The present disclosure relates to the field of vibration motors and, particularly, to a vibration motor.
With the arrival of the mobile internet era, the number of smart mobile devices is continuously increasing. Among numerous mobile devices, cellphone is undoubtedly the most common and most portable mobile device. At present, a cellphone has diversified functions, one of which is high-quality music playing. A vibration motor, which drives cellphone screen to sound, is necessary to achieve the function of high-quality music playing.
In the related art, usually only one end of an elastic member in a vibration motor is fixed to a yoke, and the other end is fixed to a shell. The fixing manner of the elastic member uses does not sufficiently utilize space at two ends of the yoke, and an arm of force of the elastic member is short, which makes a first stage modal close to a second stage modal of the elastic member, thereby causing a poor stability of the vibration motor.
Therefore, it is necessary to provide a new a vibration motor to solve the above problems.
Many aspects of the exemplary embodiment can be better understood with reference to the following drawings. The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present disclosure. Moreover, in the drawings, like reference numerals designate corresponding parts throughout the several views.
The present disclosure will be further described with reference to the accompanying drawings and embodiments.
With reference to
The shell 1 includes a housing 11 and a cover plate 12 which covers the housing 11.
One of the vibrator and the stator includes a magnetic circuit unit 2, and the other one of the vibrator and the stator includes a coil 3. For ease of description, in an exemplary embodiment, the vibrator consists of the magnetic circuit unit 2, the stator includes the coil 3, the coil 3 interacts with the magnetic circuit unit 2 to drive the vibrator to vibrate. The vibration motor 100 further includes a flexible circuit board 5 fixed to the cover plate 12 and electrically connected with the coil 3, the coil 3 is fixed with the flexible circuit board 5.
The magnetic circuit unit 2 includes a yoke 21, a magnet 22 accommodated in and fixed to the yoke 21, and a pole plate 23 fixed to a side of the magnet 22 close to the coil 3. The coil 3 is electrically connected with the flexible circuit board 5. The coil 3 is fixed to the shell 1 by the flexible circuit board 5 and is surrounding the magnet 22.
The yoke 21 includes a bottom wall 211 and a side wall 212 bending and extending along the bottom wall 211, the bottom wall 211 and the side wall 212 together form an accommodating cavity 213. The magnet 22 is fixed on the bottom wall 211 and the magnet 22 is spaced from the side wall 212 to form a magnetic gap. The coil 3 is inserted into the magnetic gap.
The side wall 212 includes a pair of first side walls 2121 arranged symmetrically along a long axis direction and a pair of second side walls 2122 arranged symmetrically along a short axis direction. The first side wall 2121 is connected with the second side wall 2122. Two elastic members 4 are provided and respectively connected with a corresponding second side wall 2122. A first extending portion 214 and a second extending portion 215 extend from each first side wall 2121 in a direction to the shell 1, and the first extending portion 214 and the second extending portion 215 are spaced from each other.
With reference to
The first elastic arm 42 includes a first deforming portion 421 connected with the first fixing portion 41 and extending in a direction away from the geometric center of the first fixing portion 41, a second deforming portion 422 extending from the first deforming portion 421 in a direction close to the geometric center of the first fixing portion 41, and a third deforming portion 423 extending from the second deforming portion 422 in the direction away from the geometric center of the first fixing portion 41.
The second elastic arm 43 includes a fourth deforming portion 431 connected with the first fixing portion 41 and extending in a direction away from the geometric center of the first fixing portion 41, a fifth deforming portion 432 extending from the fourth deforming portion 431 in a direction close to the geometric center of the first fixing portion 41, and a sixth deforming portion 433 extending from the fifth deforming portion 432 in a direction away from the geometric center of the first fixing portion 41. By configuring the first elastic arm 42 and the second elastic arm 43 into the above-described structure, on the one hand, space at two ends of the yoke 21 can be sufficiently utilized and an arm of force of the elastic member 4 can be extended; on the other hand, toughness of the elastic member 4 can be strengthened, and service life of the elastic member 4 can be effectively improved. Thus, when the vibration motor 100 vibrates, a first stage modal of the elastic member 4 is largely different from a second stage modal of the elastic member 4, and the elastic member 4 is firmly fixed with the vibrator, which brings good stability for the vibration motor 100.
An arc transition is provided between the first deforming portion 421 and the second deforming portion 422, between the second deforming portion 422 and the third deforming portion 423, between the fourth deforming portion 431 and the fifth deforming portion 432, and between the fifth deforming portion 432 and the sixth deforming portion 433. By configuring the arc transition, the problem of easily breaking of the junction area due to stress concentration can be avoided.
In an exemplary embodiment, the second fixing portion 44 and the third fixing portion 45 are arranged in parallel to and spaced from the first fixing portion 41, the second deforming portion 421 and the fifth deforming portion 432 are obliquely arranged with respect to the first fixing portion 41.
With reference to
Compared with the related technology, in the vibration motor of the present disclosure, by respectively fixing the second fixing portion and the third fixing portion located at two ends of the elastic member to the vibrator and, at the same time, fixing the first fixing portion to the shell, so that the elastic member can be firmly fixed with the vibrator, thereby allowing the vibration of the vibration motor to be stable. When the vibration motor vibrates, the first elastic arm and the second elastic arm located at two ends of the first fixing portion are elastically deformed at the same time, and the first stage modal of the elastic member is largely different from the second stage modal of the elastic member, which brings good stability to the vibration motor.
It should be noted that, the above are merely embodiments of the present invention, those skilled in the art can make improvements without departing from the inventive concept of the present invention, however, these improvements shall belong to the protection scope of the present invention.
Number | Date | Country | Kind |
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2017 1 0247851 | Apr 2017 | CN | national |
Number | Name | Date | Kind |
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10298105 | Kim | May 2019 | B2 |
20170117789 | Mao | Apr 2017 | A1 |
20180115230 | Mao | Apr 2018 | A1 |
20180166965 | Mao | Jun 2018 | A1 |
20180297062 | Huang | Oct 2018 | A1 |
20180297073 | Xu | Oct 2018 | A1 |
Number | Date | Country | |
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20180297065 A1 | Oct 2018 | US |