KR100564090B1 - Stator core of motor - Google Patents

Abstract

The present invention relates to a stator core of a motor, and more particularly, by coupling the joint portions of the core pieces connected to each other by engaging the coupling protrusion and the coupling groove, not only can the coupling force of neighboring core pieces be increased, but also the manufacturing cost is reduced and productivity is improved. A stator core of a motor that can be heightened.

The stator core of the motor according to the present invention is formed in an annular shape by connecting a plurality of arc-shaped core pieces each of which at least one core value protrudes in a radial direction, and neighboring core pieces are arranged in a circumferential direction at the ends of one side of the core pieces which are in contact with each other. Into the stator core of the motor, which is coupled to each other by the engagement of the rail-shaped coupling protrusion extending in the axial direction and the channel-shaped coupling groove extending in the circumferential direction at a predetermined depth in the circumferential direction. In this case, at least a portion of the engaging core and the coupling groove of the neighboring core pieces are deformed by caulking.

Stator core, core piece, caulking

Description

Stator core of the motor {STATOR CORE OF MOTOR}

1 is a perspective view showing a stator core of a motor according to an embodiment of the present invention

Figure 2 is a perspective view showing the joint portion of the stator core of the motor according to an embodiment of the present invention

3 is a schematic diagram conceptually illustrating a direction in which a joint portion of a core piece is deformed to caulking in a stator core of a motor according to an embodiment of the present invention;

Figure 4 is a perspective view showing the joint portion of the stator core of the conventional motor

<Short description of the major reference symbols>

1 Stator core 2a, 2b, 2c, 2d, 2e, 2f core piece

3 cores 4 engaging projection

5 Coupling groove 6 Caulking deformation

The present invention relates to a stator core of a motor, and more particularly, by coupling the joint portions of the core pieces connected to each other by engaging the coupling protrusion and the coupling groove, not only can the coupling force of neighboring core pieces be increased, but also the manufacturing cost is reduced and productivity is improved. It relates to a stator core of a motor that can be raised.

In general, the stator core of the motor is formed in an annular shape by connecting an arcuate core piece formed of a laminated iron plate. Each of the core pieces has a plurality of core teeth protruding in the radial direction and extending in the radial direction. The cores protrude from the inside of each of the core pieces in the case of an inner rotor type motor and extend radially inward, and in the case of the outer rotor type motor, each of the core pieces It protrudes from the outside and extends radially outward. The core pieces are connected to each other, and in order to connect the core pieces, the core pieces are provided with rail-shaped coupling protrusions and channel-shaped coupling grooves engaged with each other at the ends in the circumferential direction. 4 is a perspective view illustrating neighboring core pieces 12a and 12b in which the engaging protrusion 14 and the engaging groove 15 are engaged with each other as described above. Referring to FIG. 4, the coupling protrusion 14 and the coupling groove 15 are provided to correspond to each other in the adjacent core pieces 12a and 12b. That is, the engaging projection 14 is formed in the shape of a rail extending in the axial direction protruding at a predetermined height in the circumferential direction at the end of one core piece 12a among the adjacent core pieces 12a, 12b. The groove 15 is formed in a channel shape extending in the axial direction by being recessed at a predetermined depth in the circumferential direction at the end of the other core piece 12b to be engaged with each other when the core pieces 12a and 12b are connected. In particular, referring to the drawings, the engaging projection 14 is formed to increase in width in the height direction (circumferential direction of the core piece) of the projection, and the engaging groove 15 has a width corresponding to the width of the engaging projection 14. The core pieces 12a and 12b are not separated in the circumferential direction when the coupling protrusion 14 and the coupling groove 15 are engaged with each other so as to become smaller in the depth direction (circumferential direction of the core piece). Adjacent core pieces 12a and 12b provided with the engaging protrusion 14 and the engaging groove 15 having the shape as described above slide in the axial direction while the engaging projection 14 and the engaging groove 15 are formed. Are connected by a bond.

As described above, a predetermined insulator and a coil are wound around the annular stator core formed by joining the plurality of core pieces to be fixed to a non-rotating part of the motor.

However, the conventional stator core has a weak coupling force because it has a structure in which the coupling protrusion and the coupling groove slide in the axial direction. In particular, such a stator core as described above is vulnerable to axial vibration or axial shock.

In order to solve the above problems, conventionally, a joint portion to which a core piece is connected is welded. Referring to FIG. 4, the stator core of the conventional motor is welded 16 to the joint portions of the inner surfaces of neighboring core pieces 12a and 12b connected to each other.

However, the conventional stator core has a disadvantage in that the work process is complicated because the pair of core pieces are slid to couple the coupling protrusions and the coupling grooves to connect the plurality of core pieces, and the joint parts are welded. In particular, when the stator core is used in an outer rotor type motor as shown in the drawing, core values are formed on the outer side of the stator core, so that the joints are preferably welded on the inner side. It has a very complicated disadvantage.                         

In addition, the conventional stator core has a disadvantage that the physical properties of the welded core piece joint portion is changed by applying heat to the stator core by welding.

In addition, the conventional stator core has a disadvantage in that a separate material such as a welding rod is consumed in the welding operation, and a separate manufacturing equipment and personnel are required for the welding operation.

The present invention is to solve the above problems, an object of the present invention is to slid a pair of neighboring core pieces in the axial direction by deforming the joint portion of the core piece coupled to the engaging projection and the coupling groove by caulking joint of the core piece The parts mesh with each other to provide a stator core of the motor with increased binding force of the core pieces.

In addition, another object of the present invention is to provide a stator core of a motor having a simple manufacturing process because the caulking for deforming the joint portion of the core piece is made simultaneously with the operation of connecting the core piece while sliding the engaging projection and the coupling groove in the axial direction. .

Further, another object of the present invention is to provide a stator core of a motor in which the physical properties of the core piece are maintained as it is by not welding the joint portions of the core piece.

In addition, another object of the present invention is not only a separate material is consumed in the cogging operation of the core piece, but also requires a separate equipment and personnel because the coking operation is made at the same time by sliding the coupling projection and the coupling groove of the core piece. It does not provide a stator core for the motor.

The stator core of the motor according to the present invention for this purpose is formed in an annular shape by connecting a plurality of arc-shaped core pieces each of which at least one core value protrudes in a radial direction, the neighboring core pieces are in contact with each other The rail-shaped engaging protrusion protruding at a predetermined height in the circumferential direction at the end of the core piece and the channel-shaped engaging groove extending in the axial direction are engaged with each other by being recessed at a predetermined depth in the circumferential direction at the end of the other core piece which is in contact with each other. In the stator core of the combined motor, the joint portion of the neighboring core piece is characterized in that at least a portion is deformed by caulking.

In addition, the stator core of the motor according to the present invention is characterized in that the joint portion of the neighboring core piece deformed by the caulking is a portion where the engaging projection and the engaging groove are engaged with each other.

Hereinafter, the stator core of the motor according to the present invention will be described in detail with reference to the embodiment shown in the drawings.

1 is a perspective view showing a stator core of a motor according to an embodiment of the present invention.

The stator core 1 of the motor according to the embodiment of the present invention is formed in an annular shape by connecting six core pieces 2a, 2b, 2c, 2d, 2e, and 2f having an arc shape. Each of the plurality of core pieces 2a, 2b, 2c, 2d, 2e, and 2f has six core teeth 3 protruding from the outer surface in the radial direction to have a predetermined length in the radial direction outward. The figure shows an embodiment of a stator core used in an outer rotor type motor. That is, it is apparent that the present invention can be applied not only to the stator core used for the outer rotor type motor shown in the drawings, but also to the stator core used for the inner rotor type motor. That is, in the case of a stator core used for an inner rotor type motor, the core value protrudes from the inner side in the radial direction and extends in the radial direction inward.

The plurality of core pieces 2a, 2b, 2c, 2d, 2e, and 2f as described above are connected to form an annular stator core 1. Figure 2 is a perspective view showing the joint portion of the stator core of the motor according to an embodiment of the present invention.

Referring to Fig. 2, the pair of core pieces 2a and 2b adjacent to each other are connected in contact with each other at their ends in the circumferential direction. At the ends of the pair of core pieces 2a and 2b, engaging projections 4 and engaging grooves 5 engaged with each other are formed.

The engaging projection 4 is formed in the shape of a rail extending in the axial direction protruding at a predetermined height in the circumferential direction at the end of the one side core piece (2a) in contact with the end of the other core piece (2b).

The coupling groove 5 is for receiving and coupling the coupling protrusion 4, and is recessed in a circumferential direction at a predetermined depth in the end of the other core piece 2b contacting each other with the end of the one core piece 2a. It is formed in the shape of a channel extending in the axial direction.

In particular, the rail-shaped coupling protrusion 4 and the channel-shaped coupling groove 5 are coupled to or separated from each other by sliding in the axial direction, but have a shape that is not coupled or separated in the circumferential direction. That is, the width of the rail-shaped engaging protrusion 4 is increased in the height direction (corresponding to the circumferential direction of the core piece), and the width of the channel-shaped engaging groove 5 is the rail-shaped engaging protrusion 4. Is increased in the depth direction (corresponding to the circumferential direction of the core piece) in response to the change in the width of the engaging projection 4 so that is accommodated and coupled. As a result, the pair of core pieces 2a and 2b that are further slid in the axial direction are not separated in the circumferential direction when the coupling protrusion 4 and the coupling groove 5 are coupled to each other.

However, the neighboring core pieces 2a and 2b connected by the coupling of the coupling protrusion 4 and the coupling groove 5 having the shape as described above may still be separated from each other by sliding in the axial direction. Therefore, the present invention is characterized in that a portion 6 of the joint portion of the neighboring core pieces 2a, 2b is hit by a caulking chisel and deformed. Accordingly, the neighboring core pieces 2a and 2b are engaged with each other by deforming the joint portion by caulking so that they are not separated in the axial direction.

In particular, the joint portion deformed by caulking as described above is preferably a portion 6 in which the engaging projection 4 and the engaging groove 5 are engaged with each other. Accordingly, in the portion where the coupling protrusion 4 and the coupling groove 5 are engaged, the end faces abutting with each other are positioned from the portion perpendicular to the circumferential direction of the neighboring core pieces 2a and 2b to the portion parallel to the circumferential direction. Thus, the deformation of the joint portion is made in various directions from the circumferential direction to the radial direction, thereby ensuring a secure engagement of the core pieces 2a and 2b.

3 conceptually illustrates a direction in which a joint portion of a core piece is deformed to caulking in a stator core of a motor according to an embodiment of the present invention.

Referring to the drawings, 6a is a portion in which the direction S1 of the end faces abutting each other of neighboring core pieces 2a and 2b is deformed by caulking at a portion perpendicular to the circumferential direction C of the core pieces 2a and 2b. 6b is a portion deformed by caulking at a portion at which the engaging projection 4 and the engaging groove 5 are engaged with each other, in which the directions S2 of the end faces abutting each other form various angles with respect to the circumferential direction C. In 6a, the deformation direction D1 of the joint part by caulking is parallel to the circumferential direction C, but in 6b, the deformation direction D2 of the joint part by caulking has various angles with respect to the circumferential direction C. Achieve. Therefore, when caulking the portion where the engaging projection 4 and the engaging groove 5 is coupled as shown in 6b, since the portion is deformed in various directions, the adjacent core pieces 2a and 2b are reliably engaged.

Stator core of the motor according to the present invention having the configuration as described above by sliding the neighboring core piece in the axial direction to deform the joint portion of the core piece combined with the engaging projection and the coupling groove by caulking joints of the core piece to each other to engage the core piece. It has the advantage that the bonding force is increased.

In addition, the stator core of the motor according to the present invention has a simple advantage because the caulking operation to deform the joint portion of the core piece is made simultaneously with the operation of connecting the core piece while sliding the engaging projection and the coupling groove in the axial direction.

In addition, the stator core of the motor according to the present invention has the advantage that the physical properties of the core piece is maintained as it is by not welding the joint portion of the core piece.

In addition, the stator core of the motor according to the present invention not only consumes a separate material for the cogging work of the core piece, but also the coking work is performed at the same time as sliding the coupling protrusion and the coupling groove of the core piece to separate equipment and personnel. This has the advantage that it is not necessary.

The stator core of the motor described above and shown in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical idea of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the claims below, and the embodiments which have been improved and changed without departing from the gist of the present invention will be apparent to those skilled in the art. It will be said to belong to the protection scope of the present invention.

Claims (2)

Each of the at least one core tooth is formed in an annular shape by connecting a plurality of arcuate core pieces protruding in a radial direction, and neighboring core pieces protrude at a predetermined height in a circumferential direction and extend in an axial direction to the ends of one core piece in contact with each other. In the stator core of the motor coupled to the rail-shaped engaging projection and the channel-shaped coupling grooves extending in the circumferential direction at a predetermined depth in the circumferential direction at the end of the other core piece in contact with each other, The stator core of the motor, characterized in that at least a part of the coupling core and the coupling groove of the neighboring core pieces are deformed by caulking. delete

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