KR100439509B1 - Coin type vibration motor - Google Patents

Abstract

The present invention discloses a coin type vibration motor.

The coin-type vibration motor of the present invention has an upper and lower cases forming an inner space, a shaft connected between the centers of the upper and lower cases and supported by a bearing to be rotated by a bearing, and a central portion of the lower case. A mold protruding in a tubular shape, a brush and an amateur coil provided on the inner and outer surfaces of the mold, and a commutator having segments on one side of the outer surface of the shaft and facing the brush, the other side of which is provided. It is composed of a rotor having a weight and extending in the form of a circular flat plate and having one end of a magnet disposed on the outer circumferential surface thereof with a gap between the outer surface of the amateur coil.

Description

Coin type vibration motor

The present invention relates to a coin-type vibration motor used as a silent call means in a mobile communication terminal, and more particularly, to a coin-type vibration motor capable of miniaturization while improving mass productivity by automating assembly.

Generally, the coin type vibration motor generates vibration in the process of rotating the rotor in an eccentric state, and the vibration motor is mainly manufactured in a small size and embedded in a mobile phone or a pager.

Coin-type vibration motor according to the prior art, as shown in Figure 1 and 2, the shaft 105 is placed in the upper center of the bracket 109 and spaced apart from the shaft 105 on the upper surface of the bracket 109 A donut-shaped magnet 108 is formed around the outer circumference of the shaft.

In the space between the magnets, a brush 111 having a bending part contacts the upper commutator substrate 103. In addition, the commutator substrate 103 is provided on the back of the rotor 102, the rotor 102 is located on the upper side of the magnet 108 is supported by the bearing 106 is rotated about the shaft 105 The upper side of the rotor 102 on which the commutator substrate 103 is located is separated from the amateur coil 107 and a heavy material 113 for applying an eccentric force therebetween is installed.

In addition, the lead wire 114, the connector 115 or the FPCB connection terminal 116 is generally used to connect a power supply with the lower printed circuit board 110 formed on the upper surface of the bracket 109 of the coin type vibration motor. , Examples of such a configuration are respectively shown in FIG. 3.

Finally, the upper portion of the bracket 109 is combined with the case 101 to form a space between each other.

Hereinafter, the operation of the conventional coin type vibration motor will be described.

When the external power is applied to the vibration motor through the lead wire 114, the connector 115 or the FPCB connection terminal 116 as shown in (A), (B) and (C) of Figure 3 the brush 111 ) And an amateur coil 107 disposed in the eccentric rotor 102 through the commutator substrate 103, and the heavy object is formed by interaction with a field formed of the magnet 108 and the case 101. Vibration is caused by the rotor 102 eccentric by 113 rotating around the shaft 105 with the bearing 106 interposed therebetween.

This, the rotor of the rotor mold portion 102 should maximize the amount of eccentricity in order to supply sufficient rotational force, wherein the amount of eccentricity is affected by the eccentric mass (m) and the eccentric distance (r). However, in general, the eccentric distance (r) due to the trend due to the miniaturization of the motor is in a tendency to be constrained, so in order to solve this, it is necessary to increase the weight 113 forming the eccentric mass (m), but also this There is a problem in that space is restricted due to interference with the components.

In detail, in the conventional general coin type vibration motor shown in FIG. 2, the magnet 108 and the brush 111 are located in the same direction in the case 101 with respect to the rotor 102. The heavy weight 113 forming the eccentric mass (m) is inevitably installed on the upper surface of the rotor 102 opposite to the magnet 108 and the brush 111, and thus the upper surface of the rotor 102. It must be narrow and long to avoid interference with the amateur coil 107. However, if the heavy object 113 is configured to be narrow and long, the height of the coin-type vibration motor is increased, resulting in the result of countering the miniaturization.

Therefore, in order to solve the problems as described above, the heavy material 113 is composed of a material having a high specific gravity, but also does not provide a sufficient amount of eccentricity.

In addition, in the conventional general coin type vibration motor, when reducing the outer diameter as a whole, in addition to the reduction in the amount of eccentricity due to the reduction of the eccentric distance (r) as described above, the reduction of the assembly space with the brush 111 due to the reduction of the inner diameter of the magnet. As a result, the space in which the brush 111 is located is reduced, which causes a problem of being restricted in space. This makes the assembly process difficult. The assembly problem as described above is a manual operation when trying to assemble it to a mobile phone using the lead wire 114, the connector 115 or the FPCB connector 116 to connect to the power source as shown in FIG. There is a difficulty in assembly due to the problem.

In addition, in the case of a conventional general coin type vibration motor, the brush 111 has a bending portion of the "b", "b" type in the longitudinal direction is affected by the fatigue fracture in the bending portion high characteristics and long life There is a problem that does not have the reliability.

The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to reduce the length of the coin-type vibration motor, while improving the assembly process to provide a coin-type vibration motor that can improve the mass production It is.

1 is a plan view of a rotor of a coin-type vibration motor according to the prior art.

2 is a cross-sectional view of a coin type vibration motor according to the prior art.

3 is a view showing the terminal form of the coin-type vibration motor according to the prior art,

Figure 4 is a cross-sectional view showing a coin type vibration motor according to the present invention.

5 is a plan view showing a rotor of the coin-type vibration motor according to the present invention.

6 is a view showing a brush according to the present invention.

7 is a bottom view of a printed circuit board of a coin type vibration motor according to the present invention.

8 is a plan view of a printed circuit board of a coin type vibration motor according to the present invention.

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

1: rotor 2: commutator

3: upper case 4: shaft

5, 12: bearing 7: weight mules

9: amateur coil 10: magnet

11 brush 13 printed circuit board

14 mold 15 yoke

In order to achieve the above object, the coin type vibration motor according to the present invention includes an upper and lower cases forming an inner space, a shaft connected between the centers of the upper and lower cases and being supported by a bearing and being rotated by a bearing. The mold is provided on the upper surface of the central portion and protrudes in a tubular shape, the brush and amateur coils provided on the inner and outer surfaces of the center of the mold, and the outer surface of the shaft, which is provided so as to surround the segment, the segment The commutator is provided, and the other side is characterized by consisting of a rotor having one end portion of the magnet which is provided with a weight and is expanded in a circular flat plate shape and is disposed with the outer surface of the amateur coil and the gap with its outer circumferential surface.

As a preferable feature of the present invention, a yoke is provided between the central outer surface of the mold and the amateur coil.

As another preferred feature of the invention, the lower case is characterized in that the mold containing the yoke.

As another preferred feature of the present invention, the lower case is characterized in that the mold is a mold including a printed circuit board printed circuit.

As a preferred feature of the invention, the lower case is characterized in that the mold comprising a yoke and a printed circuit board.

As another preferable feature of the present invention, the conductive land portion divided into at least two or more is formed on the outer side of the lower case.

As another preferred feature of the invention, the brush is mechanically connected to and supported by one end of the auxiliary piece that is approximately vertically bent, and the auxiliary piece is characterized in that it is electrically connected to the printed circuit board forming the lower case.

As another preferred feature of the present invention, the rotor is characterized in that the weight is arranged eccentrically and integrally formed by insert injection with the resin.

Hereinafter, embodiments of the coin type vibration motor according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a cross-sectional view showing a coin type vibration motor according to the present invention, Figure 5 is a plan view showing a rotor of the coin type vibration motor according to the present invention. 6 is a view showing a brush according to the present invention.

As shown here, the coin-type vibration motor has a case provided in a substantially cylindrical shape, in which case the case is composed of an upper case 3 and a lower case.

A shaft 4 is provided between the upper case 3 and the inner center of the lower case, and the shaft 4 is a structure in which the bearings 5 and 12 support the upper and lower ends as shown in the drawing. In order to withstand thrust loads and impacts of the rotor 1, the bearing 12 provided on the lower end side of the shaft 4 is preferably provided with a flange (not shown).

On the other hand, the upper case 3 is provided with a cylindrical body having an open shape of the lower surface, the lower case is provided in a plate shape to cover the lower portion of the upper case 3 to shield the inside.

In addition, the outer surface of the shaft 4 is provided with a rotor (1) which is integrally rotated with the shaft (4), the rotor (1) at this time is a heavy material (7), commutator (2) and magnet (10) It is configured to include).

That is, the rotor (1) is formed by injection in a form surrounding the outer surface of the shaft (4), as seen in the drawing is provided with a commutator (2) having a segment on the outer surface of the lower end side, and this The upper part of the commutator 2 is configured to be eccentrically disposed a heavy material 7 made of a high specific metal body inducing an eccentric force while expanding in a disc shape, wherein the heavy material 7 is made of an alloy such as tungsten with a high specific gravity. It is preferably used, and the rotor 1 is formed by insert injection integrally with the resin.

Since the rotor 1 configured as described above is configured such that the heavy material 7 is integrated by injection, the rotor 1 may be moved to its outer circumferential surface in order to prevent the heavy material 7 from being separated by the rotational motion or the impact of the rotor 1. It is preferable to provide a ring 8 of nonmagnetic material having rigidity.

In addition, the upper inner circumferential surface of the commutator 2 is coupled to the upper inner surface of the magnet 10 having a hollow tubular shape, and the lower end of the magnet 10 at this time has a gap on the upper surface of the lower case. The configuration is formed close to.

The magnet 10 has a configuration in which an air coil is opposed to an amateur coil 9 having one end fixed to a lower case, which will be described later, and is disposed by an electromagnetic force generated by interaction with the amateur coil 9. Rotation is achieved integrally with the rotor (1).

On the other hand, the lower case is composed of a mold 14 and a printed circuit board 13, wherein the mold 14 is a member that is injection molded of the resin, the center portion is formed in a substantially protruding tubular shape, the printed circuit The substrate 13 has a structure in which a circuit is printed on one surface.

That is, the mold 14 is provided with a brush 11 on the inner surface of the central portion protruding in a tubular shape, the brush 11 at this time is one end is bent approximately vertically is connected to the printed circuit board 13 It is connected to the auxiliary piece (11a), the other end is a structure that is curved to be selectively contacted with the above-mentioned commutator (2). At this time, one end of the auxiliary piece 11a is connected to the upper surface of the printed circuit board 13 to be electrically connected.

Then, the yoke 15 is attached to the protruding center outer circumferential surface of the mold 14, and the electromagnetic force is generated by interaction with the magnet 10 described above by receiving power from the outside to the outer surface of the yoke 15. The armature coil 9 is provided.

Meanwhile, as shown in FIGS. 7 and 8, the printed circuit board 13 has lands 13a and patterns 13b on both sides of the power connection and the brush 11, respectively, and each of the two printed circuit boards 13 has two surfaces. Through the above-described through holes (not shown), the configuration is connected to each circuit.

That is, the conductive land portion 13a is formed outside the printed circuit board 13, and the conductive land portion 13a is divided into at least two or more. In addition, a brush 11 or an auxiliary piece 11a mechanically coupled to the brush 11 is directly connected by welding to the pattern 13b provided inside the printed circuit board 13. It is indirectly connected via solder.

Reference numeral 6 denotes a washer fitted to the approximately upper outer circumferential surface of the shaft 4, wherein the washer 6 is in contact with the upper case 3 due to injuries during the rotation operation of the rotor (1) Serves to be prevented.

On the other hand, the above-described embodiment is merely described one preferred embodiment of the present invention, the scope of application of the present invention is not limited to this, and can be changed as appropriate within the scope of the same idea. For example, the shape and structure of each component shown in the embodiment of the present invention can be modified.

According to the coin-type vibration motor according to the present invention constituted as described above, the overall length of the motor can be greatly reduced by the structure in which the weight is integrally formed on the rotor. With the structure forming the and pattern, it is possible to improve the workability, resulting in the effect of ensuring the productivity and uniform quality of the product.

Claims (8)

Upper and lower cases forming an inner space; A shaft that connects the centers in the upper and lower cases and is rotatably supported by a bearing; A mold provided on an upper surface of the lower case and having a central portion protruding in a tubular shape; A brush and an amateur coil provided on the inner and outer surfaces of the central portion of the mold; A magnet is provided to surround the outer surface of the shaft and has a commutator having a segment on one side of the outer surface facing the brush, and the other side has a weight and is extended in the form of a circular flat plate and is disposed on the outer circumferential surface with the outer surface and the void of the amateur coil. A rotor having one end coupled thereto; Coin-type vibration motor, characterized in that consisting of. The coin type vibration motor according to claim 1, wherein a yoke is provided between the outer surface of the central portion of the mold and the amateur coil. The coin type vibration motor according to claim 1, wherein the lower case is a mold including a yoke. The coin type vibration motor of claim 1, wherein the lower case is a mold including a printed circuit board on which a circuit is printed. The coin type vibration motor of claim 1, wherein the lower case is a mold including a yoke and a printed circuit board. The coin type vibration motor according to claim 1, wherein at least two conductive land parts are formed on an outer side of the lower case. The coin type vibration motor according to claim 1, wherein the brush is mechanically connected to one end of the auxiliary piece which is bent approximately vertically, and the auxiliary piece is electrically connected to a printed circuit board forming a lower case. . The coin-type vibration motor according to claim 1, wherein the rotor is eccentrically placed with the weight and molded together with the resin by insert injection.