JP2005218291A - Steel plate brushless motor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a steel plate brushless motor by which agreement caused by integral multiples of a natural frequency and an electromagnetic frequency that is a main cause for noise is easily prevented and the noise is suppressed. <P>SOLUTION: In the steel plate brushless motor 10 which holds a stator 14 with a coil 18 wound around a stator core 15 within the frame 12 of the steel plate, a resilient adhesive agent 42 is applied to the coil 18. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a brushless steel plate motor.

In a brushless steel plate motor, a stator core is insulated and a stator wound with a coil is housed in a steel plate frame (Patent Document 1).
Japanese Patent Laid-Open No. 5-68395

  In the brushless steel plate motor as described above, when the motor is rotated, the electromagnetic vibration of the stator core is directly transmitted to the steel plate frame. There is a problem that noise increases.

  As a method to prevent the motor's natural frequency, which is the main cause of this noise, from coincident with an integer multiple of the electromagnetic frequency, a special anti-vibration structure such as making the motor structure more complicated or shifting the natural frequency is necessary. There is a problem that the versatility of the motor is reduced or the cost is increased.

  Therefore, in view of the above problems, the present invention provides a brushless steel plate motor that can easily prevent the motor's natural frequency, which is a main cause of noise, from being an integer multiple of the electromagnetic frequency and can suppress noise.

  The invention according to claim 1 is a brushless steel plate motor in which a stator in which a coil is wound around a stator core is housed in a steel plate frame, and an elastic adhesive is applied to the coil. It is.

  The invention according to claim 2 is the brushless steel plate motor according to claim 1, wherein the adhesive is applied to the entire circumference of the stator core.

  The invention according to claim 3 is the brushless steel plate motor according to claim 1 or 2, wherein the adhesive is silicon rubber.

  In the brushless steel plate motor according to the first aspect of the present invention, by applying an elastic adhesive to the coil, a resonance state due to electromagnetic vibration of the stator core can be prevented, and a damping effect can be obtained. it can. In this case, since only the adhesive is applied to the coil, the cost can be kept low.

  In the brushless steel plate motor according to the second aspect of the present invention, the resonance state can be more reliably prevented by applying the adhesive to the entire circumference of the stator core.

  In the brushless steel plate motor according to the third aspect of the present invention, since the adhesive is silicon rubber, the cost can be kept low, and there is elasticity and the resonance state can be more reliably prevented.

  Hereinafter, a brushless steel plate motor (hereinafter simply referred to as a motor) 10 according to an embodiment of the present invention will be described with reference to FIGS.

(1) Structure of Motor 10 The structure of the motor 10 will be described based on FIG. FIG. 1 is a longitudinal sectional view of the motor 10.

  In the motor 10, a ring-shaped stator 14 is press-fitted inside a steel frame 12, and a rotor 16 is rotatably disposed on the inner peripheral side of the ring-shaped stator 14.

  As shown in FIG. 2, the stator 14 forms an insulating layer by pre-molding the stator core 15 from which a plurality of T-shaped teeth 40 protrude from the ring-shaped back yoke 38 with an insulating resin. A coil 18 is wound on the insulating layer.

  The stator 14 having the structure described above is press-fitted and fixed to the inner peripheral wall of a cup-shaped frame 12 made of steel plate. In this case, a bushing 20 for taking out the cord 44 from the stator 14 to the outside is fitted in the notch portion of the stator 14.

  In the rotor 16, a shaft 22 is arranged at the center, and a magnet portion 23 in which S poles and N poles are alternately arranged is formed around the shaft 22. The rotor 16 is rotatably held on the frame 12 by a pair of bearings 26 and 28.

  That is, the bearing 26 is fitted into a bracket portion 30 formed at the bottom of the frame 12. The opening of the frame 12 is covered with a substantially disc-shaped cover 32 and houses the rotor 16 and the stator 14. In this case, a central portion of the cover 32 is provided with a through hole 34 through which the shaft 22 passes and a bracket portion 36 for fixing the bearing 28. The cover 32 is screwed to the frame 12.

  As described above, the stator 14 has a shape in which 12 teeth 40 protrude from the inner peripheral side of the ring-shaped back yoke 38, and the coil 18 is wound around each tooth 40. An adhesive 42 made of silicon rubber is applied to the upper portion of the coil 18 in a substantially ring shape over the entire circumference of the stator 14 as shown in FIG.

(2) Operational state of the motor 10 When the motor 10 having the above configuration is rotated, electromagnetic vibration of the stator 14 is generated, but since the adhesive 18 made of elastic silicon rubber is applied to the coil 18, Deviation from the natural frequency of the motor does not match the natural frequency of the motor and an integer multiple of the electromagnetic frequency, and noise is not generated as in the conventional case.

  The adhesive 42 also serves as a vibration damping effect for the motor 10 and can prevent vibration of the motor 10.

(3) Modified Example In the above embodiment, silicon rubber is used as the adhesive 42, but instead of this, other adhesives may be used as long as they are elastic.

  Moreover, in the said embodiment, although the adhesive agent 42 was apply | coated only to the upper part of the coil 18 of the stator 14, you may apply | coat the adhesive agent 42 also under the coil 18 in FIG. Further, although the adhesive 42 is applied over the entire circumference of the stator 14, the adhesive 42 may be applied only to a part of the coils 18 instead.

  The brushless steel plate motor of the present invention is suitable as a drive source for a fan motor, a pump or the like. In particular, since it has anti-vibration properties, it is suitable as a drive source that requires damping properties.

It is a longitudinal cross-sectional view of the motor which shows one Embodiment of this invention. It is a top view of the stator before apply | coating an adhesive agent. It is a top view of the stator after apply | coating an adhesive agent.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Motor 12 Frame 14 Stator 16 Rotor 18 Coil 32 Cover 42 Adhesive

Claims (3)

In a brushless steel plate motor in which a stator in which a coil is wound around a stator core is housed inside a steel plate frame,
A brushless steel plate motor, wherein an elastic adhesive is applied to the coil. The brushless steel plate motor according to claim 1, wherein the adhesive is applied to the entire circumference of the stator core. The brushless steel plate motor according to claim 1, wherein the adhesive is silicon rubber.

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