KR101178331B1 - Folding type core for motor stator and motor stator comprising the same - Google Patents

Abstract

PURPOSE: A deployable core for a motor stator and the motor stator including the same are provided to have a simple combination process by combining T-shaped groove parts of one end and the other end to form an H-shaped groove part. CONSTITUTION: A plurality of core pieces(110) has a base section(111) and a teeth section(112). The base section is the shape of a circular arc. The teeth section is extended from the base section. The parts of neighboring base sections are connected. T-shaped groove parts(113,114) are formed to be symmetrical to the core piece.

Description

TYPE CORE FOR MOTOR STATOR AND MOTOR STATOR COMPRISING THE SAME

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a developed core and a motor stator constituted by the plate-shaped core, which is provided in the form of a strip, which is bent in a circle in an assembly process, to be used to form a stator of a motor.

Conventional motors, particularly brushless DC (BLDC) motors, have been constructed by stating a plurality of plate cores in a circle.

As a representative example of the stator configured as described above, Japanese Patent Application Laid-open No. 2000-14057 "Armature structure of a rotor and its manufacturing method" (published date: January 14, 2000), as shown in Figure 1, individually The stacked core 21 is formed by stacking a plurality of cores of the 'T' shape having a plurality of teeth (22) connected to each other in the form of left and right bands stacked.

The laminated core 21 is bent in a circular shape after the bobbin 25 and the coil 24 are coupled to each tooth portion 22 to achieve a stator having a circular shape as a whole.

However, the stator assembled as described above does not have a separate coupling means at the left end and the right end of the laminated core 21, and thus is inconvenient in the manufacturing process due to the configuration of being welded or embedded in a hook to be joined to each other, and thus, the coupling force is insufficient. There was a problem that the frequency of the occurrence of such a defect was high.

It is an object of the present invention to provide a motor stator including a developed core for a motor stator having a structure that can be easily combined after the bending for assembling the stator and can increase the coupling force as a stator compared to the prior art. have.

In order to achieve the above object, the present invention is composed of a plurality of core pieces each having a circular arc-shaped base portion and a tooth portion extending radially from the base portion, and at least a part of which is connected between neighboring base portions to form a band as a whole. In the developed stator core for the motor stator, the core piece of the one end and the other end of the developed stator core for the motor stator is formed with the T-shaped grooves symmetrically to each other on the outer surface in the circumferential direction of the base portion, When the developed core is bent and bent to form a circle, the T-shaped grooves of the one end and the other end are combined with each other to provide a developed core for a motor stator, wherein a single H-shaped groove is formed.

In addition, to achieve the above object, the present invention provides a motor stator using the developed core for the motor stator, the laminated core is formed by stacking a plurality of the developed core for the motor stator; The laminated core is bent to form a circular motor stator comprising a H-beam is inserted into the H-shaped insertion hole formed in the axial direction by the H-shaped grooves of the deployment type core for each motor stator to provide.

According to the development type core for a motor stator and the motor stator including the same according to the present invention, the T-shaped groove portion at one end is merged with the T-shaped groove portion at the other end to form the H-shaped groove at the bending of the developed core. The assembly can be made by a simple process of inserting the H beam after bending and can increase the bonding force as a stator compared to the prior art.

1 is a plan view showing a laminated state of a conventional deployment type core for a motor stator,
2 is a plan view of a developed core for a motor stator according to an embodiment of the present invention;
3 is a perspective view of a laminated core in which the developed core for the motor stator of FIG. 2 is stacked;
4 to 6 are perspective views for explaining a process of assembling the motor stator from the laminated core of FIG.

As shown in FIG. 2, the deployment type core 100 for a motor stator according to an exemplary embodiment of the present invention includes an arc-shaped base portion 111 and a tooth portion extending radially from the base portion 111. Nine core pieces 110 having a 'T' shape having a portion 112 are partially connected between neighboring base portions 111 to form a band shape in the left and right longitudinal direction as a whole.

As for the core piece 110 of the left end part of the developed core 100, the T-shaped groove part 113 is formed in the outer side surface (left side surface in the figure) of the said base part 111 in the circumferential direction.

Correspondingly, the core piece 110 at the right end of the deployable core 100 has a T-shaped groove 114 having the same shape as above on the outer surface (right side in the drawing) of the base portion 111 in the circumferential direction. ) Is formed symmetrically.

According to this shape, as will be described later, when the elongated core 100 is bent and bent to form a circle as a whole, the T-shaped groove portion 113 of the left end is a T-shaped groove portion of the right end ( 114) to form a single H-shaped recess (115 in FIG. 5).

Meanwhile, a process of assembling the motor stator using the deployment type core 100 for the motor stator as described above will be described.

First, a plurality of deployable cores 100 are stacked to form a stacked core 200 as shown in FIG. 3.

Then, the laminated core 200 unfolded in the form of a strip is bent stepwise from the outer end as shown in FIG. 4 to be deformed so as to be circular in its entirety (see FIG. 5).

Accordingly, as shown in the enlarged view of FIG. 5, the deployment type core (100 in FIG. 1) of the motor stator of each layer constituting the laminated core 200 merges both end portions in the circumferential direction thereof and is H-shaped. The groove 115 is formed, and the H-shaped grooves 115 of each layer are stacked on each other to form an H-shaped insertion hole 201 in the axial direction of the laminated core 200.

As the H-shaped insertion hole 201, as shown in FIG. 6, the H beam 202 is inserted (specifically press-fitted) to complete the coupling to the motor stator 200 '.

The motor stator 200 'and the motor stator 200' achieved from the motor stator described above are only one embodiment for better understanding of the present invention, and thus the scope of the present invention is limited to these. It should not be understood.

The scope of the present invention is defined by the appended claims and their equivalents.

100: deployment type core 110 for the motor stator: core piece
111: base portion 112: tooth portion
113, 114: T-shaped groove 115: H-shaped groove
200: laminated core 201: H-shaped insertion hole
202: H beam 200 'motor stator

Claims (2)

In the deployment type core for a motor stator, which consists of a plurality of core pieces each having an arc-shaped base portion and a tooth portion extending radially from the base portion, at least a part of which is connected between neighboring base portions, and has a band shape as a whole. ,
The core pieces of one end and the other end of the deployment type core for the motor stator are each formed with symmetrical T-shaped grooves on the outer surface in the circumferential direction of the base part,
When the expanded core is bent and bent to form a circle, each T-shaped groove of the one end and the other end is merged with each other to form a single H-shaped groove. In the motor stator using the deployment type core for the motor stator of claim 1,
A laminated core formed by stacking a plurality of deployable cores for the motor stator;
And a H beam inserted into an H-shaped insertion hole formed in an axial direction by stacking the laminated cores to form a circle so that the H-shaped grooves of the developed cores for each motor stator are stacked with each other.

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