JPH0419954Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Field of Application of the Invention] The present invention relates to a field core for a commutator rotating electric machine used in electric tools and the like.

[Background of the idea]

The convex-pole field core of a commutator motor used in electric tools and the like usually takes the shape shown in FIG. 2 in order to hold the field winding and pass the main magnetic flux.

Here, as one of the rectification measures based on the magnetic pole shape,
As shown in Figure 3, the sky becomes empty as you get to the tip of the magnetic pole.
Methods are known to improve the slot ripple and magnetic flux distribution so that the length increases.

A disadvantage in this case is that the leading edge of the magnetic pole is narrow, and the field winding is likely to be damaged when loading the field winding. In addition, if the radius of the tip is increased as a countermeasure, the winding area becomes smaller, resulting in poor workability. Furthermore, if the magnetic pole angle is made small in order to ensure the size of the radius of the tip, the winding area during automatic winding becomes smaller.

[Purpose of invention]

The purpose of the present invention is to eliminate the above-mentioned drawbacks of the prior art, make winding workability equivalent to that of the prior art, and improve rectification and motor performance.

[Summary of the idea]

The present invention focused on the fact that the magnetic flux flow is minute because the tip of the magnetic pole is narrow, and even if only this section is made larger, the change in magnetic flux is minute, so we devised a design that would not cause any hindrance during winding work. It is something.

[Example of idea]

An embodiment according to the present invention is shown in FIG.

The magnetic pole 5 of the field core 1 has a convex pole shape, and the field winding 4 is loaded in the space between the magnetic pole and the yoke 6.
At the center of the field core is a rotating armature 2. The air length g between the magnetic pole and the armature is set to the same value within the angle α, and the magnetic pole width of the field core is gradually reduced in order to gradually increase from α to the vicinity of the magnetic pole tip 3.

The tip of the magnetic pole should have an empty length with respect to the armature that is at least smaller than the maximum empty length, that is, a thicker magnetic pole width, and a radius of a circular arc with respect to the field winding loading direction (marked). Try to make it as large as possible.

Even if the thickness of the tip of the magnetic pole becomes thick, the amount of magnetic flux is small because it passes through the part with the maximum air length (the part where the magnetic pole width is the smallest).

[Effect of idea]

According to the present invention, only the tip of the magnetic pole is enlarged, thereby eliminating troubles in winding work and improving slot ripple and magnetic flux distribution.

[Brief explanation of the drawing]

Figure 1 is a cross-sectional front view of a 1/4 section of a rotating electric machine using the field core of the present invention, Figures 2 and 3
The diagrams each show a 1/2-inch rotating electrical machine using a conventional field core.
It is a cross-sectional front view of four parts. In the figure, 1 is a field core, 2 is an armature, 3 is a magnetic pole tip, 4 is a field winding, and 5 is a magnetic pole.

Claims (1)

[Scope of utility model registration request] In the convex-pole field core of a commutator rotating electric machine, the air length between the armature and the magnetic poles is formed to the same width from the magnetic center to the part corresponding to the field winding, and from this point gradually to the vicinity of the magnetic pole tip. Along with enlarging and molding,
The magnetic pole tip is formed by bending the arm into an arc inside the field core so that the empty length thereof is at least smaller than the maximum empty length, and the magnetic pole tip is used for loading the field winding. A field core formed to form a guide.