Field winding support member for salient pole rotor

Abstract

A coil support (28) is configured to include a coil support body part (281) that is made of resin and that has abutment surfaces (281c, 281d) to be in respective direct abutments with radial inner surfaces of adjoining field windings (24) and an insertion hole (281a) that is formed along a radial direction of a rotary shaft (21), a bolt (282) with a hexagonal hole that has a base end part fixed to a rotor yoke (22) and a tip end part projecting outward in a radial direction and that is inserted into the insertion hole (281a) of the coil support body part (281), and a disc spring (283) that is interposed between the rotor yoke (22) and the coil support body part (281) and that presses the coil support body part (281) toward the field windings (24), and to have a spot-faced part (281b) that is formed on a radial outside of the insertion hole (281a) to have a larger diameter than the insertion hole (281a).

Claims

1. A field winding support member for a salient pole rotor, the salient pole rotor being such that a rotary shaft is equipped with a rotor core comprising a rotor yoke, magnetic pole projection parts and magnetic pole head parts and that a field winding is disposed on a peripheral surface of each magnetic pole projection part, the field winding support member for the salient pole rotor pressing the field windings, which are adjacent to each other in a circumferential direction, outwardly in a radial direction, the field winding support member for the salient pole rotor being characterized by comprising: a coil support body part that is made of an electrical insulation material and is provided with abutment surfaces respectively directly abutting radial inner surfaces of the adjacent field windings and with an insertion hole formed along a radial direction of the rotary shaft; a headless bolt that has a base end part fixed to the rotor yoke and a tip end part projecting outwardly in a radial direction, the tip end part being inserted into the insertion hole of the coil support body part; and an elastic body that is interposed between the rotor yoke and the coil support body part and presses the coil support body part toward the field windings, wherein the coil support body part is formed, on an outside part of the insertion hole in a radial direction of the rotary shaft, with a spot-faced part for securing a creeping distance between the field winding and the bolt, the spot-faced part having a larger diameter than the insertion hole, wherein the spot-faced part is such that a distance from the field winding to an opening edge of the spot-faced part is shorter than a distance from the field winding to an opening edge of the insertion hole.

2. The field winding support member for the salient pole rotor as claimed in claim 1, which is characterized in that the electrical insulation material is resin.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic view showing a salient-pole rotary electric machine;

(2) FIG. 2 is a front view of a field winding support member for a salient pole rotor according to an embodiment of the present invention;

(3) FIG. 3 is a sectional view of the coil support body part shown in FIG. 2;

(4) FIG. 4 is a top view of the coil support body part shown in FIG. 2;

(5) FIG. 5 is an explanatory view showing a creepage distance in the case of applying a field winding support member for a salient pole rotor according to an embodiment of the present invention; and

(6) FIG. 6 is an explanatory view showing a creepage distance in the case of the coil support body part having no spot-faced part.

MODE FOR IMPLEMENTING THE INVENTION

(7) In the following, a field winding support member for a salient pole rotor according to the present invention is explained by using the drawings.

Embodiment

(8) By using FIG. 1 to FIG. 6, electrical insulation plates of a salient pole rotor according to an embodiment of the present invention are explained in detail.

(9) As shown in FIG. 1, a salient-pole rotary electric machine 1 has a generally cylindrical stator 10 that is fixed to a frame, etc. not shown in the drawings, and a salient-pole rotor 20 that is rotatably held on an inner peripheral side of the stator 10.

(10) A rotary shaft 21, a rotor yoke 22 and magnetic pole projection parts 23 of the salient pole rotor 20 are integrally formed. For example, they are formed by cutting out of a massive magnetic material. The rotary shaft 21 becomes a rotation center of the salient pole rotor 20 and is rotatably supported at its both end portions in the axial direction by bearings (not shown in the drawings). The rotor yoke 22 is integrally formed at a center part of the rotary shaft 21 in the axial direction in a manner to extend in the axial direction to cover the periphery of the rotary shaft 21. The magnetic pole projection parts 23 are integrally formed at positions of an outer peripheral part of the rotor yoke 22 that are 90 degrees apart in the circumferential direction. That is, the magnetic pole projection parts 23 project outwardly from the outer peripheral part of the rotor yoke 22 in the radial direction and are disposed at even intervals in the circumferential direction.

(11) A field winding (field coil) 24 is disposed on a peripheral surface of the magnetic pole projection part 23 with an interposal of an electrical insulation plate (not shown in the drawings). The field winding 24 is constructed by alternately stacking platy conductors and platy insulation members in the radial direction.

(12) A magnetic pole head part 25 is fixed onto a top surface (an outer end surface in the radial direction) of the magnetic pole projection part 23 by a plurality of bolts (not shown in the drawings). A gap (gap of several millimeters in the radial direction) is maintained between an outer peripheral surface of the magnetic pole head part 25 and an inner peripheral surface of the stator 10.

(13) A magnetic pole core is formed by the magnetic pole projection parts 23 and the magnetic pole head parts 25. Furthermore, a rotor core is formed by the rotor yoke 22, the magnetic pole projection parts 23, and the magnetic pole head parts 25.

(14) An electric insulation plate 27 is provided between a top surface (an outer end surface in the radial direction) of the field winding 24 and an inner peripheral surface (an inner end surface in the radial direction) of the magnetic pole head part 25.

(15) Then, between the two adjacent field windings 24 in the circumferential direction in the present embodiment, a coil support (field winding support member) 28 is arranged that pushes up the field windings 24 by a direct abutment against their inner peripheral sides (inner end surfaces in the radial direction).

(16) As shown in FIG. 2, the coil support 28 is constructed to contain a coil support body part 281 made of resin (electrical insulation member), a bolt 282 with a hexagonal hole that has a tip end part inserted into an insertion hole 281a (see FIG. 3) provided in the coil support body part 281 and a base end part fixed to the rotor yoke 22, and a disc spring (an elastic body) 283 that inserts the bolt 282 with a hexagonal hole and is interposed between the rotor yoke 22 and the coil support body part 281. In the present embodiment, the disk spring 283 is supported by a washer 284 interposed between that and the coil support body part 281, and a spool retainer 285 interposed between that and the rotor yoke 22.

(17) As shown in FIG. 3 and FIG. 4, the coil support body part 281 is formed in a generally trapezoidal shape in side view. Its surfaces corresponding to legs are abutment surfaces 281c, 281d that are respectively brought into abutment with inner surfaces in the radical direction of the adjacent field windings 24 in the circumferential direction.

(18) Furthermore, the above-mentioned insertion hole 281a is provided at a center portion of the coil support body part 281 to be along the radial direction of the rotary shaft 21. Then, on an upper bottom side (an outer side in the radial direction of the rotary shaft 21) of this insertion hole 281a, there is provided a spot-faced part 281b that has a larger diameter than the insertion hole 281a. In the present embodiment, as shown in FIG. 4, the insertion hole 281a is formed into a long hole such that error in the production of the field windings 24, etc. can be absorbed. With this, the spot-faced part 281b is also formed into a long hole.

(19) The field winding support member of the salient pole rotor according to the present embodiment constructed as above is provided with the spot-faced part 281b. With this, as shown in FIG. 5, even in case that the bolt 282 with the hexagonal hole is in abutment with an end portion of the insertion hole 281a of the coil support body part 281 by error in the production of the field windings 24, etc., it becomes possible to sufficiently secure the creepage distance between the field winding 24 and the bolt 282 with the hexagonal hole, as shown by a thick line in FIG. 5.

(20) That is, in the case of abolishing the electrical insulation plates on the undersurfaces of the field windings 24 without providing the spot-faced part 281b, like a coil support 28 shown in FIG. 6, when the bolt 282 with the hexagonal hole is in abutment with an end portion of the insertion hole 281a of the coil support body part 281, as shown by a thick line in FIG. 6, it becomes difficult to sufficiently secure the creepage distance from the field winding 24 to the bolt 282 with the hexagonal hole. In contrast with this, as mentioned above, the use of the field winding support member for the salient pole rotor according to the present embodiment makes it possible to secure a desired electrical insulation creepage distance, even if abolishing the electrical insulation plates on the undersurfaces of the field windings 24.

EXPLANATION OF SIGNS

(21) 1: a salient-pole rotary electric machine; 10: a stator; 20: a salient pole rotor; 21: a rotary shaft; 22: a rotor yoke; 23: a magnetic pole projection part; 24: a field winding; 25: a magnetic pole head part; 25a: an outer peripheral surface; 27: an electrical insulation plate; 28, 28: a coil support; 281: a coil support body part; 281a: an insertion hole; 281b: a spot-faced part; 281c, 281d: an abutment surface; 282: a bolt with a hexagonal hole 283: a disk spring; 284: a washer; and 285: a spool retainer.