JPS602861B2 - Manufacturing method of motor core - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an improvement in the manufacturing method of motor iron ○, and in particular, to a manufacturing method that improves the gap accuracy between a pair of stator plates facing each other, and effectively manufactures a motor iron core. .

Regarding a method of manufacturing a stator, a method has been devised in which opposing stators are connected by a connecting piece, the stator is fixed to a stator coupling plate made of a non-magnetic material, and then the connecting piece is cut off.

According to this method, each magnetic pole of the stator can be positioned with excellent positional accuracy with respect to the rotor, and the work of adjusting the position of the stator magnetic poles can also be eliminated. An object of the present invention is to provide a more effective method for manufacturing a motor core in relation to manufacturing a motor using the above-described effective method for manufacturing a stator.

In order to achieve the above object, the present invention connects a pair of opposing stator pieces by a connecting piece, fixes the stator pole positions of both stator pieces to a stator coupling plate made of a non-magnetic material, and then connects the stator pieces. A method for manufacturing a motor core in which a piece is cut out, and the connecting piece is cut to a length such that both ends overlap with both stator parts at the motor core joining position of both stator pieces, and the connecting piece is used as a motor core. I will provide a. Hereinafter, the present invention will be explained in detail based on preferred embodiments. FIG. 1 shows a stator in which a pair of stator plates 2 and 4 are connected through a connecting piece 101. As shown in FIG.

Stator plates 2 and 4 are provided with stator poles 2a, 2b, 2c, 2d and 4a, 4, respectively, surrounding a rotor (not shown).
b, 4c, 4d are formed, and the stator poles 2a, 2b...4c, 4d are arranged and set at optimal positions with the stator plates 2 and 4 integrally molded with the connecting piece 10. is formed. The stator plates 2 and 4 have holes 20, 22 and 24 for positioning and screw holes 6 and 8 for fixing the core. The connecting piece 10' also has screw holes 12 and 14 formed at the same spacing as the screw holes 6 and 8. A stator coupling plate 40 is shown in FIG.

This stator coupling plate 4 has a large hole 42 and a positioning hole 5
0, 52 and 54 are formed and made of non-magnetic material (e.g. yellow steel)
It is formed into a plate shape. The positioning holes 50, 52 and 54 in the stator coupling plate 40 are provided at positions corresponding to the positioning holes 20, 22 and 24 in the stator plates 2 and 4 shown in FIG. are stator machines 2a, 2b, . . . with stator plates 2, 4. The stator poles 2a, 2b and 4c have a diameter larger than the gap diameter formed in 4c and 4d, and are located at the stator plates 2, 45 from the positioning holes 50, 52 and 54. 4
It is set to correspond to d.

In FIG. 3, the stator plate 294 and the stator coupling plate 40 are connected to the positioning holes 28, 22, 24 and 507 to 529.
4 in a corresponding position, and the connecting piece 10
The state after removal is shown.

Regarding the attachment of the stator plate 2, tortoise and the stator coupling plate tortoise 0:
4 and 661 It is desirable to perform spot melting, etc. After the stator plate 234 and the stator coupling plate 4Q are attached, the connecting corner Q is cut along the cutting line 30 shown in FIG.
Excise in position. What is characteristic here is the stator pole 2a, 20W. The positional relationship between the stator plates 4c and 4d is the same as when the stator plates 2 and 4 were integrally connected to each other, in that the stator coupling plate 40 is also held from there. The point is that the driving coil can be installed in the space after the connecting piece 10 is removed.

Note that the same effect can be obtained even if the stator plates 2 and 4 do not use the stator coupling plate 0, but instead use a method in which, for example, the connecting plate 0 is removed after being fixed to the main plate.

FIG. 4 shows the connecting piece 10 cut out from the stator plates 2, 4.

The present invention is characterized in that the connecting piece 10 is used as it is as the core of the coil, and by this method there is no need to form the core of the coil separately for each waggi. Figure 5 shows the removed connecting piece Q (iron core).
The state in which the coil 80 is wound and fixed to the stator plates 2 and 4 with screws is shown.

The connecting piece 10 (iron core) is fixed to the stator plates 2 and 4 by screwing with screws T2 and 74. After that, by alternately inputting driving pulses to the coil 88, the stator plates 2 and 4 are fixed. 4, alternate magnetic poles will occur. By the way, in the embodiment of the present invention in which the stator plate 29 and the connecting piece 18 as the iron core are fixed with screws after coil winding, the stator plate 29 and the connecting piece 0 shown in FIG. In the integral molding, screw holes 6 and 8 were formed on the stator plate 2 and 4, and screw holes 12 and screw holes were formed at the same time in the stator plate 2 and 4. Regarding screw fixation, there is no need to separately form a screw hole, which is effective in terms of the manufacturing process.

In addition, if the fixing structure of the connecting piece 10 to the stator plate 28 after coil winding is performed by a method other than fixing with screws, the connecting piece IQ should be fixed in a corresponding shape.
It is possible to mold.

For example, "form an elastic support claw on the coil bobbin,
In the case of a method in which the iron core and the stator plate are fixed together using the pawls, recesses are provided in the corresponding places of the iron core attachment part of the stator plate and the connecting piece, and the stator plate and the coil winding are fixed together. It is possible to achieve effects such as positioning by elastic fixation with the connecting piece (iron core).As described above, the present invention is advantageous in that the connecting piece of the stator plate is used as it is as the coil iron D, which is advantageous in terms of low cost and manufacturing process. Therefore, it is possible to provide an effective method for manufacturing a motor core.

Brief explanation of the drawings Figures 1 to 5 show preferred embodiments of the present invention.
FIG. 1 is a plan view showing a state in which the stator plate and the continuous piece are integrally molded.

Figure 2 is a plan view of the stator coupling plate. FIG. 3 is a plan view showing the stator plate and the stator coupling plate attached to the vehicle. Fourth
The figure is a plan view of the connecting piece (iron core) after it has been removed. FIG. 5 is a plan view showing a state in which the connecting piece (pig 0) after coil winding is fixed to the stator plate. 2, 4...Stator plate ~ IQ...
Connecting piece (iron core), thermal Q...stator coupling plate.

Figure 1 Figure 2 Figure 3 Figure 4 Figure 5

Claims (1)

[Claims] 1 A pair of opposing stator pieces are connected by a connecting piece,
After the stator pole positions of both stator pieces are fixed to a stator coupling plate made of a non-magnetic material, the coupling piece is removed, and the coupling piece is attached to both stator parts and both ends at the motor core coupling position of both stator pieces. A method for manufacturing a motor core, characterized in that the connecting pieces are cut to a length such that they overlap, and the connecting pieces are used as a motor core.