KR102532209B1 - Horizontal linear vibration motor - Google Patents

Abstract

The horizontal linear vibration motor includes a coil that generates electromagnetic force; A center yoke coupled to the coil and magnetized to different polarities according to the direction in which power is applied to the coil; A fixture composed of a bracket having a left protrusion yoke and a right protrusion yoke coupled to the center yoke; permanent magnets disposed in the vertical direction of the central yoke and magnetized with vertical polarity; a plate coupled to an upper surface of the permanent magnet to concentrate the magnetic force lines of the permanent magnet; a vibrating body composed of a weight body coupled to the permanent magnet and the plate; a first elastic member attached to one side of the vibrating body to provide elastic force in a horizontal direction; And the second elastic member attached to the other side of the vibrating body to provide elastic force in the horizontal direction is characterized in that it is configured to include a case in which a space is formed while being coupled with the fixture.

Description

Horizontal linear vibration motor {Horizontal linear vibration motor}

The present invention relates to a vibration motor, and more particularly, to a horizontal linear vibration motor that vibrates in a horizontal direction using a center yoke, a first protrusion yoke, and a second protrusion yoke.

With the development of communication technology, one of the most widely distributed to the public is a mobile communication terminal.

Since mobile communication terminals can communicate in public places unlike wired telephones, a separate call reception mode such as a vibration mode that only a user can know is required in addition to a sound signal such as a bell sound.

The linear vibration generating device, which is recently used as a silent receiving device for mobile terminals, has a short stroke distance and quick vibration characteristics at start and stop compared to existing eccentric rotary vibration generators due to the elastic force of the elastic member. , has been responding to the slimming trend of portable terminals.

Such a linear vibration generating device is generally composed of a vibrator including a permanent magnet and a stator supporting the vibrator, and the electromagnetic force generated by applying a current to a coil disposed on the stator and the interaction between the magnetism generated from the permanent magnet creates permanent permanent vibration. As the magnet moves up and down, vibration occurs.

Specifically, in a conventional linear vibration generator, a stator with a coil and a vibrator with a permanent magnet are disposed in a case, and an elastic member is provided so that the permanent magnet is elastically supported to generate vibration. .

Korean Patent Publication No. 10-2017-0093036 may be cited as a representative conventional linear vibration generator. Such a conventional linear vibration generating device has a structure separated from the thickness slim due to basically operating up and down.

In addition, recently, a horizontal vibration type linear vibration motor has been proposed, and as a representative horizontal vibration motor, Patent Registration No. 10-1728816 can be cited.

Such a conventional horizontal vibration generator is basically a touch-type vibration mode in addition to a call-only vibration, so a quick stop is requested for quick response characteristics due to frequent use.

Therefore, there is a need for a technology for a vibration generating device that can solve the above-mentioned problems according to the prior application patent technology.

The present invention has been proposed to solve the above technical problems, and provides a horizontal linear vibration motor capable of saving space in a vertical direction in a structure in which a vibrating body vibrates while reciprocating in a horizontal direction.

In addition, a horizontal linear vibration motor with fast response characteristics is provided by constructing a permanent magnet split into two poles and magnetized in a direction perpendicular to the central yoke.

According to one embodiment of the present invention, a coil 13 generating an electromagnetic force and a center yoke 14 that is magnetized to different polarities according to the direction in which power is applied to the coil 13 while being coupled with the coil 13; A fixture 10 composed of a bracket 11 having a first protrusion yoke 11a and a second protrusion yoke 11b coupled to the center yoke 14; permanent magnets 32 magnetized in the vertical direction while being disposed in the vertical direction of the central yoke 14; a plate 33 coupled to a side surface of the permanent magnet 32 so as to concentrate the lines of magnetic force of the permanent magnet 32; a vibrating body 30 composed of a weight body 31 coupled to the permanent magnet 32 and the plate 33; a first elastic member 21 attached to one side of the vibrating body 30 to provide elastic force in a horizontal direction; And the second elastic member 22 attached to the other side of the vibrating body to provide elastic force in the horizontal direction is coupled to the stationary body 10 and includes a case 41 in which a space is formed therein. motor is provided.

In addition, the vibrating body 30 is characterized in that the first mount 23 for supporting the first elastic member 21 and the second mount 24 for supporting the second elastic member 22 are additionally formed. to be

In addition, the bracket 11 of the fixture 10 includes a first fixing plate 11c supporting the first elastic member 21 and a second fixing plate 11d supporting the second elastic member 22. It is characterized in that formed by.

In addition, the fixture 10 includes a third mount 25 supporting the first elastic member 21; and a fourth mount 26 supporting the second elastic member 22 is further formed.

In addition, the vibrating body 30, the first damper 34 between the first elastic member 21 is attached to one side of the weight body 31 to provide an elastic force in the horizontal direction; And it is characterized in that the second damper 35 is formed between the second elastic member 22 attached to the other side of the weight body 31 to provide elastic force in the horizontal direction.

In addition, a third damper 42 is provided between the case 41 and the first elastic member 21; And it is characterized in that a fourth damper (43) is formed between the case and the second elastic member (22).

In addition, the permanent magnet 32 is magnetized in a vertical direction and divided into two poles to form a first permanent magnet 32a and a second permanent magnet 32b.

In addition, the bracket 11 is characterized in that the circuit board 12 connected to the external input terminal is installed.

In addition, the outer diameter of the center yoke 14 used to concentrate the electromagnetic force of the coil 13 and maintain stable magnetic properties should be smaller than the inner diameter of the center yoke 14, and the shape of the lower part should be a bracket It is characterized by having a lower coupling protrusion (14a) so as to be fixed with (11).

In addition, the bracket 11 features a bracket 11 having a central hole 11e at a central position where it meets the lower coupling protrusion 14a of the center yoke 14 to fix the center yoke 14. to be

In addition, according to another embodiment of the present invention, the coil 13 for generating an electromagnetic force; A central yoke 14 coupled to the coil 13 and magnetized to different polarities according to the direction in which power is applied to the coil 13; A fixture 50 composed of a bracket coupled to the center yoke 14 and having a first yoke guide 52 in one direction of the center yoke 14 and a second yoke guide 53 in the other direction; A permanent magnet 32 magnetized in a vertical direction while being disposed in a vertical direction of the central yoke 14; a plate 33 coupled to the upper side of the permanent magnet 32 so as to concentrate the lines of magnetic force of the permanent magnet 32; a vibrating body 30 composed of a weight body 31 coupled to the permanent magnet and the plate 33; A first elastic member 21 attached to one side of the vibrating body to provide elastic force in a horizontal direction; And the second elastic member 22 attached to the other side of the vibrating body to provide elastic force in the horizontal direction includes a case 41 having a space formed therein while being coupled with the stationary body 50. do.

A horizontal linear vibration motor according to an embodiment of the present invention is provided by arranging a center yoke concentrating the electromagnetic force lines of a coil and a permanent magnet positioned in the vertical direction of the center yoke and magnetized by dividing into two poles in the vertical direction at the same vertical height. Provided is a horizontal linear vibration motor having a structure in which the vibrating body vibrates while reciprocating in a horizontal direction.

In addition, it constitutes a permanent magnet divided into two poles in the vertical direction with the central yoke.

By suppressing the horizontal free vibration of the vibrating body, by concentrating the electromagnetic force generated in the quick stop and coil on the center yoke, the horizontal motion of the vibrating body is fast, and the first elastic member and the second elastic member coupled with the vibrating body are connected to the outside through the bracket. Provided is a horizontal linear vibration motor capable of fast vibration response characteristics.

1 is an exploded perspective view of a horizontal linear vibration motor according to an embodiment of the present invention;
2 is a vertical cross-sectional view of a horizontal linear vibration motor according to an embodiment of the present invention;
3 is a cross-sectional view taken along line A-A' of a horizontal linear vibration motor according to an embodiment of the present invention;
4 is a view showing a distribution state of electromagnetic force of a fixture according to power applied to a horizontal linear vibration motor according to an embodiment of the present invention;
5 is a diagram showing a distribution state of magnetic force lines by permanent magnets magnetized by dividing into two poles in the vertical direction of a horizontal linear vibration motor according to an embodiment of the present invention.
6 is an exemplary view of left and right horizontal movement of a vibrating body according to a direction of current of a horizontal linear vibration motor according to an embodiment of the present invention;
7 is a vertical cross-sectional view of a horizontal linear vibration motor according to another embodiment of the present invention;
8 is a view showing a fixed body of a horizontal linear vibration motor according to another embodiment of the present invention
9 is a view showing a distribution state of electromagnetic force of a fixture according to power applied to a horizontal linear vibration motor according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings in order to explain the technical idea of the present invention in detail so that those skilled in the art to which the present invention pertains can easily practice. do it with

1 is an exploded perspective view of a horizontal linear vibration motor according to an embodiment of the present invention;

The horizontal linear vibration motor according to the present embodiment includes only a simple configuration for clearly explaining the technical idea to be proposed.

Referring to FIG. 1, a horizontal linear vibration motor 100 includes a stationary body 10, a vibrating body 30, a first elastic member 21, a second elastic member 22, and a case 41. do.

A first elastic member 21 attached to one side of the vibrating body 30 to provide elastic force in the horizontal direction is coupled, and a second elastic member 22 attached to the other side of the vibrating body to provide elastic force in the horizontal direction While combining), the vibration of the vibrating body 30 is transferred to the outside by combining with the bracket 11.

First, in the embodiment of the present invention, the stationary body 10 is composed of a bracket 11, a circuit board 12, a coil 13, and a central yoke 14, and the vibrating body 30 is a weight body 31 ), a permanent magnet 32, a plate 33, a first damper 34, and a second damper 35.

In addition, the center yoke 14 has a lower coupling protrusion 14a to be easily coupled with the bracket 11 and located at the central reference point, and the lower coupling protrusion 14a is coupled to the central hole 11e of the bracket 11. is formed to

In addition, the vibrating body 30 is further formed with a first mount 23 supporting the first elastic member 21 and a second mount 24 supporting the second elastic member 22, thereby forming a vibrating body. (30) is additionally configured to implement smooth left-right vibration of the vibrating body by preventing separation of the first elastic member 21 and the second elastic member 22 when moving left and right.

In addition, the bracket 11 of the fixed body 10 includes a first fixing plate 11c supporting the first elastic member 21 and a second fixing plate 11d supporting the second elastic member 22. composed of

In addition, the fixture 10 includes a third mount 25 supporting the first elastic member 21; And a fourth mount 26 supporting the second elastic member 22 is additionally formed to prevent separation of the first elastic member 21 and the second elastic member 22 when the vibrator 30 moves left and right. It is additionally configured to implement smooth left and right vibration of the vibrating body by preventing it.

In addition, the vibrating body 30, the first damper 34 between the first elastic member 21 is attached to one side of the weight body 31 to provide an elastic force in the horizontal direction; And the second damper 35 is formed between the second elastic members 22 attached to the other side of the weight body 31 to provide elastic force in the horizontal direction, so that when the vibrating body 30 moves left and right, The first elastic member 21 and the second elastic member 22 are additionally configured to realize smooth left and right vibration of the vibrating body 30 while preventing short circuits from occurring by buffering the extreme changes of the elastic member 21 and the second elastic member 22.

In addition, a third damper 42 is provided between the case 41 and the first elastic member 21; And a fourth damper 43 is formed between the case 41 and the second elastic member 22 so that when the vibrator 30 moves left and right, the first elastic member 21 and the second elastic member 22 ) and prevents the vibrating body 30 from colliding with the case 41 due to external shock, so that noise caused by left and right vibration and short circuit caused by external shock do not occur, and the vibrating body 30 ) is additionally configured to implement left and right vibration.

Referring to FIG. 4, when a forward voltage is applied to the coil 13, the electromagnetic force generated by being magnetized in the center yoke 14 passes through the air gap layer and passes through the first protruding yoke 11a. The electromagnetic force lines returning to the central yoke 14 through the center yoke 14 and the electromagnetic force lines returning to the center yoke 14 through the second protruding yoke 11b are maintained.

In addition, when a reverse voltage is applied to the coil 13, the electromagnetic force generated by being magnetized in the center yoke 14 passes through the air gap layer through the first protrusion yoke 11a and returns to the center yoke 14. The electromagnetic force lines and the second protrusion yoke Through (11b), the line of electromagnetic force passing through the air gap layer and returning to the central yoke 14 is maintained.

Referring to FIG. 5, the permanent magnet 32 is magnetized in the vertical direction and divided into two poles, so that the magnetic force lines starting from the first permanent magnet 32a pass through the air gap layer to the second permanent magnet 32b and the plate. (33) to form the distribution of lines of magnetic force returning.

Referring to FIG. 6, in the initial state, lines of magnetic force starting from the first permanent magnet 32a of the permanent magnet 32 magnetized with two poles in the vertical direction pass through the air gap layer, the central yoke 14, and the air gap layer again. 2 vibrating body 30 while balancing the first elastic member 21 and the second elastic member 22 while maintaining the line of magnetic force returning to the first permanent magnet 32a via the permanent magnet 32b and the plate 33 ) is stopped.

At this time, the electromagnetic force generated in the coil 13 according to the application of the forward voltage is a vibrating body by attractive force and repulsive force between the electromagnetic force formed by being concentrated on the central yoke 14 in the center of the coil 13 and the magnetic force line generated from the permanent magnet 32. 30 moves to the left, and the vibrating body 30 stops at a point where the elastic restoring force of the first elastic member 21 and the second elastic member 22 coupled to the vibrating body 30 is in equilibrium.

At this time, when the reverse voltage is changed and applied to the coil 13, it is generated in the opposite direction to the electromagnetic force generated by the forward voltage, and the vibrating body 30 moves to the right due to the attraction and repulsive force between the lines of magnetic force generated from the permanent magnet 32. The vibrating body stops at a point where the elastic restoring force of the first elastic member 21 and the second elastic member 22 coupled to the vibrating body 30 and the equilibrium state are achieved.

At this time, when the voltage is continuously applied to the coil 13 while alternating, the vibrator 30 is operated repeatedly left and right horizontally.

At this time, when the power applied to the coil 13 is turned off, the vibrator 30 moves in the horizontal direction by the elastic restoring force between the first elastic member 21 and the second elastic member 22 and the inertia of the vibrator 30. It operates in the vertical direction and is divided into two poles while being magnetized, so that the lines of magnetic force departing from the first permanent magnet 32a return through the second permanent magnet 32b and the plate 33. ) The line of magnetic force passes through the central yoke 14, suppressing free motion, and stopping in the initial state while making a quick stop.

7 and 8 are vertical cutaway views of a horizontal linear vibration motor 200 according to another embodiment of the present invention with reference to FIGS. The first yoke guide 52, which becomes a magnetic passage like the first protrusion yoke 11a, is coupled to the center yoke 14 magnetized with different polarities along the second protrusion yoke in one direction of the center yoke 14. It constitutes a fixture 50 composed of a bracket 51 having a second yoke guide 53 serving as a magnetic passage as shown in (11b), and is disposed in the vertical direction of the center yoke 14 and has a vertical polarity. A vibrating body 30 composed of a plate 33 coupled to the upper side of the permanent magnet 32 and a weight body 31 is configured to concentrate the magnetic force lines of the permanent magnet 32 to be magnetized.

In addition, a first elastic member 21 attached to one side of the vibrating body 30 to provide elastic force in the horizontal direction and a second elastic member attached to the other side of the vibrating body 30 to provide elastic force in the horizontal direction (22) is combined with the case 41 in which a space is formed therein while being coupled with the fixture 50.

In addition, the bracket 51 of the fixture 50 has a first yoke guide hole 51b and a second yoke guide 53 to be accurately coupled to become a passage of the first yoke guide 52 and electromagnetic force and magnetic force. In order to accurately combine to become a passage of electromagnetic force and magnetic force, a second yoke guide hole 51c is additionally formed and coupled to be coupled to an accurate position.

Referring to FIG. 9, when a forward voltage is applied to the coil 13, the electromagnetic force generated by being magnetized in the center yoke 14 passes through the air gap layer and travels to one side of the center yoke 14. Return to the center yoke 14 through the second yoke guide 53 located on the other side of the center yoke 14 after passing through the electromagnetic force line and air gap layer returning to the center yoke 14 through the first yoke guide 52 located there. It maintains the incoming electromagnetic field lines.

In addition, when a reverse voltage is applied to the coil 13, the electromagnetic force generated by being magnetized in the center yoke 14 passes through the first yoke guide 52 and the air gap layer located on one side of the center yoke 14, and the center yoke 14 The line of electromagnetic force returning to the center yoke 14 is maintained through the second yoke guide 53 and the air gap layer located in the other direction of the center yoke 14 and the line of electromagnetic force returning to the center yoke 14.

The horizontal linear vibration motor 100 according to an embodiment of the present invention has a center yoke 14 concentrating the electromagnetic force lines of a coil 13 and two poles in the vertical direction while being positioned in the vertical direction of the center yoke 14. By disposing the split-magnetized permanent magnets 32 at the same vertical height, the horizontal linear vibration motor 100 having a structure in which the vibration body 30 vibrates while reciprocating in the horizontal direction is provided.

In addition, the horizontal free vibration of the vibrating body 30 is suppressed by the magnetic force line formed by constituting the central yoke 14 and the permanent magnet 32 divided into two poles in the vertical direction, resulting in a quick stop and the coil 13 The first elastic member 21, the second elastic member 22 and the bracket 11 combined with the vibrating body 30 by concentrating the electromagnetic force on the central yoke 14 to make the horizontal motion of the fast vibrating body 30 Provided is a horizontal linear vibration motor 100 capable of fast vibration response characteristics by transmitting to the outside through the case 41 .

As such, those skilled in the art to which the present invention pertains will be able to understand that the present invention may be embodied in other specific forms without changing its technical spirit or essential features. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting. The scope of the present invention is indicated by the following claims rather than the detailed description above, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts should be construed as being included in the scope of the present invention. do.

100: horizontal linear vibration motor
10: fixture
11: bracket 11a: first projection yoke 11b: second projection yoke
11c: first fixing plate 11d: second fixing plate 11e: center hole
12: circuit board 13: coil 14: center yoke
14a: lower coupling protrusion
21: first elastic member 22: second elastic member 23: first mount
24: second mount 25: third mount 26: fourth mount
30: vibrating body
31: weight body 32: permanent magnet 32a: first permanent magnet
32b: second permanent magnet 33: plate 34: first damper
35: second damper
40: case assembly
41: case 42: third damper 43: fourth damper
200: horizontal linear vibration motor
50: fixture
51: bracket 51a: central hole 51b: first yoke guide hole
51c: second yoke guide hole 52: first yoke guide 53: second yoke guide

Claims (16)

a coil 13 that generates electromagnetic force; A center yoke 14 coupled to the coil 13 and magnetized to different polarities according to the direction in which power is applied to the coil 13; A fixture 10 composed of a bracket 11 having a first protrusion yoke 11a and a second protrusion yoke 11b coupled to the center yoke 14; A permanent magnet 32 magnetized in a vertical direction while being disposed in a vertical direction of the central yoke 14; a vibrating body 30 composed of a weight body 31 coupled to the permanent magnet 32; a first elastic member 21 attached to one side of the vibrating body 30 to provide elastic force in a horizontal direction; And the second elastic member 22 attached to the other side of the vibrating body 30 to provide elastic force in the horizontal direction includes a case 41 in which a space is formed inside while being combined with the stationary body 10 configured to form;
The vibrating body 30 is combined with the weight body 31 while including a plate 33 coupled to the upper side of the permanent magnet to concentrate the magnetic force lines of the permanent magnet 32;
The permanent magnet 32 is magnetized in the vertical direction and divided into two poles, and is composed of a first permanent magnet 32a and a second permanent magnet 32b;
When the power applied to the coil 13 of the vibrator 30 is turned off, the lines of magnetic force starting from the first permanent magnet 32a rotate through the second permanent magnet 32b and the plate 33. A horizontal linear vibration motor (100), characterized in that the coming magnetic force lines pass through the central yoke (14) of the fixture (10) to suppress free movement and quickly stop. delete According to claim 1
The vibrating body 30 is further formed with a first mount 23 supporting the first elastic member 21 and a second mount 24 supporting the second elastic member 22, characterized in that Horizontal linear vibration motor (100). According to claim 1
The bracket 11 of the fixed body 10 further forms a first fixing plate 11c supporting the first elastic member 21 and a second fixing plate 11d supporting the second elastic member 22. A horizontal linear vibration motor (100), characterized in that. According to claim 1
The fixture 10 includes a third mount 25 supporting the first elastic member 21; and a fourth mount 26 supporting the second elastic member 22 is additionally formed. According to claim 1
The vibrating body 30 includes a first damper 34 between the first elastic member 21 attached to one side of the weight body 31 and providing elastic force in the horizontal direction; and a second damper (35) formed between a second elastic member (22) attached to the other side surface of the weight body (31) to provide elastic force in a horizontal direction. According to claim 1
Between the case 41 and the first elastic member 21, a third damper 42; and a fourth damper (43) formed between the case (41) and the second elastic member (22). delete According to claim 1
The bracket (11) is a horizontal linear vibration motor (100), characterized in that the circuit board (12) connected to the external input terminal is installed. According to claim 1,
The outer diameter of the center yoke 14 used to concentrate the electromagnetic force of the coil 13 and maintain stable magnetic properties should be smaller than the inner diameter of the center yoke 14, and the shape of the lower part of the center yoke 14 should be smaller than the bracket 11 ) Horizontal linear vibration motor 100, characterized in that provided with a lower engaging projection (14a) to be fixed with. According to claim 1
The bracket 11 is characterized by a bracket 11 having a central hole 11e at the central position where it meets the lower coupling protrusion 14a of the center yoke 14 to fix the center yoke 14 Horizontal linear vibration motor (100). a coil 13 that generates electromagnetic force; A central yoke 14 coupled to the coil 13 and magnetized to different polarities according to the direction in which power is applied to the coil 13; A fixture 50 composed of a bracket 51 coupled to the center yoke 14 and having a first yoke guide 52 in one direction of the center yoke 14 and a second yoke guide 53 in the other direction ; A permanent magnet 32 magnetized in a vertical direction while being disposed in a vertical direction of the central yoke 14; a vibrating body 30 composed of a weight body 31 coupled to the permanent magnet 32; a first elastic member 21 attached to one side of the vibrating body 30 to provide elastic force in a horizontal direction; And the second elastic member 22 attached to the other side of the vibrating body to provide elastic force in the horizontal direction includes a case in which a space is formed therein while being coupled with the stationary body 50;
The vibrating body 30 is combined with the weight body 31 while including a plate 33 coupled to the upper side of the permanent magnet to concentrate the magnetic force lines of the permanent magnet 32;
The permanent magnet 32 is magnetized in the vertical direction and divided into two poles, and is composed of a first permanent magnet 32a and a second permanent magnet 32b;
When the power applied to the coil 13 of the vibrator 30 is turned off, the lines of magnetic force starting from the first permanent magnet 32a rotate through the second permanent magnet 32b and the plate 33. The coming line of magnetic force passes through the central yoke 14 of the stationary body 10, and the horizontal linear vibration motor 200, characterized in that the free movement is suppressed and a quick stop is made. delete According to claim 12
The bracket 51 of the fixed body 50 further forms a first fixing plate 51d supporting the first elastic member 21 and a second fixing plate 51e supporting the second elastic member 22. A horizontal linear vibration motor 200, characterized in that. . According to claim 12
The bracket 51 of the fixed body 50 is coupled to the first yoke guide 52 in an accurate position, and to engage the first yoke guide hole 51b and the second yoke guide 53 in an accurate position. A horizontal linear vibration motor (200), characterized in that a second yoke guide hole (51c) is additionally formed. delete

Images