KR100334753B1 - A rotor assembly of flat type vibration motor - Google Patents

Abstract

The present invention is a flat vibration to prevent exhaustion of bearing oil and disconnection of the winding coil due to the formation of the insulator by simply joining the cover unit with the weight and the bearing holder integrally attached to the upper substrate to which the winding coil is attached. The present invention relates to a rotor assembly of a motor, and to this end, the present invention relates to a flat vibration motor having an outer diameter that is relatively larger than a thickness.

A commutator is formed at a bottom thereof, and an upper substrate 20 rotatably supported by the shaft;

A winding coil 30 eccentrically bonded at one side of an upper surface of the upper substrate 20;

A through hole 41 through which the winding coil 30 joined to the upper substrate 20 passes is formed at one side of the plate surface, a weight 50 is bonded at the other side, and a bearing holder 60 is integrated at the center. A cover member 40 formed by insert injection so as to be bonded to each other and laminated and bonded to the upper surface of the upper substrate 20;

The upper substrate 20 and the cover member 40 are bonded to each other is characterized in that it is provided with a bearing 70 forcibly fitted to the bearing holder 60.

Description

Rotor assembly of flat type vibration motor

The present invention is a flat vibration motor to prevent exhaustion of bearing oil and disconnection of the winding coil due to the formation of the insulator by simply attaching the cover device having the weight and the bearing holder integrally attached to the upper substrate to which the winding coil is attached. Of the rotor assembly.

Generally, a flat vibration motor, which is built in a mobile phone or a pager, mainly performs an incoming call function, is called a pan cake type or a coil type having a larger diameter than a thickness as shown in FIG. 1. Most of them are flat vibration motors (also called coin types).

The flat vibration motor consists largely of a stator assembly as a stationary member and a rotor assembly as a rotating member.

That is, the lower substrate 2 having the circuit printed on the plate is bonded to the upper surface of the bracket 1, which is a circular flat plate, and the donut-shaped magnet 3 is attached to the outer side of the lower substrate 2 in the same manner. do.

And the upper part of the bracket 1 is covered by a cap-shaped case 4 opened downward, the bracket 1 and the case 4 is connected by the central shaft (5).

The shaft 5 is provided with a rotor assembly rotatably as shown in FIG. 2, wherein the rotor assembly again includes a bearing 7, an upper substrate 8, a commutator 9, and a winding coil 10. It consists of the weight 11 and the insulator 12.

The bearing (7) is a means for rotatably supporting the rotor assembly from the shaft (5), usually using a metal bearing, the upper substrate (8) is eccentrically provided by cutting the circular plate at a predetermined angle It is a printed circuit board, and the commutator 9 is such that a plurality of segments are formed at regular intervals at the bottom of the upper substrate 8 so as to expose the contact surface while forming a circle at regular intervals.

The winding coil 10 is provided as at least one coil which is located to correspond to each other in the same rotation radius on the vertical line with the magnet 3 at the bottom.

The weight 11 is usually a heavy body made of a high specific gravity material, and is provided eccentrically on the upper substrate 8 to determine the amount of eccentricity of the motor.

On the other hand, the insulator 12 is configured to allow the bearing 7, the winding coil 10, and the weight 11 to be firmly coupled to each other on the upper substrate 8, and to insulate the stator assembly and the rotor assembly. The lower end is fixed to the lower substrate 2 and the upper end is electrically connected by a pair of brushes configured to slide in contact with the commutator 9.

In such a configuration, in particular, the amount of eccentricity is a main factor that determines the performance of the vibration motor, so it is more preferable to maximize it.

Therefore, in recent years, a structure for maximizing the eccentricity of the rotor assembly by forming the upper substrate 8 in a circular shape so that the weight 11 is extensively formed in a direction corresponding to the direction in which the winding coil 10 is provided is proposed. It also became.

This rotor assembly once places the winding coil 10 and the weight 11 on the upper substrate 8, and finally bearings to the upper surface of the upper substrate 8 excluding the winding coil 10 and the weight 11. 7) while the insulating resin is injection-molded in the combined state, the winding coil 10 and the weight 11 together with the bearing 7 are assembled by the configuration to be firmly integrally fixed on the upper substrate 8.

However, the excessive injection pressure applied to the insulating resin during injection molding of the insulating resin may damage the soldering or joining portions of the winding coil 9 and the weight 11, resulting in poor bonding and connection, and in particular, the winding coil 9 ) Is a problem that is severely deformed.

In addition, since the injection molding temperature of the insulator 13 is made at a very high temperature, there is a problem that the life of the motor is shortened as the oil in the bearing 7 is exhausted while the bearing 7 is deteriorated at the same time as the bearing temperature.

The present invention is to compensate for the above problems, the present invention is to avoid the damage or deformation of parts and unnecessary consumption of oil by eliminating the injection molding process of the insulator and the insulator by a simple bonding of the cover to the upper substrate Its main purpose is to allow it to be prevented.

In addition, the present invention has another object to reduce the production time and cost of the vibration motor in accordance with the omission of the injection process.

1 is a side cross-sectional view of a general flat vibration motor,

2 is a perspective view showing a rotor assembly of a conventional flat vibration motor;

3 is an exploded perspective view illustrating the rotor assembly of the flat vibration motor according to the present invention;

4 is a sectional view of the coupling of the rotor assembly according to the present invention;

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

20: upper substrate 30: winding coil

40: cover member 41: through hole

50: weight 60: bearing holder

70: bearing

In order to achieve the above object, the present invention provides a flat vibration motor having a diameter that is relatively larger than the thickness,

An upper substrate having a commutator formed on a bottom thereof and rotatably supported on the shaft;

A winding coil eccentrically bonded at one side of an upper surface of the upper substrate;

On one side of the plate surface is formed a through hole through which the winding coil bonded to the upper substrate passes, the other side is bonded to the weight, the center is the cover member is integrally coupled to the cover member laminated to the upper surface of the upper substrate

It is characterized in that it is provided as a bearing forcibly fitted to the bearing holder of the upper substrate and the cover member coupled to each other.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

The configuration of the flat vibration motor to which the present invention is applied is almost similar to the prior art.

However, the present invention is to improve the rotor assembly is provided as a rotating means, especially in the flat vibration motor, the main feature is to omit the molding of the insulator integrally provided on the upper substrate, the cover member is separate from the upper substrate by insert injection While forming, the cover member and the upper substrate are simply joined to each other by bonding to form a rotor assembly.

3 is a perspective view showing a separated state of the rotor assembly according to the present invention.

In the present invention, the upper substrate 20 is a printed circuit board in which a circuit electrically connected to a segment of a commutator (not shown) formed integrally on one surface or a bottom surface is printed as in the past.

The winding coil 30 is eccentrically bonded to one side of the upper surface of the upper substrate 20 such that the winding coil 30 is firmly bonded by the adhesive and at the same time printed on the bottom of the upper substrate 20 To be connected by means of soldered circuits.

On the other hand, it is more preferable that the upper substrate 20 is provided in a circular shape.

The cover member 40 is provided with a cover member 40 having the same size as that of the upper substrate 20, and the cover member 40 has at least one through-hole 41 formed on the same side as the winding coil 30. The weight 50 is provided on the other side and the bearing holder 60 is integrally provided at the center.

At this time, the cover member 40 is formed as a high specific gravity material such as a conventional insulator, and is molded by insert injection from an injection mold.

Meanwhile, the injection molded cover member 40 is bonded to the upper substrate 20 while being laminated from the top, and the bearing 70 is forcibly fitted into the bearing holder 60 of the bonded cover member 40. .

Figure 4 shows the rotor assembly coupled in the configuration as described above, the present invention is to form a cover member 40 by insert injection separately from the upper substrate 20 to bond it to the upper substrate 20 The most prominent feature is that they are combined together.

The through hole 41 formed in the cover member 40 provided as described above is subjected to the interference of the winding coil 30 bonded to the upper substrate 20 when the cover member 40 is stacked on the upper substrate 20. It is to be able to be in close contact with the upper substrate 20 stably without.

Therefore, even though the cover member 40 is bonded to the upper substrate 20, the winding coil 30 has no effect at all, so that the surface between the upper substrate 20 and the cover member 40 is tightly coupled, thereby being firmly coupled by bonding. You can do it.

At this time, since the weight 50 and the bearing holder 60 are already integrally formed at the other side corresponding to the through hole 41 of the cover member 40, the weight 50 which determines the amount of eccentricity in the rotor assembly is separately joined. In addition to eliminating the need, since the bearing holder 60 is already formed through the injection process, the influence of the high temperature and high pressure due to the formation of the cover member 40 does not affect the bearing 70 at all, and thus the bearing holder ( Even if the bearing 70 is inserted into the bearing 60, it is possible to prevent exhaustion of oil in the bearing 70.

In particular, unlike the prior art in the present invention, the injection molding of the cover member 40 by being provided integrally with the weight 50 and the bearing holder 60 separately from the upper substrate 20, the winding coil by the high pressure injection pressure It is possible to eliminate the defects such as weakening of the overweight and the failure of the connection of the winding coil and deformation of the winding coil.

Therefore, by the configuration according to the present invention it is possible to completely eliminate the factors such as the failure in the manufacturing, such as weakening of the bonding force or the disconnection and the winding coil, it is possible to further improve the quality of the product.

In addition, since the oil in the bearing is prevented from being burned out, it is possible to prolong the service life while maintaining a more stable driving performance, thereby providing a very useful effect of increasing the reliability of the product.

Claims (2)

In a flat vibration motor having a contour whose diameter is relatively larger than the thickness, A commutator is formed at a bottom thereof, and an upper substrate 20 rotatably supported by the shaft; A winding coil 30 eccentrically bonded at one side of an upper surface of the upper substrate 20; A through hole 41 through which the winding coil 30 joined to the upper substrate 20 passes is formed at one side of the plate surface, a weight 50 is bonded at the other side, and a bearing holder 60 is integrated at the center. A cover member 40 formed by insert injection so as to be bonded to each other and laminated and bonded to the upper surface of the upper substrate 20; A bearing (70) forcibly fitted into the bearing holder (60) of the upper substrate (20) and the cover member (40) bonded to each other; Rotor assembly of a flat vibration motor provided as. The method of claim 1, wherein the cover member 40 Rotor assembly of flat vibration motor made of high specific gravity material.