JP2013021838A - Manufacturing method of band-shaped iron core piece for wound laminated iron core - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a manufacturing method of a band-shaped iron core piece to be used for a wound laminated iron core that manufactures a plurality of band-shaped iron core pieces from a sheet of thin strip material without interference.SOLUTION: A manufacturing method of a band-shaped iron core piece used for a wound laminated iron core 45 comprises: forming band-shaped iron core pieces 11, 12 in multi lines on one strip of a thin strip material 10, the band-shaped iron core pieces 11, 12 consisting of segment iron core pieces 17, 18 having one or a plurality of magnetic pole pieces 15, 16 and connected at connection parts 19, 20; separating the multi-line band-shaped iron core pieces 11, 12 from each other; and sequentially folding the band-shaped iron core pieces 11, 12 at the connection parts 19, 20 to make the wound laminated iron core 45. The multi-line band-shaped iron core pieces 11, 12 are formed with positions of the connection parts 19, 20 arranged in the travel direction of the thin strip material 10, and the band-shaped iron core pieces 11, 12 adjacent to each other in the width direction of the thin strip material 10 are connected to each other with connection members 27. The connection members 27 are cut off when separating the multi-line band-shaped iron core pieces 11, 12 from each other.

Description

The present invention eliminates the trouble in manufacturing a plurality of rows of strip-shaped core pieces, each of which has one or more magnetic pole pieces connected by a connecting portion that can be bent, from a single strip material (magnetic steel plate). The present invention relates to a method of manufacturing a strip-shaped core piece used for a wound laminated core.

In Patent Documents 1 and 2, a strip-shaped core piece obtained by connecting a segment core piece having one or a plurality of magnetic pole pieces with a foldable connecting portion is formed by stamping from a thin strip material, and the strip-shaped core piece is formed with a connecting portion. It is described that it is gradually bent to produce a wound laminated iron core.

However, rather than punching and forming this strip-shaped core piece with a single sheet metal, as shown in FIG. 7B, a plurality (two in this example) of strip-shaped core pieces 80 and 81 are formed into one wide sheet strip. In the case of punching from the material 82, the outside of the other segment core piece 84 can be partially inserted inside the segment core piece 83, thereby enabling the use of the thin strip material 82 having a width narrower by the width d. It was found that the material yield was good. FIG. 7A shows a wound laminated core 85 formed using the strip-shaped core pieces 80 and 81.

JP 2000-116037 A JP 2007-143257 A

However, since the segment core pieces 83 and 84 in the strip-shaped core pieces 80 and 81 are connected only by the small connecting portions 86 and 87, as shown in FIG. The two strip-shaped core pieces 80 and 81 interfere with each other due to the fluttering, and the strip-shaped core pieces 80 and 81 are deformed and the connecting portions 86 and 87 are broken.

The present invention has been made in view of such circumstances, and an object of the present invention is to provide a method for manufacturing a strip-shaped core piece used for a wound laminated core that manufactures a plurality of strip-shaped core pieces without interfering with a single sheet material. And

The manufacturing method of the strip-shaped core piece used for the wound laminated core according to the first aspect of the present invention is a thin sheet of strip-shaped core pieces in which segment core pieces having one or a plurality of magnetic pole pieces are connected by a connecting portion. In the method of manufacturing a strip-shaped core piece used for a wound laminated core that forms a plurality of rows in the strip material, separates the strip-shaped core pieces of the plurality of rows, and sequentially folds at the connecting portion to produce a wound laminated core.
The plurality of rows of strip-shaped core pieces are formed by aligning the position of the connecting portion with the traveling direction of the thin strip material, and the strip-shaped core pieces adjacent in the width direction of the thin strip material are coupled by a connecting member, When the plurality of rows of strip-shaped core pieces are individually separated, the connecting member is cut off.

The manufacturing method of the strip-shaped core piece used for the wound laminated core according to the second invention is the manufacturing method of the strip-shaped core piece used for the wound laminated core according to the first invention, wherein the connecting member is radially inward of the connecting portion. It has a horizontal plate part which holds the fan-shaped opening formed in.

The manufacturing method of the strip-shaped core piece used for the wound laminated core according to the third invention is the manufacturing method of the strip-shaped core piece used for the wound laminated core according to the second invention, wherein the opposite sides of the opening are engaged when bent. Each of which has an arcuate recess and an arcuate convex portion, the end of the horizontal plate portion is connected to the center of the arcuate concave portion and the arcuate convex portion, and the width of the connecting end of the horizontal plate portion is the arcuate shape. It is narrower than the maximum width of the concave portion and the arc-shaped convex portion.

The manufacturing method of the strip-shaped core piece used for the wound laminated core according to the fourth aspect of the invention is the manufacturing method of the strip-shaped core piece used for the wound laminated core according to the third aspect of the invention, wherein the connecting end of the horizontal plate portion is the arc shape. Protrusions and the arcuate recesses are arranged orthogonal to the sides where the arcs are formed.

The manufacturing method of the strip-shaped core piece used for the wound laminated core according to the fifth invention is the manufacturing method of the strip-shaped core piece used for the wound laminated core according to the first invention, wherein the connecting member is an end side of the segment core piece. A vertical plate portion that connects a part of the strip-shaped core piece adjacent to the magnetic pole piece portion.

The manufacturing method of the strip-shaped core piece used for the wound laminated core according to the sixth invention is the manufacturing method of the strip-shaped core piece used for the wound laminated core according to the second to fourth inventions, wherein the connecting member is the horizontal plate portion. And a vertical plate part for connecting a part of the connecting part of the strip-shaped core pieces adjacent to the center of the connecting part or a part near the connecting part.

The manufacturing method of the strip | belt-shaped core piece used for the wound laminated iron core which concerns on 7th invention is a manufacturing method of the strip | belt-shaped core piece used for the wound laminated iron core which concerns on 1st-6th invention, The said joining member which connects the said strip-shaped core piece. Is provided in the mold for manufacturing the strip-shaped core pieces connected by the connecting member from the thin strip material, or removed by the connecting member punching part provided outside the mold, and then the connecting member The strip-shaped iron core pieces from which the metal is removed are separated through a separator.

Since adjacent strip-shaped core pieces are connected by a connecting member in a state where a predetermined interval is maintained, there is no interference between the segment core pieces of the strip-shaped core pieces inside and outside the mold after the outer shape has been removed. Since there is no fear of the parts being cut off, the strip-shaped core pieces can be formed by punching at a high speed.

In particular, an end portion of the connecting member (horizontal plate portion) is provided at the center of the arc-shaped concave portion and the arc-shaped convex portion formed on the opposite sides of the fan-shaped opening formed on the radially inner side of each connecting portion of the strip-shaped core pieces. In this case, even if the connecting member is removed, the shape of the opening is not affected, and the arc-shaped concave portion and the arc-shaped convex portion can be used as they are as the latching member.
Moreover, when the vertical plate portion is provided in the connecting member and the adjacent strip-shaped core pieces are held at a certain distance, the punching speed of the plurality of rows of strip-shaped core pieces can be further increased.

(A) is explanatory drawing of the manufacturing method of the strip | belt-shaped core piece used for the winding laminated core which concerns on the 1st Embodiment of this invention, (B) is the arrow a section enlarged view of the figure (A), (C). Is a partial plan view of a wound laminated iron core manufactured by the manufacturing method, and (D) is an enlarged view of a portion b in FIG. (A) is explanatory drawing of the manufacturing method of the strip | belt-shaped core piece used for the wound laminated iron core which concerns on the 2nd Embodiment of this invention, (B) is the arrow c section enlarged view of the same figure (A), (C). These are explanatory drawings of the manufacturing method of the strip | belt-shaped iron core piece used for the wound laminated iron core which concerns on the 3rd Embodiment of this invention. (A) is explanatory drawing of the manufacturing method of the strip | belt-shaped core piece used for the wound laminated iron core which concerns on the 4th Embodiment of this invention, (B) is used for the wound laminated iron core which concerns on the 5th Embodiment of this invention. It is explanatory drawing of the manufacturing method of a strip-shaped iron core piece. (A) is explanatory drawing of the manufacturing method of the strip | belt-shaped core piece used for the wound laminated iron core which concerns on the 6th Embodiment of this invention, (B) is used for the wound laminated iron core which concerns on the 7th Embodiment of this invention. It is explanatory drawing of the manufacturing method of a strip-shaped iron core piece. (A) is explanatory drawing of the manufacturing method of the strip | belt-shaped core piece used for the winding laminated core which concerns on the 8th Embodiment of this invention, (B) is the detail drawing. (A) is a top view explaining the manufacturing method of the strip | belt-shaped iron core piece used for the winding laminated core which concerns on the 1st-8th embodiment of this invention, (B) is a side view explaining the same method, (C) These are explanatory drawings of the method of manufacturing a winding lamination | stacking iron core using the strip | belt-shaped iron core piece obtained by the same method. (A) is a perspective view of a wound laminated core, and (B) is an explanatory view of a manufacturing method of a strip-shaped core piece used for a wound laminated core according to a conventional example.

Next, embodiments of the present invention will be described with reference to the accompanying drawings.
As shown in FIGS. 1 (A) to 1 (C), a method for manufacturing a strip-shaped core piece used for a wound laminated core according to the first embodiment of the present invention is a thin strip 10 made of a single magnetic steel sheet. To 2 rows (an example of a plurality of rows, the same applies hereinafter) of the strip-shaped core pieces 11 and 12 are formed by punching. The strip-shaped core pieces 11 and 12 are formed by bending segment core pieces 17 and 18 having arc-shaped divided yoke pieces 13 and 14 and a plurality of magnetic pole pieces 15 and 16 (which may have one magnetic pole piece). They are connected in a straight line via possible connecting parts 19, 20. In addition, the magnetic pole piece parts 21-24 formed in the edge part of each segment iron core piece 17 and 18 have the structure which divided | segmented one magnetic pole piece part 15 and 16 into two. Moreover, the strip-shaped core pieces 11 and 12 adjacent to each other in the width direction are formed so that the positions of the connecting portions 19 and 20 are aligned with the traveling direction of the thin strip material 10.

In the strip-shaped core pieces 11, 12 adjacent in the width direction, a part of the outer arc of the segment core piece 18 of the strip-shaped core piece 12 is fitted into the inner arc of the segment core piece 17 of the strip-shaped core piece 11. , 12 is reduced in width, and can be formed by punching from the thin strip material 10 having the minimum width with a high yield. Fan-shaped openings 25 and 26 are formed in the strip-shaped core pieces 11 and 12 at radially inner positions of the connecting portions 19 and 20, respectively.

And the adjacent strip-shaped core pieces 11 and 12 have the connection member 27 which connects the strip-shaped core pieces 11 and 12 in the position of the opening part 25, and the strip-shaped core pieces 11 and 12 are hold | maintained at fixed distance. . The opening 26 of the strip-shaped core piece 12 has an auxiliary connecting member 28 that keeps the distance between the adjacent segment core pieces 18 constant.

Moreover, the recessed part 30 and the convex part 31 which are each engaged are provided in the edge part (side which the opening parts 25 and 26 oppose) of the magnetic pole piece parts 21-24 which contact the opening parts 25 and 26, respectively. When the magnetic pole piece portions 21 and 22 and the magnetic pole piece portions 23 and 24 are brought into contact with each other by bending, the concave portion 30 and the convex portion 31 are completely coincided with each other as shown in FIG. The concave portion 30 and the convex portion 31 each have a semicircular portion 32 and a rectangular portion 33 having a width w, and prevent the segment core pieces 17 and 18 adjacent in the rectangular portion 33 from moving in the radial direction. Moreover, it is good for the recessed part 30 and the convex part 31 to be an arc-shaped recessed part and an arc-shaped convex part, respectively.

The connecting member 27 is T-shaped, the front side of the horizontal plate portion (that is, the horizontal arm) 35 is bent, and one end portion 36 enters the concave portion 30 and is connected to the center of the concave portion 30. The other end 37 of 35 is connected to the center of the convex part 31. The opening 25 is held by the horizontal plate portion 35. The widths of the one side end portion 36 and the other side end portion 37 of these horizontal plate portions 35 are smaller than the maximum width (diameter) of the concave portion 30 and the convex portion 31, and even if the connecting member 27 is cut off, The convex portion 31 is completely engaged.
The other end portion of the vertical plate portion (that is, the vertical arm) 38 whose one end portion is connected to the center of the horizontal plate portion 35 of the connecting member 27 is the divided yoke piece portion 14 in the vicinity of both sides of the connecting portion 20 of the strip-shaped core piece 12. Are connected in a bifurcated shape, and the connecting portion 20 is located at the center thereof. In addition, the other end part of a vertical board part can also be directly connected with a connection part.

The auxiliary connecting member 28 is not an essential requirement for keeping the strip-shaped core pieces 11 and 12 in a predetermined position, but serves to hold the openings 26 of the adjacent segment core pieces 18. In this embodiment, the auxiliary connecting member 28 is the same as the horizontal plate portion 35 of the connecting member 27 excluding the vertical plate portion 38, and therefore detailed description thereof is omitted.

Therefore, as shown in FIG. 6 (A), the strip-shaped core pieces 11 and 12 are continuously punched and formed by a mold 40 having a punch and a die, with the connecting member 27 and the auxiliary connecting member 28 left. In this state, since the strip-shaped iron core pieces 11 and 12 are positioned, they do not interfere with each other. Next, the connecting member punching portion 41 disposed on the downstream side of the mold 40 or on the downstream side outside the mold 40. Thus, the connecting member 27 and the auxiliary connecting member 28 are punched and removed.

After passing through the connecting member punching portion 41, the strip-shaped core pieces 11, 12 are separated in the width direction, so that the strip-shaped core pieces 11, 12 are held so as not to get entangled by the separator 42 provided in the middle position. As shown in FIG. 6 (B), it is wound around reels 43 and 44, respectively. Thereafter, as shown in FIG. 6C, one wound laminated core 45 is formed by spiral winding. The strip-shaped core pieces 11 and 12 separated by the separator 42 are held at a width z that does not cause interference again.

Then, although the manufacturing method of the strip | belt-shaped core piece used for the wound laminated core which concerns on the 2nd-8th embodiment of this invention is demonstrated, the strip | belt-shaped core piece used for the wound laminated core which concerns on 1st Embodiment is demonstrated. Differences from the manufacturing method will be described. Moreover, the same number is attached | subjected about the component same as the manufacturing method of the strip | belt-shaped core piece used for the wound laminated iron core which concerns on 1st Embodiment, and the detailed description is abbreviate | omitted. In addition, the point which removes a connection member and an auxiliary connection member is the same as that of the manufacturing method of the strip | belt-shaped core piece used for the wound laminated core which concerns on 1st Embodiment.

In the manufacturing method of the strip-shaped core piece used for the wound laminated core according to the second embodiment of the present invention shown in FIGS. 2 (A) and 2 (B), the side of the connecting member 47 that connects the strip-shaped core pieces 11 and 12 is used. The plate portion 48 is linear and is obliquely connected to the concave portion 30 and the convex portion 31. Even in this case, the width of the horizontal plate portion 48 is sufficiently smaller than the widths of the concave portion 30 and the convex portion 31, and when removing the connecting member 47, the concave portion 30 and the convex portion 31 are cut in a fitted state. If it is included (see the hatched area in FIG. 5B), there is no particular problem. Moreover, although the recessed part 30 and the convex part 31 will partly be missing by the said notch | incision, since the rectangular part remains similarly to having shown in FIG.1 (D), the movement of a radial direction can be prevented.

Next, the manufacturing method of the strip | belt-shaped core piece used for the winding laminated core which concerns on the 3rd Embodiment of this invention shown in FIG.2 (C) is demonstrated.
In this embodiment, the connecting member 50 is Y-shaped, the V-shaped horizontal plate portion 51 is orthogonal to the magnetic pole piece portions 21 and 22, and the tip portion is the first embodiment. Similarly, the center of the concave portion 30 and the convex portion 31 is connected. Thereby, when the connecting member 50 is removed, the shapes of the concave portion 30 and the convex portion 31 can be made closer to the original shape (semicircular shape). Further, the auxiliary connecting member 52 has the same shape as the connecting member 50 excluding the vertical plate portion 53.

Then, the manufacturing method of the strip | belt-shaped core piece used for the winding laminated core which concerns on the 4th Embodiment of this invention shown to FIG. 3 (A) is demonstrated.
In the fourth embodiment, the horizontal plate portion 55 of the connecting member 54 has an arc shape, and its end portion is connected to the center of the concave portion 30 and the convex portion 31 in a vertical state. The auxiliary connecting member 57 that connects the adjacent segment core pieces 18 of the strip-shaped core pieces 12 has the same shape as the connecting member 54 except for the vertical plate portion 58.

Moreover, in the manufacturing method of the strip-shaped core pieces used for the wound laminated core according to the fifth embodiment of the present invention shown in FIG. The openings 25 and 26 are connected by arcuate auxiliary connecting members 63 and 64. Both sides of the auxiliary connecting members 63 and 64 are bent, and their tip portions are orthogonal to the concave portions 30 and the convex portions 31 and are joined to the center thereof. The connecting members 61 and 62 directly connect the inner side in the radial direction of the magnetic pole pieces 21 and 22 of the segment core piece 17 and the outer side in the radial direction of the split yoke piece 14 of the segment core piece 18.

In the manufacturing method of the strip-shaped core pieces used for the wound laminated cores according to the fourth and fifth embodiments, the shapes of the concave portions 30 and the convex portions 31 to be engaged are finally left as much as possible, so that they are engaged. The shape of the recessed part 30 and the convex part 31 is hold | maintained more closely to an original form, and the strong wound laminated iron core without a backlash can be manufactured.
Moreover, in the manufacturing method of the strip | belt-shaped core piece used for the winding laminated core which concerns on 5th Embodiment, since the segment core piece 17 and the segment core piece 18 are directly connected by the short connecting members 61 and 62, the connecting member 61 is used. 62 does not bend or bend.

The manufacturing method of the strip | belt-shaped core piece used for the wound laminated core which concerns on 6th, 7th embodiment of this invention shown to FIG. 4 (A), (B) is demonstrated.
In this embodiment, the adjacent segment core pieces 17 and 18 are separated not at the center of the magnetic pole pieces 15 and 16 but at the center of the divided yoke pieces 13 and 14 where the magnetic pole pieces 15 and 16 are not formed. , Connecting portions 67 and 68 that can be bent.

And the recessed part 70 and the convex part 71 which each engage the adjacent segment core piece 17 and the adjacent segment core piece 18 are formed in the edge part of the division | segmentation yoke piece parts 13 and 14, respectively. And the connecting member 72 which connects the segment core pieces 17 and 18 in the inner part of the connection part 67 is provided. The connecting member 72 includes a horizontal plate portion 74 that connects the concave portion 70 and the convex portion 71 of the segment core piece 17, a horizontal plate portion 74, and a radially outer side of the split yoke piece portion 14 in the vicinity of the connection portion 68 of the segment core piece 18. It has the vertical board part 75 connected. The horizontal plate portion 74 is connected to the center of the concave portion 70 and the convex portion 71 so that the concave portion 70 and the convex portion 71 can be completely engaged even if the connecting member 72 is removed.

The auxiliary connecting member 76 that connects the segment core pieces 18 of the strip-shaped iron core piece 12 has the same structure as the horizontal plate portion 74 of the connecting member 72.
In the manufacturing method of the strip-shaped core piece used for the wound laminated core according to the sixth embodiment, the strip-shaped core pieces 11 and 12 are kept constant by the connecting member 72 and are connected by the connecting portion 68 by the auxiliary connecting member 76. The iron core piece 18 is kept straight.

In the manufacturing method of the strip-shaped core piece used for the wound laminated core according to the seventh embodiment of the present invention shown in FIG. 4B, the strip-shaped core pieces 11, 12 are the yoke pieces of the adjacent magnetic pole piece portions 15, 16. It is separated at the center position of the part, and has a concave part 70 and a convex part 71 to be fitted in that part. The strip-shaped core pieces 11 and 12 adjacent in the width direction are connected by connecting members 61 and 62 so that the strip-shaped core pieces 11 and 12 hold a predetermined distance. In this embodiment, the auxiliary connecting member is not provided, but the interference between the strip-shaped core pieces 11 and 12 can be prevented with only the connecting members 61 and 62.

In the embodiment shown in FIG. 4B, the connecting portions 67 and 68 are formed not at the magnetic pole piece portions 15 and 16 but at the center of the yoke piece portion connecting them. On the other hand, in the eighth embodiment of the present invention shown in FIGS. 5 (A) and 5 (B), one magnetic pole piece is divided into two, and the connecting portions 19 and 20 are provided in the central yoke piece. Then, the connecting portion 19 was formed in the central yoke piece portion of the magnetic pole piece portions 21 and 22 divided into two, and the connecting portion 20 was formed in the central yoke piece portion of the magnetic pole piece portions 23 and 24. And the connection members 61 and 62 which connect the strip | belt-shaped iron core pieces 11 and 12 in the radial direction inner side of the magnetic pole piece parts 21 and 22 were provided.
That is, also in this embodiment, although the auxiliary connecting member is not provided, the parallelism of the strip-shaped core pieces 11 and 12 can be ensured only by the connecting members 61 and 62, and interference of the strip-shaped core pieces 11 and 12 can also be prevented. .

The present invention is not limited to the above-described embodiment, and the configuration thereof can be changed without changing the gist of the present invention.
In addition, the connecting member and the auxiliary connecting member in the above embodiment can be used interchangeably in each embodiment.
And although the said embodiment demonstrated 2 strip | belt-shaped core pieces, this invention is applied even if it is 3 or more strips.

10: thin strip material, 11, 12: strip-shaped iron core piece, 13, 14: split yoke piece part, 15, 16: magnetic pole piece part, 17, 18: segment iron core piece, 19, 20: connecting part, 21-24: Magnetic pole piece part, 25, 26: Opening part, 27: Connecting member, 28: Auxiliary connecting member, 30: Recessed part, 31: Convex part, 32: Semicircular part, 33: Rectangular part, 35: Horizontal plate part, 36: One side end portion, 37: other side end portion, 38: vertical plate portion, 40: mold, 41: connecting member punched portion, 42: separator, 43, 44: reel, 45: wound laminated iron core, 47: connecting member 48: horizontal plate portion, 50: connecting member, 51: horizontal plate portion, 52: auxiliary connecting member, 53: vertical plate portion, 54: connecting member, 55: horizontal plate portion, 57: auxiliary connecting member, 58: vertical Plate part, 61, 62: Connecting member, 63, 64: Auxiliary connecting member, 67, 68: Connecting part, 70: Recessed part, 71 Protrusions, 72: connecting member, 74: Side plate, 75: vertical plate portion, 76: auxiliary connecting member

Claims (7)

A plurality of rows of strip-shaped core pieces each having one or a plurality of magnetic pole pieces connected to each other at a connecting portion are formed on a single thin strip material, and the plurality of rows of strip core pieces are separated and connected In the manufacturing method of the strip-shaped core piece used for the wound laminated iron core that is sequentially folded at the part to produce the wound laminated iron core,
The plurality of rows of strip-shaped core pieces are formed by aligning the position of the connecting portion with the traveling direction of the thin strip material, and the strip-shaped core pieces adjacent in the width direction of the thin strip material are coupled by a connecting member, A manufacturing method of a strip-shaped core piece used for a wound laminated core, wherein when the plurality of rows of strip-shaped core pieces are individually separated, the connecting member is cut off. The manufacturing method of the strip | belt-shaped core piece used for the wound laminated iron core of Claim 1 WHEREIN: The said connection member has a horizontal-plate part holding the fan-shaped opening formed in the radial inside of the said connection part. The manufacturing method of the strip | belt-shaped iron core piece used for the wound laminated iron core characterized by these. The manufacturing method of the strip-shaped core piece used for the wound laminated iron core according to claim 2, wherein the opposing sides of the opening have arc-shaped recesses and arc-shaped protrusions that are engaged when bent, respectively. The end of the horizontal plate portion is connected to the center of the portion, and the width of the connection end portion of the horizontal plate portion is narrower than the maximum width of the arc-shaped concave portion and the arc-shaped convex portion. A method of manufacturing a strip-shaped core piece used for a laminated core. The manufacturing method of the strip | belt-shaped core piece used for the wound laminated iron core of Claim 3 WHEREIN: The connection edge part of the said horizontal plate part is orthogonally arranged by the said edge in which the said arc-shaped convex part and the said arc-shaped recessed part are formed. The manufacturing method of the strip | belt-shaped iron core piece used for the wound laminated iron core characterized by these. The manufacturing method of the strip-shaped core piece used for the wound laminated iron core according to claim 1, wherein the connecting member connects a part of the strip-shaped core piece adjacent to the magnetic pole piece portion on the end side of the segment core piece. The manufacturing method of the strip-shaped core piece used for the wound laminated iron core characterized by having a board part. In the manufacturing method of the strip | belt-shaped core piece used for the wound laminated core of any one of Claims 2-4, the said connection member is the connection part of the said strip | belt-shaped core piece adjacent to the center of the said horizontal plate part, or a connection part vicinity. The manufacturing method of the strip-shaped core piece used for the wound laminated core characterized by having the vertical board part which connects a part of. In the manufacturing method of the strip | belt-shaped core piece used for the wound laminated core of any one of Claims 1-6, the said connection member which connects the said strip-shaped core piece is the said strip | belt shape connected with the said connection member from the said thin strip material. The strip-shaped core piece from which the connecting member has been removed is separated through a separator after being removed by the connecting member punching portion provided in the mold for manufacturing the core piece or provided outside the mold. The manufacturing method of the strip | belt-shaped iron core piece used for the wound laminated iron core characterized by the above-mentioned.

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