KR20040064987A - Base structure of vibration motor for stable contact point - Google Patents

Abstract

PURPOSE: A base structure is provided to allow a vibration motor to operate in a stable manner by maintaining the position of a contact point at the initial state. CONSTITUTION: A vibration motor comprises a rotor, a stator, an oscillator(40), and a base assembly(50). The base assembly includes a terminal pin(14) having an end connected to a brush(13) in such a manner that the brush is provided with a power from an external source; a lead wire(17) having an end connected to the other end of the terminal pin, the other end curved downward so as to form a contact point, and an intermediate portion having a curvature(172) against vibration and impact; and a protector having a wire hole(52) which accommodates the curvature of the lead wire so as to prevent deformations of the lead wire, and a vertical wire guide(51) for accommodating the portion formed between the curvature of the lead wire and the contact point.

Description

Base structure of vibration motor for stable contact point

The present invention relates to a vibration motor, and more particularly, to a base structure of a vibration motor for making the external power supply stable in the vibration motor. In particular, the present invention can be applied to the stable power supply of the bar type vibration motor.

As the spread of mobile phones spreads, vibration motors are in the spotlight as a method of transmitting incoming signals without harming others in public places. This is not only a mobile phone but also variously used as a means of informing a specific signal using vibration.

1 is a longitudinal cross-sectional view of a conventional bar type vibration motor.

Referring to FIG. 1, the vibration motor includes a stator, a rotor, and a vibrator. The rotor includes a rotor shaft 31, a bush 33 for fixing the rotor shaft 31 so as not to shake itself, and a current. The commutator 37 for transmitting the to the coil 39 is injection-molded winding holder 35, and the coil 39 is included. The stator includes a magnet 25 press-fitted by the bending end 10a of the cylindrical case 10 and a housing 25 having the bearing 21 press-fitted on both sides thereof, and fixed to an outer surface of the housing 23. A brush holder 15 including a lead wire 17 and a brush 13 is included at one end of the case 10.

The conventional bar type vibration motor is supported by the rotor shaft 31 of the rotor penetrating the bearing housing 23 of the stator, and the coil 39 of the rotor is disposed between the magnet 25 and the inside of the case 10. The eccentric vibrator 40 is coupled to the rotor shaft 31 which is positioned and exposed to the outside of the case 10 on the bent side. In addition, the base assembly 16 is formed to apply power from the outside.

In the bar type vibration motor, the rotor shaft 31 coupled to the coil 39 and one body by the attraction force and the repulsive force between the coil 39 and the magnet 25 is rotated by a power source applied from the outside. Vibration is generated by rotating the eccentric vibrator 40 coupled to the end of the rotor shaft 31 by the rotation of the rotor shaft 31.

2 is a perspective view of a base assembly of a conventional vibration motor.

1 and 2, the base assembly 16 includes a terminal pin 14 connected to the brush 13, and a lead wire 17 connected to the terminal pin 14 and extending downward. A horizontal wire insertion groove 161 for guiding the path of the lead wire 17 may be included.

In particular, the lead wire 17 has a curved portion 172 is formed to support the shape of the vibration wire and the impact applied when the vibration motor is installed, the curved portion 172 is a horizontal wire insertion groove ( 161 is formed along the lower outer surface of the base assembly 16. In addition, the end of the lead wire 17 is bent and the bent bottom end forms a contact 171.

However, in the conventional base assembly, the lead wire 17 is often bent or deformed due to the vibration caused by the operation of the vibration motor and the impact applied to the vibration motor at the time of installation of the vibration motor. Such deformation of the lead wire 17 often results in a poor contact, and thus often the vibration motor is not operated.

In FIG. 1, a dotted line illustrates an example in which the lead wire 17 is deformed by an impact from inside and outside.

The present invention has been made to solve the problems as described above, and the vibration motor that can prevent the deformation of the lead wire by the vibration applied from the inside or outside during the installation of the vibration motor, or the operation of the vibration motor. It is an object to provide a base structure.

In addition, it is an object of the present invention to provide a base structure of a vibration motor that can prevent the deformation of the vibration motor, in particular the lead wire to implement a reliable operation of the vibration motor.

1 is a longitudinal sectional view of a conventional bar type vibration motor.

2 is a perspective view of a base assembly of a conventional vibration motor.

3 is a diagram illustrating a configuration of a vibration motor according to the present invention.

4 is a perspective view of a base assembly according to the present invention.

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

10 cylindrical case 13 brush 14 terminal pin

15: brush holder 17: lead wire

21: bearing 23: housing 25: magnet

31: rotor shaft 33: bush 35: winding holder

37: commutator 39: coil 40: vibrator

50: base assembly 51: vertical wire guide

52: wire insertion hole 172: curved portion 511: wire insertion groove

The base structure of the vibration motor according to the present invention for achieving the object as described above is a bar type vibration motor comprising a rotor, a stator, a vibrator and a base assembly, the base assembly, the power supplied to the brush from the outside One end is connected to the other end of the terminal pin, and one end is connected to the other end of the terminal pin, and the other end is bent downward to form a contact point. And a protective body having a lead wire formed therein, a wire insertion hole accommodating the curved portion to prevent deformation of the lead wire, and a vertical wire guide accommodating the curved portion and the contact portion.

By the base configuration of the vibration motor described above, the operational reliability of the vibration motor is improved, and a stable contact structure can be achieved.

In addition, the convenience is maximized at the time of installation of the vibration motor has the advantage that can be mounted more convenient and simple vibration motor.

Hereinafter, with reference to the drawings will be described a specific embodiment of the present invention. However, the spirit of the present invention is not limited to the drawings as shown, and the same number is given in the same configuration as in the prior art in order to make the spirit of the present invention clearly explained.

3 is a view for explaining the configuration of a vibration motor according to the present invention.

Referring to FIG. 3, the rotor may include a rotor shaft 31, a bush 33 for fixing the rotor shaft 31 so as not to shake itself, and a commutator 37 for transmitting a current to the coil 39. The winding holder 35 and the coil 39 are included. The stator includes a magnet 25 press-fitted by the bending end 10a of the cylindrical case 10 and a housing 25 having the bearing 21 press-fitted on both sides thereof, and fixed to an outer surface of the housing 23. A brush holder 15 including a lead wire 17 and a brush 13 is included at one end of the case 10. Then, the rotor shaft 31 of the rotor penetrates and is supported by the bearing housing 23 of the stator, and the coil 39 of the rotor is positioned between the magnet 25 and the inner side of the case 10, and the bending The eccentric vibrator 40 is coupled to the rotor shaft 31 exposed to the outside of the case 10 on the side.

The lead wire 17 includes a curved portion 172 that is bent in a depressed shape so as not to be deformed by an impact from the outside or an internal vibration, and the end of the lead wire 17 is formed with a contact at the lowermost end thereof. In order to bend upwards.

In addition, the lead wire 17 is inserted into the base assembly 50, the base assembly 50 is to prevent the lead wire 17 from being deformed by the shock and vibration generated therein during installation. For this purpose, the horizontal wire insertion hole 52 formed by inserting the curved portion 172 and the vertical wire guide extending downward to prevent deformation of a portion extending perpendicular to the end of the lead wire 17 are not deformed. 51 and a wire insertion groove 511 in which the side surface of the vertical wire guide 51 is recessed is included.

In particular, since all of the curved portions 172 are inserted into the wire insertion hole 52, deformation does not occur in the curved portions 172.

4 is a perspective view of a base assembly according to the present invention.

Referring to FIG. 4, the base assembly 50 includes a terminal pin 14 having one end in contact with the brush 13, a lead wire 17 having the other end of the terminal pin 14 in contact with the lower end, and the lead. In order to maintain and guide the shape of the wire 17, a protector formed in a shape similar to that of the lead wire 17 is included.

The protector is inserted in the lead wire 17 with a curved portion 172 in the shape of a wire insertion hole (see 52 in FIG. 3) to prevent deformation, and so that the rough end of the lead wire 17 is not deformed. In order to form a vertical wire guide (refer to 51 of FIG. 3) perpendicular to the lower side of the protector, and a wire insertion groove (refer to 511 of FIG. 3) recessed inward from one side of the vertical wire guide 51 is formed. .

In particular, the wire insertion hole 52 is formed as a hole that is horizontally dug, and the curved portion 172 of the recessed lead wire 17 is embedded. Therefore, deformation does not occur in the curved portion 172 of the lead wire 17. In detail, since the curved portion 172 is inserted and supported inside the wire insertion hole 52, deformation up and down is not caused by external force.

In addition, since the vertical wire guide 51 extends downward to protect the lead wire 17, the vertical wire guide 51 is not deformed from side to side.

In particular, since the side of the vertical wire guide 51 includes a recessed wire insertion groove 511 and the lead wire 17 is placed inside the wire insertion groove 511, the vertical deformation of the lead wire 17 It can also be prevented.

As described above, the base assembly of the vibration motor according to the present invention has a wire insertion hole 52 and a vertical wire guide along a path of the lead wire 17 in order to prevent deformation of the lead wire 17. 51 and the wire insertion groove 511 may be formed so that the position is protected and the position of the contact to which power is applied can be maintained as much as possible.

The present invention allows the position of the contact point to which the power is applied from the outside in the vibration motor can be maintained in the initial state as possible to ensure stable operation of the vibration motor.

In addition, by preventing the deformation of the lead wire due to external impact during initial installation of the vibration motor, there is an effect that the convenience of assembling the vibration motor can be improved.

Claims (2)

In a bar type vibration motor comprising a rotor, a stator, a vibrator and a base assembly, The base assembly, A terminal pin having one end connected to the brush to supply power to the brush from the outside, One end is connected to the other end of the terminal pin, and the other end is bent downward to form a contact point, and a lead wire having a curved portion formed so as to be strong against vibration and impact at about an intermediate portion thereof; The base structure of the vibration motor, characterized in that it comprises a wire insertion hole for receiving the curved portion to prevent deformation of the lead wire, and a vertical wire guide for receiving between the curved portion and the contact portion is formed. The method of claim 1, One side of the vertical wire guide base structure of the vibration motor, characterized in that the wire insertion groove is formed to be formed in order to stably lay the lead wire.