KR100322990B1 - Vibration motor - Google Patents

Abstract

PURPOSE: A vibration motor is provided to generate vibration and reduce a manufacturing cost by oscillating a rotor within a case instead of rotating the rotor. CONSTITUTION: A vibration motor is formed with a case(1), a rotary shaft(3), an oscillating body(2), a coil(5), and a plurality of magnets(4a,4b). The case(1) has a thin rectangular shape. The rotary shaft(3) passes through a center of the case(1). Both end portions of the case(1) are supported by a bearing. The oscillating body(3) is inserted into a hub portion(21) of the oscillating body(2). A core portion(22) is extended to both sides of the hub portion(21). A vibration weight(23) is formed at an end portion of the core portion(22). The coil(5) is wound around the core portion(22) of the oscillating body(2). The coil(5) is connected to a connector of the case(1). The magnets(4a,4b) are formed at inner walls of a left and a right side of the case(1).

Description

Vibration motor

The present invention relates to a vibration motor for generating vibration, and more particularly, to a vibration motor capable of causing vibration by causing the rotor to repeat the rotational movement without the rotational movement.

In general, a vibration motor is a motor for inducing vibration, and in recent years, an attempt has been made with an emphasis on miniaturization for use in portable telephones and pagers.

Known vibration motors include a cylindrical type as shown in FIG. 1 and a disc type as shown in FIG.

The former condenses the eccentric vibrating weight b on the rotating shaft a projecting out of the motor, and then rotates the cylindrical rotor to generate vibration. The latter forms a thin disk-shaped rotor ( c), but rotating to omit a part of the disk to generate vibration.

However, in the conventional vibrating motor as described above, since the electrons are cylindrical, the minimum diameter of the rotating shaft and the rotor should be ensured, and thus, it is disadvantageous to reduce the size compared to the disc type. In addition, the disc type has the advantage of reducing the thickness a lot, but the coreless type is difficult to manufacture the process, such as attaching the coil, the production cost is high, and the failure often frequent shortcomings.

Therefore, the present invention has been devised in view of the above-described conventional problems, and the main object of the present invention is not to rotate the rotor but to rotate in a case having an arbitrary thickness so that vibration can be generated. To provide a new type of vibration motor that is simple, productive and inexpensive to produce.

1 is a cross-sectional view showing a vibration motor of a conventional cylinder type,

Figure 2 is a cross-sectional view showing a conventional disc type vibration motor,

3 is a front sectional view showing a structure of the present invention;

Figure 4 is a plan sectional view showing a structure of the present invention.

Explanation of symbols for main parts of drawings

1 case 2 rotating body

3: rotating shaft 4a, 4b: magnet

5: coil 6: ring

7: bearing 21: hub

22 core part 23 oscillating weight

Characteristic means for achieving the above object is a rectangular case, a rotating shaft that penetrates the center of the case, both ends thereof are supported by a bearing, the hub portion is fitted to the rotating shaft, and the rotating shaft is fitted, and left from the hub. A rotating body composed of respective core portions extending to both sides, and respective oscillating weights provided at the ends of these core portions, coils wound on both core portions of the rotating bodies, on both left and right inner walls of the case. It consists of a fixed pair of magnets and a ring plate attached to the inner bottom and bottom of the case.

Hereinafter, the detailed configuration and operation of the present invention will be described with reference to the accompanying drawings.

3 is a front sectional view showing the configuration of the present invention, Figure 4 is a plan sectional view showing the configuration of the present invention.

As shown in the figure, the vibration motor of the present invention comprises a case 1, a rotating shaft 3, a rotating body 2, a coil 5, and magnets 4a and 4b.

The case 1 is a rectangle having a relatively thin height, which can be manufactured by combining upper and lower sides, and forms a bearing structure for the rotation axis that is condensed thereto. That is, the rotating shaft 3 is penetrated to the center, and both ends are supported by the bearing 7, and the rotating body 2 is fixed to this rotating shaft 3.

The rotating body 2 includes a hub portion 21 into which the rotation shaft 3 is fitted, a core portion 22 extending from both sides of the hub portion 21, and a vibration weight 23 portion formed at each core end portion. Is done.

The coil 22 is wound around the core portion 22 of the pivoting body 2 so as to be connected to the connector 11 provided on one side of the case 1, while the left and right sides of the case 1 are The magnets 4a and 4b are fixed to the inner wall, respectively.

At this time, the magnets (4a) (4b) is formed along the longitudinal direction of the rotation axis in the inner wall so that the N pole and the S pole is divided into upper and lower magnets, and the inner surface is formed in an arc shape, and is close to The end of the oscillating weight 23 is also rounded so as to minimize the gap between the magnets 4a and 4b and the oscillating weight 23.

Particularly, the polarities of the magnets 4a and 4b are such that the N pole and the S pole are divided into upper and lower magnets, and both are arranged in N and S so as to be diagonally positioned between the magnets 2. Always to the N and S poles, so that the closed circuit of the magnetic field can be easily made.

In addition, the thickness of the vibrating weight 23 is preferably formed to be slightly larger than 1/2 of the height of the magnets 4a and 4b, and the inner surface of the case 1, that is, the vibrating weight 23 described above. ) Abuts the sounding plate (6) to abutting parts so that vibration sound can occur.

In the progress motor of the present invention configured as described above, as soon as current is supplied to the coil, the rotating body 2 repeats the rotational movement.

In more detail, when a magnetic field is generated by the coil 5 wound around the core part 22, the magnetic field is rotated in response to the magnetic force of the magnets 4a and 4b fixed to the inner wall surfaces on both the left and right sides. Reverse the direction according to the direction of the current supplied to.

When the oscillating weight 23 which repeats such a rotation hits the sounding board 6 attached to the inner wall surface, a vibration and a vibration sound generate | occur | produce, and it exhibits a function as a vibration motor.

At this time, the reason for making the thickness of the vibrating weight 23 larger than 1/2 of the height of the magnets 4a and 4b is to facilitate starting from the current stationary state, and in some cases, The amount of vibration can be adjusted by the voltage, and the type and size of the sound can be adjusted according to the material and texture of the sound plate (6).

The present invention as described in detail above can be made thinner and smaller than the conventional rotary vibrating motor, and has the advantage that can be variously designed and modified product structure as well as can be produced by adjusting the vibration and vibration sound this vibration It is possible to improve the merchandise of a product that will use a motor.

Claims (6)

Rectangular case 1; A rotating shaft (3) passing through the center of the case and supported at both ends by a bearing (7); The hub portion 21 to which the rotary shaft 3 is fitted is fitted in contact with the rotary shaft, the respective core portions 22 extending from the hub to the left and both sides, and the respective oscillating weights 23 provided at the ends of the core portions. Rotating body (2) consisting of; Coils (5) wound on both core portions of the rotating body; A pair of magnets 4a and 4b fixed to the left and right inner walls of the case 1; And A ringing plate 6 attached to the inner bottom and the bottom of the case 1; Vibration motor, characterized in that consisting of. The method of claim 1, Vibration motor, characterized in that the height of the case (1) is smaller than the length of the rotating body (2) in contact with the rotating shaft (3) so that the rotation range of the rotating body does not exceed 180 °. The method of claim 1, The magnet (4a) (4b) is formed long along the longitudinal direction of the axis of rotation, vibration motor characterized in that it is divided into N pole and S pole along the height direction. The method of claim 3, wherein The magnets 4a and 4b are formed in an arc shape along the turning radius of the rotating body 2 and the ends of the oscillating weight 23 of the rotating body 2 are also rounded to narrow the voids. Vibration motor characterized in that. The method of claim 3, wherein The magnet (4a) (4b) is characterized in that the vibration of the magnetic field through the rotating body (2) can be configured by inverting the N, S arrangement on the left side and the N, S arrangement on the right side. The method of claim 1, The rotating body (2) is characterized in that the thickness of both vibrating weights (23) to be greater than 1/2 of the height of the magnet ().

Images