KR101151396B1 - Horizontal type linear shock motor for cellular phone - Google Patents

Abstract

PURPOSE: A horizontal linear vibration motor for a communication terminal is provided to improve vibration performance of a vibrator using an elastic member which includes a supporting plate for supporting between the vibrator and an upper case. CONSTITUTION: A space part is formed inside lower and upper cases(100,200). A permanent magnet(410) is arranged near the upper part of a coil part. A vibrator(400) is horizontally vibrated using magnetic interactions. A combining member(500) is vertically penetrated in order to combine the vibrator inside the combining member. An elastic member(600) is arranged between the combining member and the upper case. A supporting plate(610) is welded and combined with a plurality of points. An elastic connection part(620) provides horizontal resilient force.

Description

Horizontal type linear shock motor for communication terminal {Horizontal type linear shock motor for cellular phone}

The present invention relates to a vibration motor for a communication terminal, and in particular to form an elastic member having a pair of support plates in parallel to support between the vibrating portion and the upper case to correspond to both sides of the linear motor, and a pair of support plates By forming the welding portion between the coupling member and the upper case in the same line, it is possible to stable support to improve the vibration performance of the vibrating portion, and even if the load is repeatedly transmitted to the coupling portion can be easily maintained without being separated The present invention relates to a horizontal linear vibration motor for a communication terminal.

In general, ring tone or vibration is used to make a call from a communication device. In this case, in order to use vibration, a small vibration motor is driven so that the driving force is transmitted to the case of the device so that the whole device can vibrate.

To this end, a vibration motor, which is one of the receiving means that is applied to a communication device such as a communication terminal (mobile phone, etc.) is a component that converts electrical energy into mechanical vibration using the principle of generating electromagnetic force.

However, the mobile phone market is expanding rapidly, and with the demand for new functions, the adoption of touch screens for the use of multimedia is rapidly increasing. As the vibration is required, the necessity for the development of a new structure with a faster response and a higher vibration force than existing products is emerging.

Recently, the necessity for a vibration generating device for generating a variety of vibration for the implementation of the multi-function, multimedia functions of the communication terminal is increasing, the vibration motor applied to the communication terminal, etc. according to the shape of the coin type (coin type) ) And a long bar type.

Among these, the coin-type vibration motor includes a cylindrical body divided into a lower case and an upper case to form a space part, and a stator assembly and a rotor assembly installed in the space part of the body.

The stator includes a lower substrate bonded to an upper surface of a bracket, which is a circular flat plate, and includes an annular magnet having a concentric circle on the outer side of the lower substrate.

The bar type vibration motor includes a cylindrical body forming a space part, and a stator and a rotor installed in the space part of the body. In addition, the stator includes a fixed cap and a magnet fixed to one side of the main body, the rotor is divided into one side of the eccentric weight and the fixed body and a plurality of commutator and a plurality of coils fixed to the fixed body It is included.

Coin-type or bar-type vibration motors described above use a method of obtaining mechanical vibration by rotating a rotating part having an unbalanced mass, although there are some differences in shape. It generates through the structure to supply the current to the rotor coil through.

Such a conventional coin-type vibration motor has a cylindrical shape and its application range is limited, and the bar-type vibration motor has a difficulty in forming a constant space since the rotor rotates.

In another form, a linear vibration motor, in which a vibrator vibrates horizontally through interaction of a coil and a magnet, to which power is supplied, so as to be thinned and installed in a communication terminal, has been proposed.

However, the conventional horizontal linear vibration motor has a repulsive action structure in which the vibrating part is supported by the elastic member in both directions, but the elastic member has cracks and cracks at the coupling portion between the vibrator and the elastic member by repeated repulsive force and moment action. It may cause breakage and shorten the life of the product.

Accordingly, the present invention is to solve the problems of the prior art as described above, by applying an elastic member having a pair of parallel support plate to support between the vibrating portion and the upper case, it is possible to stable support the vibration performance of the vibrating portion The first purpose is to improve.

In addition, the center of the coupling portion of the pair of elastic member support plate and the vibrating portion and the upper case to form the same line to minimize the distortion caused by the moment during operation, and welded to both sides around the bending position of the coupling portion By distributing the load, the second object is to maintain a firmly coupled state without being easily separated even if the load is repeatedly transmitted to the coupling portion.

A lower case and an upper case having a space formed therein by mutual coupling, a coil part installed on an upper part of the lower case, and supplied with power from the outside, and a permanent magnet adjacent to an upper part of the coil part, A pair of vibrating portions vibrating horizontally by mutual magnetic interaction with the coil portion, a coupling member vertically penetrated to couple the vibrating portion therein, and a pair disposed between the coupling member and the upper case to exert an elastic repulsive force And a pair of elastic members, the pair of elastic members being disposed to be in contact with both sides of the coupling member and the inner wall surface of the upper case, respectively, and a plurality of points on both inner wall surfaces of the coupling member and the upper case. A pair of support plates welded and coupled to each other, and provided between the pair of support plates, the ends of each of the longitudinal ends being horizontally bent The pair of support plates are integrally connected to each of the two surfaces facing each other, and an elastic connection part for applying an elastic repulsive force horizontally is included.

The coil unit is installed on the upper surface of the lower case, the terminal portion is exposed to the outside of the upper case and the lower case so that power is supplied from the outside, and electrically coupled to the upper surface of the terminal portion, the plurality of winding power Preferably, the coil is provided with a magnetic action by the permanent magnet.

The vibration unit, the yoke provided on the upper portion of the permanent magnet, the insertion groove is formed in the lower portion so that the yoke and the permanent magnet is coupled, it is preferable that the weight is provided to provide the weight required for vibration.

The insertion groove of the vibrator is formed to open in the direction of the pair of elastic members, and the N pole and the S pole of the permanent magnet are formed to face the direction in which the pair of elastic members are positioned, the pair of It is preferable that the elastic members are disposed to correspond to the direction perpendicular to the permanent magnet.

The pair of support plates may be arranged side by side to be parallel to each other, and both ends of the elastic connecting portion may be connected to an upper portion of one end portion, respectively.

The pair of support plates are arranged side by side so as to be parallel to each other, a pair of upper and lower support portions are respectively formed up and down so that one side is connected to the center of the incision horizontally cut one side end, the elastic connection portion Is, both ends in the longitudinal direction is horizontally connected to the connection portion of the lower support and the upper support through the incision, it may be located between the upper support and the lower support.

The bent portion of the elastic connector may be formed to be horizontally rounded.

The pair of elastic members may be eccentrically disposed in the opposite direction such that the bent portion of the elastic connecting portion is adjacent to the inner wall surface of the upper case.

The pair of support plates may be coupled to both side surfaces of the coupling member and the inner side walls of the upper case by a plurality of welding parts.

The pair of upper support parts and the lower support parts are coupled by five welding parts to both side surfaces of the coupling member and the inner both side wall surfaces of the upper case, and the welding parts have two points vertically on one side where the cutout is formed. A first welding portion positioned at a second position, a second welding portion positioned at one point at the center of one surface of the other side of the first welding portion, and positioned between the first welding portion and the second welding portion, and the coupling member and the upper portion. A third welding part may be provided at two centers up and down to form the same line at the center of the case.

The pair of upper support parts and the lower support parts are coupled by six welding parts to both side surfaces of the coupling member and the inner both side wall surfaces of the upper case, and the welding parts have two points vertically on one side where the cutout is formed. A first welding portion positioned at a position, a central one point on one side of the other side of the first welding portion, a second welding portion positioned at two points above and below the central one point, and between the first welding portion and the second welding portion. Located in the, and the center of the coupling member and the upper case may be provided with a third welding portion located in two points up and down to form the same line.

As described above, the present invention has the advantage that the vibration performance is improved by vibrating in a state in which the vibration part is stably supported by applying a pair of horizontal elastic members.

In addition, the center of the coupling portion, the vibration portion and the upper case of the support plate to form the same line to minimize the distortion caused by the moment during operation, by welding to both sides around the bending position of the coupling portion to distribute the load, Even though the load is repeatedly transmitted to the coupling portion, it is not easily separated and there is an advantage of maintaining a firmly coupled state.

1 is an exploded perspective view of a horizontal linear vibration motor for a communication terminal according to the present invention.
2 is a combined perspective view of a horizontal linear vibration motor for a communication terminal according to the present invention.
3 is a plan view of a lower case, a coil part, a vibration part, a coupling member, and an elastic member for a horizontal linear vibration motor for a communication terminal according to the present invention.
Figure 4 is a perspective view showing five welds on the elastic member of the horizontal linear vibration motor for a communication terminal according to the present invention.
5 is a front view illustrating the elastic member according to FIG. 4.
6 is a side view illustrating the elastic member of FIG. 5.
7 is a perspective view showing a state in which six welding parts are applied to an elastic member of a horizontal linear vibration motor for a communication terminal according to the present invention.
Figure 8 is a perspective view for showing that the length of the support plate is short formed in the horizontal linear vibration motor for a communication terminal according to the present invention.
Figure 9 is a perspective view for showing that the elastic connecting portion formed on the upper side of the support plate in the horizontal linear vibration motor for a communication terminal according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In describing the present invention, the defined terms are defined in consideration of the function of the present invention, and should not be understood in a limiting sense of the technical elements of the present invention.

As shown in Figures 1 to 9, the horizontal linear vibration motor for a communication terminal according to the present invention, the lower case 100 and the upper case 200 and a lower case (100) having a space formed therein by mutual coupling; It is installed on the upper portion of 100, the coil unit 300 is supplied with power from the outside, and a permanent magnet is provided adjacent to the upper portion of the coil unit 300, by mutual magnetic interaction with the coil unit 300 Vibration unit 400 that vibrates horizontally, the coupling member 500 vertically penetrated so that the vibration unit 400 is coupled therein, and is disposed between the coupling member 500 and the upper case 200 It includes a pair of elastic members 600 for applying the elastic repulsive force.

In particular, the pair of elastic members 600 are disposed to contact both sides of the coupling member 500 and both sides of the inner wall surface of the upper case 200, respectively, the coupling member 500 and the upper case 200. A pair of support plates 610 welded to a plurality of points on both inner walls of the inner wall) and between the pair of support plates 610, each end 622 being horizontally bent by bending one longitudinal direction horizontally. The pair of support plates 610 are integrally connected to each of the two surfaces facing each other, and include an elastic connection portion 620 that exerts an elastic repulsive force horizontally.

The coil part 300 is installed on the upper surface of the lower case 100, and the terminal part 310 is exposed to the outside of the upper case 200 and the lower case 100 so that power is supplied from the outside. And a coil 320 electrically coupled to an upper surface of the terminal unit 310 and wound in a plurality, and magnetically acting with the permanent magnet 410 by power supply.

One end having a wide surface is horizontally attached to the center portion of the upper surface of the lower case 100, and the other end of the terminal portion 310 has a narrower width than the one end attached to the lower case 100. While extending outward.

Here, the contact point 311 is preferably formed on both sides to be electrically connected to the coil 320, the fixing method of the terminal portion 310 is fixed to the upper surface of the lower case using a separate fastening member (not shown) Or by using an adhesive (not shown).

The vibrator 400 has a yoke (YOKE, 420) provided on the upper portion of the permanent magnet 410, and the insertion groove 431 is formed at the lower portion so that the yoke 420 and the permanent magnet 410 is coupled to the yoke (420). The weight 430 is provided to provide the weight necessary for vibration.

The insertion groove 431 of the vibration unit 400 is formed to open in the direction of the pair of elastic members 600, the permanent magnet 410, the N pole and the S pole is a pair of elastic members 600 ) Is coupled to the insertion groove 431 to face the direction in which it is located.

The lower case 100, the upper case 200, the vibrating unit 400 and the permanent magnet 410 is disposed in a straight line so that the center forms the same line, the pair of elastic members 600 are permanent magnets ( It is preferable to be located respectively corresponding to the orthogonal direction with respect to 410.

Alternatively, the pair of support plates 610 are arranged side by side so as to be in parallel with each other, the upper support portion 611 and the lower support portion in the upper and lower sides so that one side is connected around the incision 630 cut in one end horizontally 612 is formed, respectively, the elastic connecting portion 620, both ends in the longitudinal direction 622 is horizontally connected to the connecting portion of the lower support portion 612 and the upper support portion 611 through the incision 630 It is located between the upper support 611 and the lower support 612.

Here, the upper support 611 and the lower support 612 may be formed shorter than the length of the elastic connection 620. That is, as shown in FIG. 8, the horizontal lengths of the upper support part 611 and the lower support part 612 are shorter than the lengths of both ends 622 and the bent portion of the elastic connector 620.

The pair of elastic members 600, the bent portion 621 of the elastic connecting portion 620 is disposed adjacent to the inner wall surface of the upper case 200. The bent portion 621 of the elastic connector 620 may be horizontally rounded. The pair of upper support parts 611 and lower support parts 612 are coupled to both side surfaces of the coupling member 500 and to both inner wall surfaces of the upper case 200 by a plurality of welding parts P.

Here, the pair of upper support portion 611 and the lower support portion 612 is coupled to the both sides of the coupling member 500 and the inner both side walls of the upper case 200 by five welding portions (P). The welding part P may include a first welding part positioned at two points up and down on one side where the cutout 630 is formed, and a second location located at one center of one surface of the other side of the first welding part. A third welding part positioned between the welding part and the first welding part and the second welding part, and positioned at two points in the vertical direction to form the same line at the center of the coupling member 500 and the upper case 200; It may be provided.

Alternatively, the pair of upper support part 611 and the lower support part 612 is formed by six welding parts P on both side surfaces of the coupling member 500 and both inner wall surfaces of the upper case 200. Is coupled, the welding portion (P), the first welding portion which is located at two points up and down on one side where the cutout 630 is formed, one central point of one surface of the other side of the first welding portion, and the center 1 A second welding portion positioned at two points above and below the point, and positioned between the first welding portion and the second welding portion, to form the same line in the center of the coupling member 500 and the upper case 200. The third welding portion may be provided at two points up and down.

That is, since the welding portion (P) is positioned in the same line as the center of the coupling member 500 and the upper case 200, the force acting in both directions does not twist and acts in a straight line. It is not easily separated and maintains a tight coupling state.

On the other hand, the pair of support plates 610 are respectively arranged side by side to be parallel to each other as shown in Figure 9, both ends 622 of the elastic connecting portion 620 is connected to the upper portion of one end, respectively, the elastic The connection part 620 may be positioned above and below. That is, the height of the product can be lowered by configuring only one support part, not divided into the upper support part 611 and the lower support part 612.

In the case of the shape, the welding part P may have a first welding part located above and below one side in the longitudinal direction of the supporting plate 610, and a second welding part located at the other side of the first welding part, and the first welding part and the The third welding portion may be located between the second welding portions.

As a result, the present invention can be improved by vibrating in a state in which the vibration unit 400 is stably supported by applying the elastic member 600 in which the pair of support plates 610 are horizontal. In addition, the center of the coupling portion of the support plate 610 and the vibrating portion 400 and the upper case 200 to be in the same line to minimize the distortion caused by the moment generated during operation, both sides around the position where the bending of the coupling portion occurs By distributing the load by welding, it is possible to maintain a firmly coupled state without being easily separated even if the load is repeatedly transmitted to the coupling portion.

The technical idea of the horizontal linear vibration motor for a communication terminal according to the present invention has been described above with the accompanying drawings, but this is by way of example and not by way of limitation.

Accordingly, it is a matter of course that various modifications and variations of the present invention are possible without departing from the scope of the present invention. And are included in the technical scope of the present invention.

100: lower case 200: upper case
300: coil portion 310: terminal portion
311: contact 320: coil
400: vibration unit 410: permanent magnet
420: York 430: weight
431: insertion groove 500: coupling member
600: elastic member 610: support plate
611: upper support 612: lower support
620: elastic connection 621: bent portion
622: both ends 630: incision
P: weld

Claims (11)

A lower case and an upper case having a space formed therein by mutual coupling, a coil part installed on an upper part of the lower case, and supplied with power from the outside, and a permanent magnet adjacent to an upper part of the coil part, A pair of vibrating portions vibrating horizontally by mutual magnetic interaction with the coil portion, a coupling member vertically penetrated to couple the vibrating portion therein, and a pair disposed between the coupling member and the upper case to exert an elastic repulsive force It includes an elastic member of,
The pair of elastic members are disposed in contact with both sides of the coupling member and both sides of the inner wall surface of the upper case, and a pair of welded joints to the coupling member and the inner both side wall surfaces of the upper case by a plurality of points. Support plate; And
It is provided between the pair of support plates, by bending one end in the longitudinal direction horizontally, both ends are integrally connected to both sides of the pair of support plates facing each other, the elastic connecting portion for applying an elastic repulsive force horizontally; Horizontal linear vibration motor for communication terminal characterized in that. The method of claim 1,
The coil unit may be installed on an upper surface of the lower case, and a terminal unit in which contact portions are exposed to the outside of the upper case and the lower case so that power is supplied from the outside; And
And a coil electrically coupled to the upper surface of the terminal unit, the coil winding a plurality to magnetically interact with the permanent magnet by a power supply. 2. The method of claim 1,
The vibration unit, the yoke provided on the upper portion of the permanent magnet; And
Insertion groove is formed in the lower portion so that the yoke and the permanent magnet is coupled, the weight weight to provide the necessary weight for vibration; Horizontal linear vibration motor for a communication terminal characterized in that it is provided. The method of claim 3,
The insertion groove of the vibrator is formed to open in the direction of the pair of elastic members, and the N pole and the S pole of the permanent magnet are formed to face the direction in which the pair of elastic members are positioned.
The pair of elastic members, each of the horizontal linear vibration motor for a communication terminal, characterized in that arranged in a direction perpendicular to the permanent magnet. The method of claim 1,
The pair of support plates are arranged side by side to be parallel to each other, the horizontal linear vibration motor for a communication terminal, characterized in that both ends of the elastic connecting portion is connected to the upper portion of one end. The method of claim 1,
The pair of support plates are arranged side by side so as to be parallel to each other, a pair of upper and lower support portions are respectively formed up and down so that one side is connected to the center of the incision horizontally cut one side end,
The elastic connection portion, the horizontal linear vibration for the communication terminal, characterized in that the longitudinal both ends are horizontally connected to the connection portion of the lower support and the upper support through the incision, between the upper support and the lower support. motor. The method of claim 1,
The bent portion of the elastic connector, the horizontal linear vibration motor for a communication terminal, characterized in that it is formed to be horizontally rounded. The method according to claim 5 or 6,
The pair of elastic members, the horizontal linear vibration motor for a communication terminal, characterized in that the eccentric arrangement in the opposite direction so that the bent portion of the elastic connecting portion adjacent to the inner wall surface of the upper case. The method according to claim 5 or 6,
The pair of support plates, the horizontal linear vibration motor for a communication terminal, characterized in that coupled to the both sides of the coupling member and the inner both side wall surface of the upper case by a plurality of welds. 10. The method of claim 9,
The pair of upper and lower support portions are joined by five welding portions to both side surfaces of the coupling member and both inner wall surfaces of the upper case.
The welding part may include a first welding part positioned at two points up and down on one side where the cutout is formed;
A second welding part positioned at one point at the center of one surface of the other side of the first welding part; And
And a third welding part positioned between the first welding part and the second welding part and positioned at two points up and down to form the same line at the center of the coupling member and the upper case. Horizontal linear vibration motor 10. The method of claim 9,
The pair of upper and lower support portions are joined by six welding parts to both side surfaces of the coupling member and both inner wall surfaces of the upper case.
The welding part may include a first welding part positioned at two points up and down on one side where the cutout is formed;
A second welding part positioned at one point at the center of one surface of the other side of the first welding part and at two points above and below the center 1 point; And
And a third welding part positioned between the first welding part and the second welding part and positioned at two points up and down to form the same line at the center of the coupling member and the upper case. Horizontal linear vibration motor

Images