 8 and the lead wire 10 of the stator winding 6 wound around the stator core 5 are connected by welding, caulking at the three-phase output terminal head portion 8a or brazing without any connection member. As a result, no part such as screw or nut is required, eventually resulting in further cost reduction.
While the presently preferred embodiments of the present invention have been shown and described.
It is to be understood that these disclosures are for the purpose of illustration and that various changes and modifications may be made without departing from the scope of the invention as set forth in the appended claims.
This is a divisional of application Ser. No. 10/756,547 filed Jan. 14, 2004, now U.S. Pat. No 6,963,150.
| Number | Name | Date | Kind |
|---|---|---|---|
| 2668925 | Bloser | Feb 1954 | A |
| 2802958 | Curley | Aug 1957 | A |
| 3250928 | Bates | May 1966 | A |
| 3253167 | Bates et al. | May 1966 | A |
| 3283186 | Perry | Nov 1966 | A |
| 4543504 | Iwaki et al. | Sep 1985 | A |
| 6084324 | Jeske | Jul 2000 | A |
| 6160335 | Ishida et al. | Dec 2000 | A |
| 6271608 | Haydock et al. | Aug 2001 | B1 |
| 6429556 | Nakamura et al. | Aug 2002 | B1 |
| 6737772 | Tanaka et al. | May 2004 | B2 |
| 7021973 | Morikaku et al. | Apr 2006 | B2 |
| 20020047360 | Kaizu | Apr 2002 | A1 |
| Number | Date | Country |
|---|---|---|
| 41 10 474 | Oct 1992 | DE |
| 697 05 939 | Oct 1997 | DE |
| 1 390 681 | Apr 1975 | GB |
| 2 099 240 | Dec 1982 | GB |
| 57-6358 | Jan 1982 | JP |
| 62-188946 | Jan 1987 | JP |
| 6-327179 | Nov 1994 | JP |
| 08-149743 | Jun 1996 | JP |
| 09-019119 | Jan 1997 | JP |
| 2000-197299 | Jul 2000 | JP |
| Number | Date | Country | |
|---|---|---|---|
| 20050248223 A1 | Nov 2005 | US |
| Number | Date | Country | |
|---|---|---|---|
| Parent | 10756547 | Jan 2004 | US |
| Child | 11181840 | US |
