KR102145495B1 - Shortening direction horizontal vibrating motor - Google Patents

Abstract

The present invention relates to a uniaxial horizontal vibration motor. Particularly, a vibration direction of the vibration motor can be driven in a uniaxial direction to be applied to mobile phones, smart glasses, smart watches, and small mobile devices while concentrativeness of an electromagnetic field is increased to increase an electromagnetic force and a vibration response time.

Description

Short axis horizontal vibration motor{SHORTENING DIRECTION HORIZONTAL VIBRATING MOTOR}

The present invention relates to a uniaxial horizontal vibration motor. In particular, the vibration direction of the vibration motor can be driven in the uniaxial direction so that it can be applied to mobile phones, smart glasses, smart watches, and small mobile devices, while increasing the concentration of the electromagnetic field to increase electromagnetic force. It relates to a uniaxial horizontal vibration motor capable of improving over-vibration response time.

In general, in accordance with the recent rapid development of wireless communication technology, portable communication devices are becoming smaller and lighter, and according to this trend of miniaturization and weight reduction, components including instrumentation devices, IC chips, and circuits mounted inside portable communication devices are highly integrated and As it becomes highly functional, it is necessary to evolve the size and shape to increase the space utilization.

Also, a flat vibration motor installed inside a portable communication device to notify an incoming call by silent vibration has also been studied in accordance with the above-described trend.

Early models of vibration motors mounted inside portable communication devices were in the form of rotary vibration motors with a stator and a rotor as the basic configuration, and these rotary vibration motors fix the shaft to the bracket of the stator and support the rotor to the shaft. Vibration was generated by vibrating, and in order to improve the vibration force, the volume of the rotor was increased or the number of revolutions was increased to improve the vibration force. However, there was a limitation in miniaturization due to structural problems, as well as many difficulties in generating high vibration. There was a problem that the lifespan of a certain time or longer cannot be guaranteed.

In order to improve the problem of the rotary vibration motor, a horizontal vibration actuator type vibration motor has recently been proposed, and the proposed horizontal vibration actuator type vibration motor has an upper case and a lower case opposite each other, and at least one side of the upper case and the lower case. At least one of the formed magnetic force generating means, the magnet to which the attractive force or repulsive force opposed to the magnetic force generating means is applied, the weight to form a body by mounting the magnet to increase the vibration force while moving left and right, and the upper and lower surfaces of the heavy object. It comprises an elastic means positioned at the bottom of one side to elastically support a heavy object, and a fixing member for fixing the other end of the elastic means to the upper case and the lower case.

Such a horizontal vibration type actuator type vibration motor is widely used in recent years because it has the advantage of extending the service life, overcoming size limitations, and obtaining a fast response speed compared to a rotary vibration motor.

On the other hand, the horizontal vibration motor prevents internal parts from being impacted by the vibrating body, thereby improving the life of the vibrating motor, and the better the vibrating force of the vibrating body, the better the vibrating motor can be manufactured. There is a continuous demand for the development of a vibration motor with more improved over-vibration force.

Unexamined Patent Publication No. 10-2010-0073301 (2010.07.01.)

The present invention was conceived to solve the above-described conventional problems, and a uniaxial horizontal vibration motor capable of improving the electromagnetic force and vibration response time by increasing the concentration of the electromagnetic field while allowing the vibration direction of the vibration motor to be driven in the uniaxial direction. Its purpose is to provide.

The present invention for achieving the above object,

A bracket 100;

A PCB 200 provided above the bracket 100 to supply external power;

A vibration generator 300 provided above the bracket 100 and provided to generate a vibration signal by external power supplied;

A horizontal vibration generating unit 400 provided on both sides of the vibration generating unit 300 to concentrate a magnetic field, and to generate a left and right horizontal vibration;

A weight 500 provided on both sides of the horizontal vibration generating unit 400 to amplify the vibration using weight and to determine a resonance frequency;

A plate 600 that fixes the weight 500 and the spring 700 and prevents deformation of the spring 700 due to an impact;

A spring 700 mounted on the upper portion of the plate 600 and fixed to the case 800 to amplify the vibration and to determine a resonance frequency; And

In order to improve the electromagnetic force and vibration response time by increasing the concentration of the electromagnetic field while fixing the spring 700 and including the case 800 provided to form an outer edge, the vibration direction of the vibration motor can be driven in the short axis direction. Is composed.

Therefore, the present invention allows the vibration direction of the vibration motor to be driven in the short axis direction so that it can be applied to mobile phones, smart glasses, smart watches and small mobile devices, and improves the electromagnetic force and vibration response time by increasing the concentration of the electromagnetic field. It has the effect of providing a horizontal vibration motor in a short axis direction.

1 is an exploded perspective view of a horizontal vibration motor in a short axis direction according to the present invention.
2 is a cross-sectional view of a horizontal vibration motor in a short axis direction according to the present invention.
3 is a longitudinal cross-sectional view showing a state in which the vibration generating unit is coupled to the bracket in the uniaxial horizontal vibration motor according to the present invention.
4 is a longitudinal sectional view showing various embodiments of a vibration generating unit in a horizontal vibration motor in a short axis direction according to the present invention.
5 is a cross-sectional view showing a vibration generating unit and a horizontal vibration generating unit in the uniaxial horizontal vibration motor according to the present invention.
6 is a plan view showing another embodiment of a spring in the uniaxial horizontal vibration motor according to the present invention.
7 is a front view showing various embodiments of a spring in the uniaxial horizontal vibration motor according to the present invention.
8 is a view comparing the distribution of an electromagnetic field according to the presence or absence of a magnet plate in the uniaxial horizontal vibration motor according to the present invention.
9 is a view comparing the response characteristics of a horizontal vibration motor in a uniaxial direction according to the present invention and a conventional horizontal vibration motor.
10 is a cross-sectional view showing another embodiment of the horizontal vibration motor in the short axis direction according to the present invention.
11 is a cross-sectional view showing another embodiment of the horizontal vibration motor in the short axis direction according to the present invention.

Hereinafter, the present invention may apply various transformations and may have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to a specific embodiment, it is to be understood to include all conversions, equivalents, and substitutes included in the spirit and scope of the present invention.

The present embodiments are provided to describe the present invention in more detail to those of ordinary skill in the art to which the present invention pertains. Therefore, the shape of each element shown in the drawings may be exaggerated to emphasize a more clear description, and in describing the present invention, when it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof Is omitted.

The terms used in the present invention are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In the present invention, terms such as "comprises" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance.

First of all, the present invention relates to a uniaxial horizontal vibration motor, the bracket 100, the PCB 200, the vibration generating unit 300, the horizontal vibration generating unit 400, the weight 500, the plate 600, the spring 700 ) And the case 800 may be configured to include any one or more.

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

1 and 2,

1 is an exploded perspective view of a uniaxial horizontal vibration motor according to the present invention, and FIG. 2 is a cross-sectional view of a uniaxial horizontal vibration motor according to the present invention.

The present invention according to an embodiment,

A bracket 100;

A PCB 200 provided above the bracket 100 to supply external power;

A vibration generator 300 provided above the bracket 100 and provided to generate a vibration signal by external power supplied;

A horizontal vibration generating unit 400 provided on both sides of the vibration generating unit 300 to concentrate a magnetic field, and to generate a left and right horizontal vibration;

A weight 500 provided on both sides of the horizontal vibration generating unit 400 to amplify the vibration using weight and to determine a resonance frequency;

A plate 600 that fixes the weight 500 and the spring 700 and prevents deformation of the spring 700 due to an impact;

A spring 700 mounted on the upper portion of the plate 600 and fixed to the case 800 to amplify the vibration and to determine a resonance frequency; And

A case 800 is provided to fix the spring 700 and form an outer periphery thereof.

3,

3 is a longitudinal cross-sectional view showing a state in which the vibration generating unit is coupled to the bracket in the uniaxial horizontal vibration motor according to the present invention.

The bracket 100 is

A yoke plate fixing groove 110 is provided in the center having a flat plate shape made of a non-magnetic material or a weak magnetic material, so that the fixing protrusion 332 provided under the yoke plate 330 of the vibration generating part 300 is fitted. And, between the yoke plate 330, the stepped 311 on both sides of the yoke shaft 310 with the coil 320 fitted therein is provided to fit into the stepped hole 331.

Referring to Figure 4,

4 is a longitudinal sectional view showing various embodiments of a vibration generating unit in a horizontal vibration motor in a short axis direction according to the present invention.

The vibration generating unit 300 is

As shown on the left side of Fig. 4, the yoke shaft 310 and the coil 320 fitted and supported by the yoke shaft 310 are provided with a magnetic material having a circular cross section. As shown on the right side of, the corner may be provided with a magnetic material having a rectangular cross section in a round shape.

5,

5 is a cross-sectional view showing a vibration generating unit and a horizontal vibration generating unit in the uniaxial horizontal vibration motor according to the present invention.

The vibration generating unit 300 is inserted between the yoke shaft 310 having stepped jaws 311 on both side ends, and the yoke shaft 310 and the stepped 311, and is generated by being connected to the PCB 200 A yoke plate having a coil 320 provided to generate a vibration signal according to an electromagnetic field and a stepped hole 331 into which the stepped 311 is fitted, and having a fixing protrusion 332 fixed to the bracket 100 at the lower end Consists of 330.

형태로 절곡되도록 구비되어 있다.The horizontal vibration generator 400 is a permanent magnet that generates a magnetic field, and a magnet 410 provided to generate left and right horizontal vibration by acting with the magnetic field of the coil 320 and a magnet in the middle of concentrating the magnetic field of the magnet 410 A magnet plate 420 provided to fix 410 is included. At this time, the magnet plate 420 has both side ends surrounding the magnet 410 so as to increase the concentration of the magnetic field.

It is provided to be bent in shape.

6,

6 is a plan view showing another embodiment of a spring in the uniaxial horizontal vibration motor according to the present invention.

The spring 700 is a spring body 710 having a rectangular flat plate shape, as shown in the upper part of Fig. 6, a form expanded outward toward one end of the other end of the spring body 710. The other spring arm 720 bent to have and one spring arm 730 bent so as to have a shape extended outward toward the other end of one end of the spring body 710 are integrally provided.

The other spring arm 720 is bent toward the lower end of the spring body 710 and corresponds to the other weight fixing piece 722 and the other weight fixing piece 722 provided to be fixed to the weight 500 As much as possible, it is provided at one end of the other spring arm 720 and is provided with the other case fixing piece 721 provided to be fixed to the case 800.

The one side spring arm 730 is bent toward the bottom at one end of the spring body 710, and corresponds to the one side weight fixing piece 732 and the one side weight fixing piece 732 provided to be fixed to the weight 500 As much as possible, it is provided with a case fixing piece 731 provided at the other end of the spring arm 730 and fixed to the case 800.

In the present invention, the other side weight fixing piece 722, the other side case fixing piece 721, one side weight fixing piece 732, and one side case fixing piece 731 have a simple shape, but in addition to these shapes, the lower part of FIG. As shown, the other side weight fixing piece 722, the other side case fixing piece 721, one side weight fixing piece 732, and one side case fixing piece 731 may be provided with a support piece (SP), respectively. . In this case, the purpose is to be able to more firmly fix the coupling portion by the support piece (SP).

Referring to Figure 7,

7 is a front view showing various embodiments of a spring in the uniaxial horizontal vibration motor according to the present invention.

In the present invention, one spring arm 730 and the other spring arm 720 of the spring 700 have a simple rectangular shape, but in addition to this shape, as shown in the upper part of FIG. The improvement groove SG may be provided, or, as shown in the middle of FIG. 7, a curved stress improvement groove SG may be provided only at the lower portion.

In addition, in addition to this shape, as shown in the lower part of FIG. 7, it is possible to provide a curved stress improvement groove (SG) in the upper and lower portions, respectively. In this case, while the stress applied to the spring 700 is improved so that the life span can be extended, amplification of the vibration is facilitated, and the resonant frequency can be determined more easily.

Referring to Figure 8,

8 is a view comparing the distribution of an electromagnetic field according to the presence or absence of a magnet plate in the uniaxial horizontal vibration motor according to the present invention.

When there is a magnet plate in the horizontal vibration motor in the short axis direction according to the present invention, as shown in the upper part of Fig. 8, it can be seen that the electromagnetic field force (y-axis) in the vibration direction acts three times higher, and the magnet plate is In the absence of this, as shown in the lower part of Fig. 8, it can be seen that the electromagnetic field force (y-axis) in the vibration direction acts three times lower. In other words, it can be seen that the force acting in a direction (x) other than the vibration direction (y) is superior to that of the diesel without the magnet plate, so that the single vibration can be improved.

9,

9 is a view comparing the response side of the horizontal vibration motor in the uniaxial direction and the conventional horizontal vibration motor according to the present invention.

As shown in Fig. 9, the response measured values of the conventional horizontal vibration motor have r2 of 10 to 105 [mSec] and f2 of 300 to 483 [mSec], whereas the response measured values of the horizontal liner vibration motor of the present invention As the R1 has 0~55 [mSec] and F1 has 300~363 [mSec], it can be seen that the response characteristics are improved by about 2 times or more.

Referring to Figure 10,

10 is a cross-sectional view showing another embodiment of the horizontal vibration motor in the short axis direction according to the present invention.

The other spring arm 720 includes an outer portion of the other side weight fixing piece 722, a portion spaced apart by a predetermined interval from the portion where the other case fixing piece 721 abuts the case 800, and the one side spring arm 730 ) May be provided with a damper DP at an outer portion of the one side weight fixing piece 732 and a portion spaced apart from a portion where the one side case fixing piece 731 abuts the case 800 at a predetermined interval. . At this time, the response characteristic may be further improved by the damper DP.

Referring to Figure 11,

11 is a cross-sectional view showing another embodiment of the horizontal vibration motor in the short axis direction according to the present invention.

The other spring arm 720 has an inner portion where the other weight fixing piece 722 ends, the outer portion of the magnet plate 420 and the one spring arm 730 is an inner portion where one weight fixing piece 732 ends. , The magnetic fluid MF may be provided between the outer portions of the magnet plate 420, respectively. At this time, response characteristics may be further improved by the magnetic fluid MF.

In the above, the present invention has been described based on what is shown in the drawings, but this is only exemplary, and various substitutions, modifications, and changes are possible within the scope of the technical spirit of the present invention. It is not limited.

100: Bracket 200: PCB
300: vibration generator 310: yoke shaft
311: step 320: coil
332: fixing projection 330: yoke plate
400: horizontal vibration generating unit 410: magnet
420: magnet plate 500: weight
600: plate 700: spring
710: spring body 720: other spring arm
730: one side spring arm 800: case

Claims (12)

A bracket 100 having a yoke plate fixing groove 110 formed in the center having a flat plate shape;
A PCB 200 provided above the bracket 100 to supply external power;
A yoke shaft 310 having stepped jaws 311 at both ends is inserted between the yoke shaft 310 and stepped 311, and is connected to the PCB 200 to generate a vibration signal according to the generated electromagnetic field. A vibration generating unit including a coil 320 and a stepped hole 331 into which the stepped step 311 is fitted, and a yoke plate 330 having a fixing protrusion 332 fixed to the bracket 100 at a lower end thereof (300) and;
As a permanent magnet generating a magnetic field, a magnet 410 provided to generate left and right horizontal vibration by acting with the magnetic field of the coil 320 and the magnet 410 is fixed while concentrating the magnetic field of the magnet 410, and both ends To wrap the magnet 410

A horizontal vibration generating unit 400 including a magnet plate 420 provided to be bent in a shape;
A weight 500 provided on both sides of the horizontal vibration generating unit 400 to amplify the vibration using weight and to determine a resonance frequency;
A plate 600 that fixes the weight 500 and the spring 700 and prevents deformation of the spring 700 due to an impact;
A spring body 710 having a flat plate shape, and the other side weight fixing piece provided to be fixed to the weight 500 and bent to have a shape expanded outward toward one end of the other side of the other end of the spring body 710 The other side spring arm 720 provided with the other side case fixing piece 721 to be fixed to the case 800 and provided at one end of the other side spring arm 720 so as to correspond to the other side weight fixing piece 722 ) And one side weight fixing piece 732 provided to be fixed to the weight 500 bent so as to have a shape expanded outward toward the other end at one side of one end of the spring body 710, and the one side weight fixing piece A spring 700 provided integrally with one spring arm 730 provided with one case fixing piece 731 to be fixed to the case 800 by being provided at the other end of the spring arm 730 on the one side to correspond to the 732 ; And
The other side weight fixing piece 722, the other side case fixing piece 721, one side weight fixing piece 732, and one side case fixing piece 731 each have a support piece (SP) to fix the spring 700, and , A horizontal vibration motor in a short axis direction, characterized in that it includes a case 800 provided to form an outer periphery.
delete delete delete delete delete delete delete delete The method of claim 1,
The other spring arm 720 includes a portion spaced apart by a predetermined interval from an outer portion of the other side weight fixing piece 722 and a portion where the other case fixing piece 721 abuts the case 800, and the one side spring arm ( 730 is characterized in that a damper (DP) is provided at a portion spaced apart by a predetermined interval from an outer portion of the one side weight fixing piece 732 and a portion where the one side weight fixing piece 732 abuts the case 800 Single axis horizontal vibration motor.
The method of claim 1,
The other side spring arm 720 is an inner portion where the other side weight fixing piece 722 ends and an outer portion of the magnet plate 420, and the one side spring arm 730 is an inner side where the one side weight fixing piece 732 ends. A horizontal vibration motor in a short axis direction, characterized in that a magnetic fluid (MF) is provided between the portion and the outer portion of the magnet plate 420, respectively.

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