KR100975993B1 - Stator core for motor - Google Patents

Abstract

The present invention provides a fitting protrusion formed at an end portion of a core base forming one side of the notch portion with a notch portion formed between neighboring core bases, and formed at an end portion of a core base forming the other side of the notch portion and bending the notch portion. A stator core for a motor having a fitting recess groove coupled to a protrusion, wherein the fitting protrusion and the fitting recess groove are partially overlapped at least in a radial direction at a fitting surface to be coupled to each other when bending notches of the notch part. Any one of the fitting groove portion is characterized in that it is coupled to the other of the fitting projection and the fitting groove portion in a state in which the elastic deformation in the radial direction by the pressure due to the overlap in the fitting surface. Thereby, there is provided a stator core for a motor whose shape is improved so that the shape of the arc-shaped core achieved by the deformation of the straight core can be stably maintained without additional processing.

BLDC motor, stator, core

Description

Stator core for motors {STATOR CORE FOR MOTOR}

The present invention relates to a stator core used in an electric motor such as a BLDC motor.

Stator cores for motors are manufactured by bending long strip-shaped straight cores formed by press molding steel sheets into arc-shaped cores, and then joining both ends in the circumferential direction between the cores. .

Hereinafter, the stator core for a motor in the present specification means a comprehensive concept including not only a stator core of a completed form but also the above-described straight core and arc-shaped core in a manufacturing process thereof.

In the conventional manufacturing process of the stator core for the motor, as shown in Figure 1, by pressing a steel sheet, the core core (core teeth, 11) and the core base (core base, 12) is a straight core 10 is formed repeatedly repeatedly Start by getting

Adjacent core bases 12 of the straight core 10 are integrally connected to each other via the notch portion 13, as shown in the enlarged view of FIG.

The notch 13 includes a bending deformation portion 14 connecting the neighboring core bases 12, an elliptical hole 15, a tangent portion 16, 17, and an arc-shaped fitting protrusion 18 sequentially formed thereunder. And an arc-shaped fitting groove 19.

This straight core 10 is pressed (bending) in the direction of the arrow of FIG. 1 and deformed into an arc-shaped core 20 as shown in FIG. As shown in the enlarged view of FIG. 2, in the arcuate core 20, both tangential portions 16 and 17, the arcuate fitting protrusion 18, and the arcuate fitting recess 19 are brought into coincident contact with each other. .

3 shows a stator core 30 of a completed form formed by connecting the arc-shaped cores 20 in the circumferential direction (four in the figure).

In addition, the arc-shaped fitting protrusion 18 and the arc-shaped fitting yo are coupled to each other in the notch 13 as shown in the enlarged view of FIG. 3 in order to prevent the shape of the stator core 30 which forms a circle. A caulking portion 31 is formed between the groove portions 19 through a caulking operation.

However, according to the conventional stator core as described above, the coupling force between the arc-shaped fitting protrusion 18 and the arc-shaped fitting recess 19 is weak when separated from the straight core 10 to the arc-shaped core 20 so as to be separated from each other. There was a problem that the arc shape of the back is not properly maintained.

In addition, in order to maintain the shape of the arcuate core 20 or the circular stator core 30 as described above, that is, to reinforce the coupling force between the arcuate fitting protrusion 18 and the arcuate fitting recess 19. The problem has been raised that the work maneuver increases as the caulking process is needed.

Accordingly, an object of the present invention is to solve the above-mentioned problems of the prior art, and the stator for a motor whose shape is improved so that the shape of the arc-shaped core achieved by the deformation of the straight core can be stably maintained without additional processing. To provide the core.

In order to achieve the above object, the present invention, the fitting projection formed on the end of the core base constituting one side of the notch portion with the notched portion formed between neighboring core base, and formed on the end of the core base constituting the other side of the notch portion A stator core for a motor having a fitting recess for engaging with the fitting protrusion during bending deformation of the notch portion, wherein the fitting protrusion and the fitting recess groove are partially overlapped at least in a radial direction at a fitting surface that is engaged with each other during bending deformation of the notch portion. And one of the fitting protrusion and the fitting groove is coupled to the other of the fitting protrusion and the fitting groove in a state in which elastic deformation is made in the radial direction by pressing due to the overlap in the fitting surface. A stator core for a motor is provided.

Here, the fitting protrusion may be formed at the radially distal end portion of the core base forming one side of the notch part so that elastic deformation may be made in the radial direction due to the pressure on the fitting surface when the fitting protrusion is coupled to the fitting recess groove.

Further, in order to achieve the above object, the present invention, in the stator core for a motor formed with a notch between the neighboring core base, the core base constituting one side of the notch is a semi-circular or semi-elliptical hole from the inside of the notch, the semi-circular or A first base portion extending in the semi-elliptic hole, and a fitting protrusion extending in the first tangential portion, the core base forming the other side of the notch portion is a semi-circular or semi-elliptical hole from the inside of the notch portion, the semi-circular or semi-elliptic A second tangential portion extending from the hole to correspond to the first tangential portion, and a fitting groove portion extending from the second tangential portion to engage with the fitting protrusion when bending the notch portion, and the fitting protrusion and the fitting groove are provided. The portion is at least radially in the fitting surface to be engaged with each other during bending deformation of the notch portion. The fitting protrusion is formed to be overlapped with each other, and the fitting protrusion provides a stator core for a motor, wherein the fitting protrusion is coupled to the fitting recess groove in a state in which elastic deformation is made in a radial direction by pressing due to overlapping in the fitting surface.

Here, the fitting projection is formed so as to project inwardly the notch portion in the radial end portion of the core base forming one side of the notch portion, the fitting groove groove portion is the furnace in the radial end portion of the core base forming the other side of the notch portion It is formed concave with respect to a tooth, and the said fitting surface may make an outer edge part in each radial direction of the said fitting projection and the said fitting recess groove part.

The first tangential portion and the second tangential portion may be configured to form an inclined tangential portion inclined at a predetermined angle from a radial direction.

According to the stator core for a motor according to the present invention as described above, because the fitting protrusion and the fitting groove portion radially overlaps in the fitting surface to be coupled to each other, during the bending deformation from the straight core to the arc-shaped core of the fitting protrusion and the fitting groove portion One side is elastically deformed, thereby pressing the other side in the radial direction to strengthen the bonding force between each other, thereby maintaining the shape of the arc-shaped core without a separate process such as caulking.

The stator core for the motor according to the embodiment of the present invention refers to the straight core 100 shown in FIG. 4 and the arc-shaped core 200 shown in FIG. 5.

The straight core 100 of FIG. 4 shows the stator core for the motor before bending deformation, and the arc-shaped core 200 of FIG. 5 shows the stator core for the motor after bending deformation.

Referring to FIG. 4, the straight core 100 is press-molded a steel sheet to form a band in which core teeth 110 and a core base 120 are repeatedly formed left and right.

Adjacent core bases 120, 120 ′ of the straight core 100 are integrally connected to each other via the notch 130 as shown in the enlarged view of FIG. 4.

The notch 130 includes a bending deformation portion 131 connecting the neighboring core bases 120 and 120 'and an elliptical hole 132, a tangential portion 133 and 134, and a fitting protrusion 135 sequentially formed thereunder. ) And the fitting groove 136.

In practice, neighboring core bases 120 and 120 ′ are elliptical holes 132 and tangential portions constituting a part of the notch 130 at one end corresponding to each other with the notch 130 interposed therebetween. 133 and 134, the fitting projection 135 and the fitting groove 136 is formed.

Specifically, in the enlarged view of FIG. 4, the left core base 120 extends below the semi-elliptical hole 132a and the semi-elliptical hole 132a that form part of the elliptical hole 132 at the right end thereof. The tangential part 133 and the fitting protrusion 135 extended below the first tangential part 133 are provided.

Correspondingly, in the enlarged view of FIG. 4, the core base 120 ′ on the right side has a semi-elliptic hole 132b and a semi-elliptic hole 132b which form another part of the elliptical hole 132 at the left end thereof. It has a second tangential portion 134 extending to correspond to the first tangential portion 133, and a fitting recess 136 extending below the second tangential portion 134.

Here, the fitting protrusion 135 is formed to protrude to the inside of the notch 130, the fitting groove 136 is formed concave with respect to the notch 130.

As shown in the enlarged view of FIG. 4, the straight core 100 having the above configuration is deformed into the arc-shaped core 200 of FIG. 5 by pressing (bending) in the direction of the arrow by an external force.

At this time, the notch portion 130 is bent deformation portion 131 is bent deformation, as shown in the enlarged view of Figure 5, the tangential portion (133, 134) of both sides contact so as to match each other, the fitting projections on both sides The 135 and the fitting recess 136 are coupled to each other.

When the plurality of arcuate cores 200 of FIG. 5 are connected in the circumferential direction (four in the figure), a stator core (see FIG. 3) of a completed form can be obtained, which are stacked in plurality and provided in the motor.

On the other hand, the stator core for the motor according to the embodiment of the present invention is formed so that the fitting projection 135 and the fitting groove 136 is partially overlapped in the radial direction of the fitting surface to be coupled to each other when bending notch 130. do.

That is, as shown in FIG. 6A, the fitting surface 135a and the fitting surface 136a respectively form an outer end in the radial direction of the fitting protrusion 135 and the fitting recess 136, and in the radial direction of each other. It is formed to overlap by a predetermined thickness (t).

Accordingly, as shown in FIG. 6B, when the fitting protrusion 135 and the fitting recess 136 are actually coupled, the lower fitting protrusion (3) is formed by the overlapped thickness t between the fitting surfaces 135a and 136a. The coupling between the fitting surfaces 135a and 136a is achieved while the 135 is elastically deformed downwardly (ie, radially).

Therefore, the fitting protrusion 135 and the fitting recess 136 can maintain a firmly coupled state through the pressure contact of the fitting surfaces 135a and 136a.

The coupling force between the fitting protrusion 135 and the fitting recess 136 can be adjusted by changing the overlapping thickness t of the fitting surfaces 135a and 136a and the width w in the circumferential direction thereof.

In addition, the fitting protrusion 135 is a furnace of the left core base 120, as shown in the enlarged view of FIG. 4 in order to facilitate the elastic deformation in the radial direction when coupled with the fitting groove 136. It may be provided at the lower end of the tooth 130 side, that is, the distal end in the radial direction. According to this, since the thickness of the flesh in the radial direction of the fitting projection 135 can be provided narrow, it can be more easily deformed in the downward direction (radial direction) when the fitting groove groove 136 is coupled.

Referring to the enlarged view of FIG. 4, the first tangential portion 133 of the left core base 120 and the second tangential portion 134 of the right core base 120 ′ are each slightly inclined clockwise from the radial direction. It extends from the elliptical hole 132 to form a slope tangent. As a result, when contacting with each other as shown in the enlarged view of FIG. 5, it is possible to prevent to some extent from the pressing force in the circumferential direction to each other.

On the other hand, the shape of the radially overlapping portion between the fitting projection 135 and the fitting surface 135a, 136a of the fitting groove 136 is not limited to the bar shown in Figure 6a, various modifications as necessary This is possible.

7A to 7C respectively illustrate modifications of the radially overlapping portions between these fitting surfaces.

In FIG. 7A, an end portion of the fitting projection 135 ′ side fitting surface 135 a ′ protrudes in a radial direction and overlaps one end of the fitting groove 136 ′ side fitting surface 136 a ′ formed in a relatively circumferential direction. It is.

On the contrary, in Fig. 7B, the fitting projection 135 " side fitting surface 135a " is formed relatively linearly in the circumferential direction, and the end of the fitting recess 136 " side fitting surface 136a " It protrudes in a radial direction and overlaps with one end of the fitting surface 135a "of the fitting protrusion 135".

In FIG. 7C, the fitting surface 135a '' 'of the fitting protrusion 135' '' and the fitting surface 136a '' 'of the fitting recess 136' '' are inclined at a predetermined angle from each other in the circumferential direction. It is formed so that each part may overlap radially in a photographic state.

In each case of FIGS. 7A to 7C, the fitting protrusion 135 ′ and the fitting recess 136 ′ are firmly coupled to each other by pressure contact through elastic deformation in the fitting surface 135 a ′, 136 a ′, etc. State can be maintained.

Meanwhile, in the above embodiment, the fitting protrusion 135 and the fitting recess 136 are described as being formed at the radial end portions of the core bases 120 and 120 ', respectively, but the present invention is not limited thereto. 120, 120 ') may be located in the middle portion of the interface contacting. Of course, in this case, when the fitting protrusion 135 and the like fitting portion 136 are coupled to each other, it may not be easy to elastically deform in the radial direction, so that the amount overlapping between the fitting surfaces 135a and the like (136a, etc.) (t ) Needs to be adjusted.

In addition, in the above-described embodiment, the fitting protrusion 135 and the like have been described as elastically deformed in the radial direction when the fitting protrusion 135 and the fitting recess 136 are coupled, but the present invention is not limited thereto. The fitting recess 136 may be formed to be deformed. Of course, at this time, the thickness of the flesh in the radial direction of the fitting recess 136 or the like needs to be provided narrow.

In addition, the stator core for the motor described above is only an example to help understanding of the present invention and should not be understood as limiting the scope of the present invention to the technical scope.

The scope of the invention to the technical scope is defined by the claims and equivalents described below.

1 is a front view showing a straight stator core according to the prior art,

2 is a front view showing an arc-shaped stator core obtained by deforming the straight stator core of FIG. 1;

3 is a front view showing a stator core for a motor of a completed form obtained by successively plural arc-shaped stator cores in FIG.

4 is a front view showing a straight stator core according to an embodiment of the present invention;

5 is a front view showing an arc-shaped stator core obtained by deforming the straight stator core of FIG. 4;

6A and 6B are enlarged views of region “A” of the arcuate stator core of FIG. 5, FIG.

7A to 7C are partially enlarged views showing modifications of the stator core according to the embodiment of the present invention, respectively.

        <Explanation of symbols for the main parts of the drawings>

100: straight stator core 110: core value

120: core base 130: notch

131: bending deformation portion 132: oval hole

133, 134: Tangent 135: Fitting projection

135a, 136a: fitting surface 136: fitting groove

200: arc-shaped stator core

Claims (5)

A fitting protrusion formed at an end portion of the core base forming one side of the notch portion with a notch portion formed between neighboring core bases, and formed at an end portion of the core base forming the other side of the notch portion to be coupled to the fitting protrusion when bending deformation of the notch portion. In the stator core for a motor provided with a fitting recess, The fitting protrusion and the fitting recess groove are partially overlapped at least radially from the fitting surface to be coupled to each other during bending deformation of the notch portion, and any one of the fitting protrusion and the fitting recess groove is pressurized due to the overlap in the fitting surface. The stator core for the motor, characterized in that coupled to the other one of the fitting projection and the fitting groove in the elastic deformation in the radial direction by. The method of claim 1, The fitting protrusion is formed in the radially distal end portion of the core base forming one side of the notch portion is a stator for a motor, characterized in that the elastic deformation in the radial direction due to the pressing on the fitting surface when the fitting groove groove portion core. In a stator core for a motor having a notch between neighboring core bases, The core base forming one side of the notch portion includes a semicircular or semi-elliptical hole, a first tangential portion extending from the semicircular or semi-elliptical hole, and a fitting protrusion extending from the first tangential portion from the inside of the notch portion. The core base forming the other side of the notch portion extends from the inside of the notch portion to a semi-circular or semi-elliptical hole, the semi-circular or semi-elliptical hole, and is formed to correspond to the first tangential portion, and extends to the second tangential portion. It is formed and provided with a fitting recess groove for engaging with the fitting projection when bending notch portion, The fitting protrusion and the fitting recess groove are partially overlapped at least in the radial direction at the fitting surface to be coupled to each other during bending deformation of the notch portion, the fitting protrusion is elastically deformed in the radial direction by the pressure due to the overlap in the fitting surface The stator core for the motor, characterized in that coupled to the fitting groove groove in this state. The method of claim 3, The fitting protrusion is formed to protrude inwardly of the notch portion at a radially distal end portion of the core base forming one side of the notch portion, The fitting recess groove is formed concave with respect to the notch portion in the radial end portion of the core base forming the other side of the notch portion, The fitting surface is a stator core for the motor, characterized in that the outer end in the radial direction of the fitting projection and the fitting groove portion. The method according to claim 3 or 4, The stator core for the motor, characterized in that the first tangential portion and the second tangential portion form an inclined tangential portion inclined with respect to the radial direction.

Images