KR102015215B1 - Rotor assembly for electric pump - Google Patents

Abstract

The present invention relates to a rotor assembly for an electric pump, and to a rotor assembly for an electric pump capable of easily assembling the magnet and preventing the magnet from being separated during rotation of the rotor.
The rotor assembly for an electric pump according to the present invention includes a rotor core, a holder frame and a plurality of magnets. The rotor core is radially protruded on the outer circumferential surface to form a plurality of anti-rotation protrusions spaced at regular intervals along the circumferential direction. The holder frame includes a plurality of holder portions and a pair of ring portions. The plurality of holder parts may be mounted on an outer circumferential surface of the rotor core by an inner side having a step member having a rotation preventing jaw into which the plurality of anti-rotation protrusions may be inserted, and an outer side having wing members extending to both sides along the circumferential direction. The pair of ring portions are coupled to both ends of the plurality of holder portions at both end surfaces of the rotor core. The plurality of magnets are supported by the anti-rotation protrusion at one end along the circumferential direction and supported by the step member in the circumferential direction so that the magnets do not slide when the rotor core is rotated so that the plurality of magnets are pressed by the wing member so as not to be separated from the rotor core. It is mounted to the holder frame on the outer circumferential surface of the rotor core.
In addition, in the rotor assembly for an electric pump according to the present invention, the wing member is provided with a pressing projection extending in one side of the circumferential direction, the locking projection extending in the opposite direction of the pressing projection, the magnet is inserted into the pressing projection Afterwards, the locking protrusion may be shorter than the pressing protrusion so that the locking protrusion may be pressed on the upper portion of the locking protrusion to be mounted on the holder.
In addition, it is preferable that the rotor assembly for the electric pump according to the present invention has a recessed portion recessed in the axial direction, and a plurality of through-holes are formed to reduce the insertion hole and the weight through which the shaft is inserted through the recessed portion. .
According to the present invention, a plurality of anti-rotation protrusions are formed on the rotor core so that a plurality of magnets are supported by the anti-rotation protrusions when the rotor core is rotated. Therefore, it is possible to prevent the plurality of magnets from sliding during rotation of the rotor core.
In addition, according to the present invention, a plurality of magnets mounted on the outer circumferential surface of the rotor core can be pressed by the wing member. Therefore, even if the rotor core rotates, it is possible to prevent the plurality of magnets from being separated from the rotor core.
In addition, according to the present invention, since the through-hole is formed in the rotor core, the weight of the rotor core can be reduced, so that the rotor core can be efficiently rotated.
Further, according to the present invention, the magnet can be easily assembled because the magnet can be inserted into the holder frame.

Description

Rotor assembly for electric pump

The present invention relates to a rotor assembly for an electric pump, and to a rotor assembly for an electric pump capable of easily assembling the magnet and preventing the magnet from being separated during rotation of the rotor.

The motor is driven by the electromagnetic interaction of the rotor and the stator. It rotates by the attractive force and repulsive force of the magnet inserted into the rotor core in the magnetic field formed by the current applied to the stator. In general, the rotor includes a rotor core and a plurality of magnets mounted to the rotor core.

The rotor rotates at high speed, which can cause the magnet to break out of the rotor core. Various rotor assemblies have been applied to prevent this.

The rotor disclosed in Korean Patent Laid-Open No. 10-2015-0087633 and a motor including the same include a rotor core having a plurality of protrusion lines formed along an outer circumferential surface thereof and a plurality of rotor magnets fixed between the plurality of protrusion lines. Rotating can prevent the magnet from falling off.

The conventional rotor and the motor including the same have a plurality of protrusion lines on the outer circumferential surface of the rotor core, and a magnet is fixed between each protrusion line. This is because the magnet is simply fixed between each projection line has a problem that the rotor can be separated by the centrifugal force during the rotation of the rotor.

The present invention is to solve the above problems, the rotor assembly for the electric pump that can not only easily fix the magnet, but also to prevent the magnet from being separated from the rotor core even if the rotor is rotated by pressing the outside of the magnet. The purpose is to provide.

The rotor assembly for an electric pump according to the present invention includes a rotor core, a holder frame and a plurality of magnets. The rotor core is radially protruded on the outer circumferential surface to form a plurality of anti-rotation protrusions spaced at regular intervals along the circumferential direction. The holder frame includes a plurality of holder portions and a pair of ring portions. The plurality of holder parts may be mounted on an outer circumferential surface of the rotor core by an inner side having a step member having a rotation preventing jaw into which the plurality of anti-rotation protrusions may be inserted, and an outer side having wing members extending to both sides along the circumferential direction. The pair of ring portions are coupled to both ends of the plurality of holder portions at both end surfaces of the rotor core. The plurality of magnets are supported by the anti-rotation protrusion at one end along the circumferential direction and supported by the step member in the circumferential direction so that the magnets do not slide when the rotor core is rotated so that the plurality of magnets are pressed by the wing member so as not to be separated from the rotor core. It is mounted to the holder frame on the outer circumferential surface of the rotor core.

In addition, in the rotor assembly for an electric pump according to the present invention, the wing member is provided with a pressing projection extending in one side of the circumferential direction, the locking projection extending in the opposite direction of the pressing projection, the magnet is inserted into the pressing projection Afterwards, the locking protrusion may be shorter than the pressing protrusion so that the locking protrusion may be pressed on the upper portion of the locking protrusion to be mounted on the holder.

In addition, it is preferable that the rotor assembly for the electric pump according to the present invention has a recessed portion recessed in the axial direction, and a plurality of through-holes are formed to reduce the insertion hole and the weight through which the shaft is inserted through the recessed portion. .

According to the present invention, a plurality of anti-rotation protrusions are formed on the rotor core so that a plurality of magnets are supported by the anti-rotation protrusions when the rotor core is rotated. Therefore, it is possible to prevent the plurality of magnets from sliding during rotation of the rotor core.

In addition, according to the present invention, a plurality of magnets mounted on the outer circumferential surface of the rotor core can be pressed by the wing member. Therefore, even if the rotor core rotates, it is possible to prevent the plurality of magnets from being separated from the rotor core.

In addition, according to the present invention, since the through-hole is formed in the rotor core, the weight of the rotor core can be reduced, so that the rotor core can be efficiently rotated.

Further, according to the present invention, the magnet can be easily assembled because the magnet can be inserted into the holder frame.

1 is a conceptual diagram of one embodiment of a rotor assembly for an electric pump according to the present invention;
2 is an exploded perspective view of FIG. 1;
3 is a front view of FIG. 1,
4 is a cross-sectional view of FIG.
5 to 7 are flowcharts for mounting the magnet to the holder frame.

An embodiment of a rotor assembly for an electric pump according to the present invention will be described in detail with reference to FIGS. 1 to 7.

The rotor assembly for an electric pump according to the present invention includes a rotor core 10, a holder frame 20, and a plurality of magnets 30.

The rotor core 10 has a depression 13 recessed in the axial direction at the center thereof, and a plurality of anti-rotation protrusions 11 are formed on the outer circumferential surface thereof.

The plurality of anti-rotation protrusions 11 are radially projected on the outer circumferential surface and spaced apart at regular intervals along the circumferential direction.

The depression 13 has a central portion recessed in the axial direction, and the insertion hole 13 and the plurality of through holes 15 are formed.

Insertion hole (13a) is formed in the center so that the shaft can be inserted through.

The plurality of through holes 13b are formed around the insertion hole 13 to reduce the weight of the rotor core 10. In addition, since the recess 13 is formed in the rotor core 10 and the plurality of through holes 13b are formed in the present embodiment, the weight of the rotor core 10 may be reduced.

The holder frame 20 prevents the plurality of magnets 30 from being separated from the rotor core 10. To this end, the holder frame 20 includes a plurality of holder portions 21 and a pair of ring portions 27 and is injection molded.

The holder portion 21 presses the magnet 30 so that the magnet 30 is not separated from the rotor core 10. To this end, the holder 21 is provided on the outer circumferential surface of the rotor core 10 by having a step member 23 inside and a wing member 25 on the outside.

Step member 23 has a rotation preventing jaw (23a) is formed so that the rotation preventing projection (11) can be inserted.

The wing member 25 is provided with the pressing protrusion 25a and the latching protrusion 25b extended to both sides along the circumferential direction. The pressing protrusion 25a extends to one side in the circumferential direction and may have elasticity.

The locking protrusion 25b extends in a direction opposite to the direction in which the pressing protrusion 25a extends.

The pair of ring portions 27 are coupled to both ends of the plurality of holder portions 21 at both end surfaces of the rotor core 10.

The process of mounting the magnet 30 to the holder frame 20 using the present embodiment is performed by first pressing the other end 30b of the magnet 30 as shown in FIG. 5 on the outer circumferential surface of the pressing protrusion 25a and the rotor core 10. Insert in between. Then, one end 30a is pressed from the upper portion of the locking projection 25b in the direction of the arrow a. Then, as shown in FIG. 6, one end 30a of the magnet 30 goes over the locking protrusion 25b, and one end 30a of the magnet 30 closes the locking protrusion 25b and the rotor core 10 as shown in FIG. 7. It is mounted between the outer peripheral surfaces of At this time, the locking protrusion 25b extends shorter than the pressing protrusion 25a to press the end 30a of the magnet 30 on the upper portion of the locking protrusion 25b so that the locking protrusion 25b can be mounted on the holder portion 21.

As such, the magnet 30 has one end 30a supported by the anti-rotation protrusion 11 along the circumferential direction, and the other end 30b supported by the step member 23. Therefore, this embodiment does not slide when the rotor core 10 rotates. In addition, since the magnet 30 can be mounted by inserting the magnet 30 into the holder frame 20, the assembling is easy and the pressing protrusion 25a and the locking protrusion 25b are magnets even when the rotor core 10 is rotated. 30 can be pressed to prevent the magnet 30 from being separated from the outer circumferential surface of the rotor core 10.

10: rotor core 11: anti-rotation protrusion
13: insertion hole 15: through hole
20: holder frame 21: a plurality of holder parts
23: step member 23a: anti-rotation jaw
25 wing member 25a pressurizing protrusion
25b: engaging projection 27: a pair of ring portion
30: Multiple magnets 30a: One end of the magnet
30b: the other end of the magnet

Claims (3)

A rotor core protruding in the radial direction from the outer circumferential surface and having a plurality of rotation preventing protrusions spaced at regular intervals along the circumferential direction;
An inner side includes a step member having a rotation preventing jaw into which the plurality of anti-rotation protrusions can be inserted, and an outer side having wing members extending to both sides along the circumferential direction, and a plurality of holder portions mounted on an outer circumferential surface of the rotor core; A holder frame having a pair of ring portions coupled to both ends of the plurality of holder portions at both end surfaces of the rotor core,
At the outer circumferential surface of the rotor core so that the rotor core is supported by the anti-rotation protrusion in the circumferential direction and the other end is supported by the step member so as not to slide during rotation of the rotor core, and is pressed against the wing member so as not to be separated from the rotor core. It includes a plurality of magnets mounted to the holder frame,
The wing member has a pressing protrusion extending in one side of the circumferential direction and a locking protrusion extending in the opposite direction of the pressing protrusion, and the magnet is inserted into the pressing protrusion and pressed from the upper portion of the locking protrusion to be mounted on the holder part. The rotor assembly for an electric pump, characterized in that the engaging projection is shorter than the pressing projection so that it can be. The method of claim 1, wherein the rotor core
An depression recessed in the axial direction is formed,
The rotor assembly for the electric pump, characterized in that a plurality of through-holes are formed to reduce the insertion hole and the weight through which the shaft is inserted through the recessed portion. delete

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