KR20020000420A - Vibration motor for cellular phone - Google Patents

Abstract

PURPOSE: A vibration motor for a cellular phone is provided to simplify a rotor extrusion process and a configuration of the vibration motor so as to improve a fabrication performance of the vibration motor. CONSTITUTION: A vibration motor for a cellular phone is adapted to generate a vibration upon rotating by an eccentric weight of a rotor free rotatably disposed between a bracket and a cover. The rotator(1) is formed with an injection molding as heavy resin materials, coupled to a center portion of a bearing(2), with a coil(3) opposed on a center axis of the rotor, and has space(4) defined on one side in order to decrease a weight, wherein the cover(51) and bracket(50) are protruded on their center portions and have a first and second protruding portions for inserting into the bearing.

Description

Vibration motor for cellular phone

The present invention relates to a vibration motor, and more particularly to a vibration motor for a mobile phone installed in the mobile phone to emit a received signal.

In general, a cell phone is provided with a bell device and a vibration device to notify the reception.

That is, when the reception is received, the user can ring the bell so that the user knows that the call has been made. In a place requiring quietness such as a meeting, the user may use the vibration mode so that only the user knows.

In the vibration mode described above, a small vibration motor mounted on the mobile phone operates to generate vibration.

As shown in FIGS. 3 and 4, the bracket 50 is coupled to the bracket 50 to form a predetermined space, and a shaft fixed to a central portion of the bracket 50. 52 and the rotor 53, which is press-fitted to the shaft 52, is fixedly installed, and to generate the magnetic field repulsion force with the rotor 54 which is injection molded from a resin material, and the rotor 54 described above. It consists of the magnet 55 provided in the flexible printed cable (FPC) (unsigned) of the bracket 50 upper surface.

In addition, the brush 56 is provided to supply power to the rotor 54, the rotor 54 is supplied with power from the brush 56 to form a rotating magnetic field.

The rotor 54 is provided with a coil 57 provided only in one direction from the center of the shaft, and a counter weight 58 formed in a direction opposite to the coil 57 and having a heavier weight than the coil 57 mounting portion. It consists of).

Referring to the operation of the vibration motor as described above, when the power is applied to the coil 57 of the rotor 54 through the FPC and the brush 56, it is rotated by the magnetic field repulsive force with the magnet 55 The electron 54 is rotated.

At this time, the total weight distribution of the rotor 54, because the counter weight 58 portion is heavier than the coil 57 installation portion, the vibration is largely generated during rotation.

That is, since the weight distribution of the said rotor 54 is biased, it is comprised so that a vibration may generate | occur | produce in rotation.

However, as described above, when injection molding a rotor made of a resin material, the counterweight, which is a heavy material, is simultaneously injection molded to produce a biased mass, which causes a complicated molding operation for inserting the counterweight during injection molding.

In addition, when the shaft is pressed into the bearing and the bracket of the rotor, it is necessary to perform a burring process on the bracket for the press-fitting, and thus there is a problem in that processing efficiency and vibration motor assembly work efficiency are deteriorated.

Accordingly, an object of the present invention is to solve the above problems, to provide a vibration motor for a mobile phone that can improve the production efficiency of the vibration motor by simplifying the injection molding process of the rotor, and the configuration of the vibration motor. Is in.

In order to achieve the above object, the present invention is a vibration motor for a mobile phone configured to generate a vibration during rotation by biasing the mass of the rotor rotatably installed between the bracket and the cover,

The rotor is injection-molded with a high specific gravity resin material, the bearing is coupled to the central portion, the coil is disposed on the central axis facing, characterized in that configured to form a space to lower the weight on one side.

1 is a cross-sectional view showing a vibration motor for a mobile phone according to the present invention,

2 is a plan view showing the rotor in FIG.

3 is a cross-sectional view showing a vibration motor for a general mobile phone,

4 is a plan view of the rotor in FIG.

<Description of the symbols for the main parts of the drawings>

1: rotor 2: bearing

3: coil 4: space

50: bracket 51: cover

1 and 2 are a cross-sectional view and a rotor plan view showing a vibration motor for a mobile phone according to the present invention, the rotor (1) and the injection molding of the high-density resin material and the bearing (2) is coupled to the center portion; In the injection molding of the rotor 1, the coil 3 is integrally injected and formed on a central axis of the rotor 1, and is formed to be positioned at one side of the rotor 1 to lower the weight 4. )

The first and second protrusions 5 and 6 are formed at the center portion of the cover 51 and the center portion of the bracket 50 so as to be protruded by drawing and inserted into the bearing 2 to serve as an axis. .

That is, when the rotor 1 is injection-molded, by using a resin with a high specific gravity and forming a space 4 on one side, the portion except the space 4 serves as a counter waiter. .

In addition, the first and second protrusions 5 and 6 may be formed on the cover 51 and the bracket 50 to serve as a rotating shaft without using a separate rotating shaft to serve as the shaft for rotating the rotor 1. This simplifies the components and simplifies the assembly work.

Referring to the operation and effect of the present invention as described above, in order for the operator to injection mold the rotor 1, the coil 3 is disposed on the central axis of the rotor 1 and the space 4 is provided on one side. Injection molding to form).

When the rotor 1 is injection molded, the bracket 50 and the cover 51 are molded by a drawing process or the like to form the first and second protrusions 5 and 6.

When the first and second protrusions 5 and 6 are formed on the bracket 50 and the cover 51, the rotor 1 is coupled to the bracket 50, and the bearing of the rotor 1 The second protrusion 6 is inserted into 2).

When the second protrusion 6 is inserted into the bearing 2, the fixing of the rotor 1 is performed. In this state, the cover 51 is coupled to the upper surface of the bracket 50.

At this time, the first protrusion 5 of the cover 51 is inserted into the upper surface of the bearing 2, and as a result, the rotor 1 is rotatably supported by the first and second protrusions 5 and 6.

Here, the first and second protrusions 5 and 6 are formed to have a space therein, and have a predetermined compression allowance when they are inserted into the bearing 2, so that the first and second protrusions 5 and 6 are easily inserted and are well inserted after insertion. It will not break away.

When rotating the vibration motor assembled as described above, while the current is applied to the rotor 1, the rotor 1 is rotated by the repulsive force with the magnet 55.

At this time, since the coil 3 of the rotor 1 is disposed on the central axis, the coil 3 does not generate a biased mass during rotation. In this state, the space 4 is formed on one side. As a result, the mass of the space 4 formation part becomes small and it has a totally unbalanced mass.

When the rotor 1 has an unbalanced mass, the rotor 1 generates vibrations during rotation, thereby making it possible to use the vibration mode in a mobile phone.

As described above, the present invention is configured to obtain an unbalanced mass of the rotor without injection molding of a separate counterweight integrally with the rotor, thereby simplifying the configuration of the rotor and simplifying the manufacturing process of the rotor. Is there.

In addition, there is an advantage that the configuration of the vibrating motor can be simplified by forming the first and second protrusions that can serve as the rotating shaft on the bracket and the cover, without using a separate rotating shaft to support the rotation of the rotor. .

Claims (2)

In a vibration motor for a mobile phone configured to generate a vibration during rotation by biasing the mass of the rotor that is rotatably installed between the bracket and the cover, The rotor is injection-molded with a high specific gravity resin material, the bearing is coupled to the center portion, the coil is disposed on the central axis facing, and configured to form a space to lower the weight on one side Vibration motor. The method of claim 1, And a first and second protrusions protruding from the central portion of the cover and the central portion of the bracket and being inserted into the bearing and configured to serve as shafts.