KR100318677B1 - Rotor of brushless DC motor - Google Patents

Abstract

Disclosed is a rotor of a brushless DC motor which improves the performance of a motor by preventing magnetic losses generated by a magnet inserted into an iron core body through an insulating member between an iron core body and a plate, thereby preventing iron loss. The rotor of the disclosed brushless DC motor includes a rotor body in which a plurality of iron cores are stacked and through holes formed therein; A magnet fitted to the through hole; In the rotor of the brushless DC motor having a plate fixed to each of the upper and lower surfaces of the iron core body by the fastening means, the magnetic force of the magnet is transmitted between the iron core body and the plate to prevent the occurrence of iron loss It characterized in that the insulating member for intervening. Therefore, by preventing the magnetic force generated in the iron core body magnetized by the stator to which the current is applied through the insulating member between the iron core body and the plate and the magnetic force of the magnet to the plate, the iron loss generated in the plate can be prevented In this way, the performance of the motor can be improved.

Description

Rotor of brushless DC motor

The present invention relates to a rotor of a brushless DC motor, and more particularly, to prevent the magnetic force generated from the magnet provided in the rotor core of the brushless DC motor from being magnetized by a pair of plates disposed above and below it. It relates to a rotor of a brushless DC motor.

In general, the brushless DC motor has a long lifespan, and the electrical and mechanical noise is not generated according to the structure in which the commutator and the brush are omitted.

The rotor of such a conventional brushless DC motor is shown in FIG. As shown in FIG. 1, the rotor 10 of a conventional brushless DC motor includes an iron core body 20 formed by stacking a plurality of iron cores 21 and a magnet 30 embedded in the iron core body 20. And upper and lower plates 40 fixed to upper and lower ends of the iron core body 20.

The iron core body 20 in which a plurality of iron cores 21 are stacked is fastened by the fastening member 50 in a state where the plate 40 is disposed on the upper and lower sides thereof, whereby the overall appearance of the rotor 10 is formed. do.

To this end, the iron core body 20 and the plate 40 are formed with shaft holes 22 and 42 to which shafts (not shown) in which the centers thereof coincide are respectively fixed.

Further, according to the rotor 10 provided as described above, a motor serving as a driving source is formed inside the stator in a state in which it is arranged on a shaft (not shown).

However, the rotor of the conventional compressor as described above has the following problems.

When current flows through the stator of the motor, a rotating magnetic field is generated, and the permanent magnet rotor 10 is induced to rotate. That is, when a rotating magnetic field is generated, a magnetic force line is formed from the stator to the N pole and the S pole of the magnet 30 of the rotor 10 so that the rotor is induced.

That is, since the magnetic force is transmitted to the plate 40 fixed to the upper and lower sides of the iron core body 20 by the magnetic force generated in the magnet 30 and the magnetic force of the iron core body 20 induced by the stator, the iron loss is This results in a decrease in efficiency of the motor.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to prevent the magnetic force of the magnet and the magnetic force induced in the iron core body to be transmitted to the plate fixed to the upper and lower surfaces of the iron core body efficiency of the motor It relates to a rotor of a brushless DC motor to improve the.

1 is an exploded perspective view showing a rotor of a conventional brushless DC motor,

2 is an exploded perspective view showing a rotor of a brushless DC motor according to a preferred embodiment of the present invention;

3 is a cross-sectional view illustrating a rotor of a brushless DC motor according to a preferred embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10; Rotor 20; Iron core body

21; Iron cores 22, 42; Axes

30; Magnet 40; plate

50; Fastening member 60; Insulation

The object as described above of the present invention is a plurality of iron core is laminated and the rotor body is formed through holes therein; A magnet fitted to the through hole; In the rotor of the brushless DC motor having a plate fixed to each of the upper and lower surfaces of the iron core body by the fastening means, the magnetic force of the magnet is transmitted between the iron core body and the plate to prevent the occurrence of iron loss It is achieved by providing a rotor of a brushless DC motor, characterized in that the insulating member for intervening.

Here, the insulating member is preferably formed so as to cover the upper and lower surfaces of the iron core body in order not to contact the upper and lower surfaces of the iron core body.

According to the present invention, the insulating member is interposed between the iron core body and the plate is inserted into the magnet, the magnetic force of the magnet can be transmitted to the plate to prevent the occurrence of iron loss, thereby improving the performance of the motor Can be.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is an exploded perspective view illustrating a rotor of a brushless DC motor according to a preferred embodiment of the present invention, and FIG. 4 is shown.

As shown, the rotor 10 of the brushless DC motor according to the present invention is plate 40 on the upper and lower surfaces of the iron core body 20 in which a plurality of iron cores 21 are laminated by the fastening member 50 It has a fixed structure.

The iron core body 20 has a magnet 30 inserted therein to improve the performance of the motor. The iron core body 20 is fastened by the fastening member 50 in the state in which the insulating member 60 is disposed on the upper and lower sides, and the plate 40 is disposed on the upper and lower sides of the insulating member 60. By doing so, the rotor 10 has an overall appearance.

To this end, the iron core body 20, the plate 40 and the insulating member 60 are formed with shaft holes 41 and 62 whose centers coincide with each other, and shafts not shown in the shaft holes 41 and 62 are fixed. do.

On the other hand, the insulating member 60 is the magnetic force of the magnet 30 inserted into the iron core body 20, the magnetic force of the iron core body 20 is magnetized by the current flows to the stator (not shown) of the iron core body 20 It is to prevent the iron loss is generated in the plate 40 by preventing the transfer to the plate 40 disposed on the upper and lower sides. The insulating member 60 is preferably a member made of a material that is capable of withstanding non-ferrous metal or other heat that is not transmitted magnetic force, and is not transmitted magnetic force.

In addition, the insulating member 60 may be formed to cover the upper and lower surfaces of the iron core body 20 so that the plate 40 does not contact the upper and lower surfaces of the iron core body 20.

When current flows through the stator of the motor with the rotor 10 according to the present invention, a rotating magnetic field is generated and the permanent magnet rotor 10 is induced to rotate. That is, when a rotating magnetic field is generated, a magnetic force line is formed from the stator to the N pole and the S pole of the magnet 30 of the rotor 10 so that the rotor 10 is induced.

The brushless DC motor operated as described above has a magnet 30 inserted into the iron core body 20 because the insulating member 60 is interposed between the iron core body 20 and the plate 40 of the rotor 10. By preventing the magnetic force of the iron core body 20 that is applied to the stator (not shown) and the magnetic force of the magnetic force is transmitted to the plate 40, it is possible to prevent the occurrence of iron loss generated in the plate 40 .

As described above, according to the rotor of the brushless DC motor according to the present invention, the insulating member for preventing the magnetic force generated in the iron core body magnetized by the stator to which the current is applied and the magnetic force of the magnet to the plate By interposed between the iron core body and the plate, it is possible to prevent the iron loss generated in the plate, thereby improving the performance of the motor.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Claims (2)

An iron core body in which a plurality of iron cores are stacked and a through hole is formed therein; A magnet fitted to the through hole; In the rotor of the brushless DC motor having a plate fixed to each of the upper and lower surfaces of the iron core body by a fastening means, The rotor of the brushless DC motor, characterized in that between the iron core body and the plate is an insulating member for preventing the iron loss is transmitted to the magnetic force of the magnet is transmitted. The rotor of claim 1, wherein the insulating member is formed to cover the upper and lower surfaces of the iron core body so that the plate does not contact the upper and lower surfaces of the iron core body.