JP2008228506A - Interphase insulating paper and manufacturing method thereof - Google Patents

Abstract

The present invention proposes an interphase insulating paper which has a good yield of insulating paper as a material and can be composed of one piece.
Two vertical leg portions 11 and 11 to be inserted into a slot of a stator core and one end portions of the two vertical leg portions 11 and 11 are connected to each other and arranged outside the stator core. The first lateral leg portion (upper lateral leg portion 12) to be connected is connected to the other ends of the two vertical leg portions 11 and 11, and the first lateral leg portion is disposed outside the stator core. The interphase insulating paper 20 comprises vertical leg portions 11 and 11, a first horizontal leg portion, and a second horizontal leg portion. For one interphase insulating paper piece 10 in which a portion for molding is formed, one of the first and second horizontal leg portions (in this embodiment, the lower horizontal leg portion 13) is used as the vertical leg portion. The interphase insulating paper 20 is formed by turning it over with respect to 11.11.
[Selection] Figure 2

Description

  The present invention relates to an interphase insulating paper used for securing insulation between coil phases of a stator core of a motor.

  Conventionally, many techniques relating to interphase insulating paper used for securing insulation between coil phases of a stator core of a motor are known (see, for example, Patent Documents 1 and 2).

  The interphase insulating paper disclosed in Patent Documents 1 and 2 is substantially the same as the thickness of the stator core, and the two vertical leg portions inserted into the slots, and the ends of the vertical leg portions outside the stator core. It has a horizontal leg portion that performs connection and insulation between the coil ends, and the vertical leg portion and a portion surrounded by the horizontal leg portion are opened to form an opening portion.

  As shown in FIG. 5, the interphase insulating paper 75 having such a structure is generally manufactured by pulling out the insulating paper 70 wound up in a roll shape, the vertical legs 71 and 71, and the horizontal legs. The excess portions 73 and 74 are cut out so that the portions 72 and 72 remain.

  However, in order to correspond to the stator core having a large thickness, it is necessary to ensure a large length of the vertical leg portions 71 and 71 as in the interphase insulating paper 75 shown in FIG. -The surplus part 73 cut out surrounded by 71 and the horizontal leg parts 72 and 72 will become large. Since the cut-out surplus portion 73 is discarded without being used, the yield in manufacturing the interphase insulating paper is extremely deteriorated, that is, the cost is increased.

On the other hand, as shown in FIG. 6, a configuration is disclosed in which convex pieces 81, 82, 84, and 85 that constitute convex portions that function to ensure the insulation of the coil end are configured as separate pieces and joined. There are also documents (see, for example, Patent Document 3). However, in this case, man-hours for joining the pieces are generated, resulting in high costs. In the example shown in FIG. 6, in the configuration A, the convex pieces 81 and 82 need to be bonded to the frame-shaped base piece 83, and in the configuration B, the two vertical legs are attached to the convex pieces 84 and 85. It is necessary to bond the end portions of the piece pieces 86 and 87.
JP 2004-166476 A JP 2006-217707 A JP 2005-110417 A

  Therefore, in view of the above problems, the present invention proposes an interphase insulating paper that has a good yield of insulating paper as a material and can be composed of one piece.

  The problem to be solved by the present invention is as described above. Next, means for solving the problem will be described.

That is, as described in claim 1,
Two vertical leg portions to be inserted into the slots of the stator core, and first lateral leg portions to be disposed outside the stator core while connecting one ends of the two vertical leg portions to each other And an interphase insulating paper that connects the other ends of the two vertical leg portions and includes a second horizontal leg portion that is disposed outside the stator core, the interphase insulating paper being A piece of interphase insulating paper piece formed with a portion for forming the vertical leg, the first horizontal leg, and the second horizontal leg, the first horizontal leg, and In this case, any one of the second lateral legs is turned over with respect to the vertical legs.

Moreover, as described in claim 2,
In the interphase insulating paper piece, an opening surrounded by the two vertical leg portions, the first horizontal leg portion, and the second horizontal leg portion is formed. A portion extending into the opening is configured in one of the horizontal leg portions, and the longitudinal dimension of the vertical leg portion of the extending portion is larger than the dimension in the same direction of the non-extending portion. Also, it will be configured greatly.

Moreover, as described in claim 3,
The first and second lateral legs are each formed with a convex portion for enclosing the coil end by bending.

Moreover, as described in claim 4,
Two vertical leg portions to be inserted into the slots of the stator core, and first lateral leg portions to be disposed outside the stator core while connecting one ends of the two vertical leg portions to each other And the other end of the two vertical legs are connected to each other and a second horizontal leg to be disposed outside the stator core. A step of performing notch molding,
The method for producing interphase insulating paper includes the step of turning one of the first and second horizontal leg portions upside down with respect to the vertical leg portion.

Moreover, as described in claim 5,
After the step of turning over one of the first and second horizontal leg portions with respect to the vertical leg portion, the first and second horizontal leg portions are each bent when being attached to the stator core. And a step of forming a convex part for enclosing the coil end inside.

  As effects of the present invention, the following effects can be obtained.

  In other words, according to the first aspect of the present invention, it is possible to reduce the manufacturing cost as compared with the case where the three-dimensional interphase insulating paper is formed from a plurality of pieces. In addition, since the flipping operation is simple, a large amount of interphase insulating paper can be produced in a short time.

  In the invention described in claim 2, the area of the opening can be reduced, and the yield of insulating paper as a material can be improved.

  In the invention described in claim 3, the three-dimensional interphase insulating paper can be constituted from one piece.

  Further, in the invention described in claim 4, it is possible to keep the manufacturing cost low as compared with the case where the three-dimensional interphase insulating paper is configured from a plurality of pieces. In addition, since the flipping operation is simple, a large amount of interphase insulating paper can be produced in a short time.

  In the invention described in claim 5, since the bending work is simple, a large amount of interphase insulating paper can be produced in a short time.

Next, embodiments of the invention will be described.
As shown in FIG. 1, the insulating paper 1 wound up in a roll shape is pulled out, and the interphase insulating paper pieces 10 and 10 are continuously formed one by one by punching or the like. The interphase insulating paper piece 10 thus formed has an opening 14 formed at the center thereof, and the left and right vertical leg portions 11 and 11 and the left and right vertical leg portions so as to surround the opening portion 14. An upper lateral leg portion 12 that connects the upper portions of 11 and 11 and a lower lateral leg portion 13 that connects lower portions of the left and right vertical leg portions 11 and 11 are formed.

  Further, as shown in FIG. 1, the vertical leg portions 11 and 11 are respectively inserted into slots of a stator core (not shown), and are appropriately designed according to the thickness of the stator core, the width of the slot, and the like. .

  Further, as shown in FIG. 1, the upper lateral leg portion 12 and the lower lateral leg portion 13 are arranged on the outer side in the axial direction of the stator core, respectively, for insulation between the coil ends of each phase. It is. Further, in the state of the interphase insulating paper piece 10 shown in FIG. 1, the lower lateral leg portion 13 is configured such that a portion constituting the vertical width of the lower lateral leg portion 13 protrudes greatly into the opening portion 14. This overhanging portion 13a extends in the direction opposite to the upper lateral leg portion 12 by a turning operation described later.

  Further, as shown in FIG. 1, the opening 14 is appropriately designed according to the arrangement of the slots of the stator core, the thickness of the stator core, and the like. In the present embodiment, the opening 14 is configured symmetrically.

  Further, as shown in FIG. 1, in the upper side leg portion 12 and the lower side leg portion 13, fold lines 15 a, 15 b. By forming creases along 15b..., Convex portions 16 and 17 are formed as shown in FIG. As shown in FIG. 3, when the interphase insulating paper 20 is inserted into the stator core, the convex portions 16 and 17 surround the coils 41 and 42 already inserted in the stator core, Insulation can be secured.

  Using the interphase insulating paper piece 10 configured as described above, the interphase insulating paper 20 is configured by the procedure shown in FIG. First, as in step S1, an interphase insulating paper piece 10 punched into a predetermined shape is prepared. Next, as in step S2, the lower lateral leg portion 13 is turned over so that the upper and lower surfaces thereof are reversed, and the state of step S3 is set. In this reversal process, the upper horizontal leg portion 12 and the vertical leg portions 11 and 11 are not turned over. In the illustrated example, the lower horizontal leg portion 13 and the vertical leg portion 11 are not turned over. -This inversion can be performed by folding the 11 boundary lines 18 and 18 in a mountain.

  Then, as shown in FIG. 2, in step S4, convex lines 16 and 17 are formed by folding each of the polygonal lines 15a, 15b... (See FIG. 1), thereby forming a three-dimensional interphase insulation. Paper 20 is completed. When the convex portions 16 and 17 are formed, the vertical leg portions 11 and 11 are bent, but the vertical leg portions 11 and 11 are inserted into the slots of the stator core and pressed against the coil. Therefore, there is no particular problem.

  As described above, the interphase insulating paper 20 according to the present embodiment includes the two vertical leg portions 11 and 11 to be inserted into the slots of the stator core and the one end portions of the two vertical leg portions 11 and 11. And connecting the first lateral leg portion (upper lateral leg portion 12) to be disposed outside the stator core and the other end portions of the two vertical leg portions 11 and 11, A second lateral leg portion (lower lateral leg portion 13) to be disposed outside the stator core is provided, and the interphase insulating paper 20 includes vertical leg portions 11 and 11 and a first lateral leg portion. For one interphase insulating paper piece 10 formed with a portion for forming a leg (upper lateral leg 12) and a second lateral leg (lower lateral leg 13), the first lateral leg And either one of the second lateral legs (in this embodiment, the lower lateral leg 13) is connected to the vertical leg. It is an be configured by reversing against 11, 11.

  Further, the interphase insulating paper piece 10 includes the two vertical leg portions 11, 11, the first lateral leg portion (upper lateral leg portion 12), and the second lateral leg portion (lower lateral leg portion). An opening 14 surrounded by the portion 13) is formed, and one of the lateral legs (lower lateral leg 13) before being turned upside down extends into the opening 14. The part 13a is configured, and the dimension L1 in the longitudinal direction M of the vertical legs 11 and 11 of the extending part 13a is configured to be larger than the dimension L2 in the same direction M of the part 13b that does not extend. Is.

Further, the above interphase insulating paper 20 is
As shown in FIGS. 1 and 2, the two vertical leg portions 11 and 11 to be inserted into the slots of the stator core are connected to one end portions of the two vertical leg portions 11 and 11, and the stator core The first lateral leg portion (upper lateral leg portion 12) to be disposed outside and the other end portions of the two vertical leg portions 11 and 11 are connected to each other and disposed outside the stator core. Step S1 in which the interphase insulating paper piece 10 having the second lateral leg portion (lower lateral leg portion 13) to be cut is integrally cut from the insulating paper;
In a manufacturing method, including either step S2 of turning one of the first and second horizontal legs (the lower horizontal leg 13 in this embodiment) with respect to the vertical legs 11 and 11 It is to be produced.

  Further, as shown in FIG. 2, after the step S2, the first and second lateral legs are respectively bent so as to surround the coil ends when attached to the stator core by the bending process. Step S3 for forming 17 is included.

And the following effects are acquired by the above structure.
First, in the interphase insulating paper 20 as shown in FIG. 2, the lower lateral leg portion 13 requires a longitudinal width L (step S4) in order to ensure insulation. L can be secured on the opening 14 side. That is, as shown in step S1 of FIG. 2, the lower lateral leg portion 13 having a large width L1 so as to project largely toward the opening 14 is formed, and a large part of the width L (step S4). Is secured on the opening 14 side. As a result, the area of the opening 14 can be reduced, and the yield of insulating paper as a material can be improved.

  Furthermore, in the center of the paper surface of FIG. 4, the interphase insulating paper piece 10 of the present embodiment having the full width W1 before being cut-formed is shown, and the lower lateral leg portion 13 of the interphase insulating paper piece 10 is turned upside down. As shown on the left side of the drawing, the interphase insulating paper piece 10 has a full width W2. If the interphase insulating paper piece 10 is to be configured only by cutting without folding back, the interphase insulating paper piece 10A having the full width W2 shown on the right side of the sheet needs to be configured by cutting. As can be seen from the above, according to the configuration of the present embodiment, the interphase insulating paper piece 10 having the full width W2 wider by the width G than the full width W1 can be configured by the roll of the narrow insulating paper 1 having the full width W1. This makes it possible to reduce the base insulating paper material.

  In the case of the example in FIG. 4, the portion that is discarded without being used is indicated by hatching, but other examples shown on the right side of the drawing are compared with the present embodiment shown in the center of the drawing. In this case, the area of the discarded portion is about 1.25 times that in the present embodiment. Further, considering the case where the present embodiment is changed from the other example on the right side of the page, it is possible to reduce the amount of waste by about 20%. Such a reduction in the amount of waste makes it possible to significantly reduce the manufacturing cost.

  Further, according to the configuration of the present embodiment, after the lower lateral leg portion 13 of the interphase insulating paper piece 10 is turned over, the convex portions 16 and 17 are formed by mountain folding, and the interphase insulating paper having a three-dimensional shape is formed. 20 can be completed, so that the manufacturing cost can be reduced as compared with the case where a three-dimensional interphase insulating paper is formed from a plurality of pieces. In addition, since the flipping and bending operations are simple, a large amount of interphase insulating paper 20 can be produced in a short time.

The figure explaining the interphase insulation paper piece of a present Example. The figure explaining the manufacturing process of phase insulation paper. The figure shown about arrangement | positioning of the convex part in a coil end. The figure explaining the improvement of the yield of the insulating paper used as a material. The figure explaining the conventional interphase insulation paper piece. The figure explaining the interphase insulation paper which consists of the conventional several piece.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Insulation paper 10 Interphase insulation paper piece 11 Vertical leg part 12 Upper side leg part 13 Lower side leg part 13a Extension part 13b Extension part 14 Opening part 16 Convex part 17 Convex part 20 Interphase insulation paper

Claims (5)

Two vertical legs to be inserted into the slots of the stator core;
While connecting one end of the two vertical legs, and a first horizontal leg to be disposed outside the stator core,
An interphase insulating paper that connects the other ends of the two vertical legs and has a second horizontal leg to be disposed outside the stator core,
About one piece of interphase insulating paper piece formed with a portion for constituting the vertical leg, the first horizontal leg, and the second horizontal leg, the first horizontal leg, and Interphase insulating paper constituted by turning any one of the second horizontal leg portions upside down with respect to the vertical leg portion. In the interphase insulating paper piece, an opening surrounded by the two vertical leg portions, the first horizontal leg portion, and the second horizontal leg portion is formed. A portion extending into the opening is configured in one of the horizontal leg portions, and the longitudinal dimension of the vertical leg portion of the extending portion is larger than the dimension in the same direction of the non-extending portion. Is also composed largely,
The interphase insulating paper according to claim 1, wherein: The first and second lateral legs are each formed with a convex portion for enclosing the coil end by bending.
The interphase insulating paper according to claim 2, wherein: Two vertical leg portions to be inserted into the slots of the stator core, and first lateral leg portions to be disposed outside the stator core while connecting one ends of the two vertical leg portions to each other And the other end of the two vertical legs are connected to each other and a second horizontal leg to be disposed outside the stator core. A step of performing notch molding,
Turning any one of the first and second lateral legs against the vertical legs,
A method for producing interphase insulating paper. After the step of turning over one of the first and second horizontal legs with respect to the vertical leg, the coil ends are internally formed by bending each of the first and second horizontal legs. Forming a convex portion for enclosing,
The manufacturing method of the interphase insulation paper of Claim 4 characterized by the above-mentioned.

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