KR20120121284A - Vertical vibration type rectangular linear motor - Google Patents

Abstract

PURPOSE: A vertical vibration type square linear motor is provided to simplify a structure by supporting weight and magnet using a spring after removing a yoke. CONSTITUTION: A rectangular case(102) includes a space for accommodating components. One side of the case is opened. A bracket(150) is combined with the case. The bracket closes the opened side of the case. A vibration coil(130) generates a magnetic field. An FPCB(140) is attached on the vibration coil. The FPCB transmits a signal to the vibration coil. A vibrator is supported by the bracket. The vibrator is vibrated by interaction with the magnetic field.

Description

VERTICAL VIBRATION TYPE RECTANGULAR LINEAR MOTOR

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a linear vibration motor capable of vibrating a portable communication device and the like, and more particularly, to a vertical vibration type square linear motor in which a structure is simplified by removing a yoke and allowing a spring to support a weight and a magnet.

In general, a communication device is equipped with a voice device such as a melody or a bell, or a vibration device that shakes the device so that the owner of the communication device knows the reception state of the information. Dual vibration device is proposed to reduce noise damage caused by incoming bell or melody. Small linear vibration motor is used for mobile phones.

In the conventional linear vibration motor, as shown in FIG. 7, the case 1 having one side open and the inside empty, and one side of the opened case 1 can be closed, and the case 1 at one edge thereof. Bracket (5) having an extension piece (3) projecting in an outward direction of the magnet, a magnet (7) attached to the inner top surface of the case (1) to generate a magnetic field having a fixed direction and strength, and the case (1) It is mounted to face the magnet 7 in the inner space of the generating a magnetic field in accordance with the electric signal transmitted from the outside consists of a vibrating body (9) that can vibrate in the vertical direction by interacting with the magnetic field of the magnet (7). The vibrating body 9 is inserted into the case 1 in a state where one side thereof faces the expansion piece 3, and transmits an electrical signal input through the connecting piece 11 to the vibration coil 15 from the outside. A vibration coil 15 mounted on one surface of the substrate 13 and a substrate 13 facing the magnet 7 to generate a magnetic field when an external electric signal is applied, and a vibration yoke 17 serving as a weight. The elastic member 21 supporting the vibration coil 15 and the vibration yoke 17 attached to the substrate 13 while the outer circumferential surface thereof is supported by the bracket 5 and the center portion protrudes toward the case 1, and the buffer plate ( 25).

Conventional linear vibrating motor has a problem that it is difficult to reduce the thickness as the yoke is required in the magnetic circuit, the component for applying a signal to the vibration coil as the magnet is fixed and the vibration coil side vibrates easily due to vibration. .

The present invention has been proposed to solve the above problems, the object of the present invention is to fix the vibration coil to the bracket and after removing the yoke from the magnetic circuit spring to support the weight and the magnet to simplify the vertical vibration square To provide a linear motor.

In order to achieve the above object, the device of the present invention comprises a rectangular case having one surface opened while forming a space for accommodating parts therein; A bracket coupled to the case to close the opening surface of the case; Vibration coil to generate a magnetic field when a signal is applied from the outside; An FPCB having one surface attached to the bracket and the vibration coil attached to the other surface to transmit a signal to the vibration coil; And a vibrating body that is supported by the bracket and vibrates by interacting with a magnetic field generated by the vibrating coil when a current flows in the vibrating coil.

The vibrating body has left and right sides on both sides of a leaf spring protruding convexly toward the case side and both ends of which are fixed to the bracket, a magnet attached to the central concave portion of the leaf spring, and a surface opposite to the surface on which the magnet is attached. It consists of a pair of weights attached symmetrically.

The leaf spring has a bridge for increasing the elasticity between the both ends and the central protrusion, and a damper or magnetic fluid is attached to the protrusion of the leaf spring to prevent the vibrating body from colliding with the case.

And one side of the bracket is extended to the outside out of the case, the FPCB is attached to the bracket is attached to the connecting terminal for feeding the vibration coil to the outer protruding portion of the case.

The vertical vibration square linear motor according to the present invention can simplify the structure, improve the manufacturing process by removing the yoke from the magnetic circuit and allow the spring to support the weight and the magnet, and bracket the FPCB for applying a signal to the vibration coil. By fixing the magnet to a vibrating body that does not require power feeding, there is an effect of removing the fatigue of the feeding part caused by vibration and improving reliability.

1 is an exploded perspective view of a square linear vibration motor according to the present invention;
2 is an assembled sectional view of a square linear vibration motor according to the present invention;
3 shows a vibrating body portion of a square linear vibration motor according to the present invention;
4 shows a stationary part of a square linear vibration motor according to the present invention;
Figure 5 is a view showing an example of coupling the vibrating body of the square linear vibration motor according to the present invention,
6 is a view showing an example of coupling the vibrating body of the square linear vibration motor according to the present invention,
7 is an exploded perspective view showing a conventional linear vibration motor.

The technical problems achieved by the present invention and the practice of the present invention will be more clearly understood by the preferred embodiments of the present invention described below. The following examples are merely illustrative of the present invention and are not intended to limit the scope of the present invention.

1 is an exploded perspective view of a square linear vibration motor according to the present invention, Figure 2 is an assembled cross-sectional view of the square linear vibration motor according to the present invention.

As shown in FIGS. 1 and 2, the rectangular linear vibration motor 100 according to the present invention has a rectangular case 102 having one surface open while forming a space for accommodating parts therein, and a case 102. When coupled with the closing the opening surface of the case 102 and one side is extended to the outside of the case 102 and the bracket 150, one side is attached to the bracket 150, the vibration coil 130 is attached to the other side The FPCB 140 for transmitting a signal to the vibration coil 130, the vibration coil 130 mounted on the FPCB 140 and the vibration coil 130 to generate a magnetic field when a signal is applied from the outside, while being supported by the bracket 150 When the current flows in the 130 is composed of a vibrating body that vibrates by interacting with the magnetic field generated by the vibration coil 130.

The vibrating body has a leaf spring protruding convexly toward the case side, both ends 112 are fixed to the bracket 150, and a bridge 114 for increasing elasticity between the both ends 112 and the central protrusion 118 ( 110, a magnet 120 attached to the central recess of the leaf spring 110, and a pair of weights 106 symmetrically attached left and right on both sides of the surface on which the magnet 120 is attached and the opposite surface 116. It is composed of The protrusion 118 of the leaf spring 110 is attached with a damper or magnetic fluid 104 to prevent the vibrating body from colliding with the case 102, the FPCB 140 is attached to the bracket 150, the outside of the case A connection terminal 142 for feeding power to the vibration coil 130 is attached to the extension portion.

3 is a view showing a vibrating body portion of the square linear vibration motor according to the present invention, Figure 4 is a view showing a fixed body portion of the square linear vibration motor according to the present invention, Figure 5 is a square according to the present invention It is a figure which shows the example which combined the vibrating body and fixed body of a linear vibrating motor.

In general, a linear vibration motor is opposed to a magnet and a vibration coil, and a signal corresponding to a resonance frequency is applied to the vibration coil so that the magnetic field generated by the vibration coil and the magnetic field of the magnet interact with each other. In the conventional linear vibration motor, the magnet is fixed and the vibrating coil side functions as a vibrating body. However, in the present invention, the vibrating coil is used as the fixed body and the magnet as the vibrating body to provide a more reliable structure. That is, in the present invention, the FPCB 140 for applying a signal to the vibration coil 130 is fixed to the bracket 150, and the magnet 120, which does not need to be fed, is used as the vibrating body, thereby eliminating the fatigue of the feeding part due to the vibration. will be.

As shown in FIG. 3, the vibrating body of the square linear vibration motor according to the present invention is inclined at a predetermined angle from both ends 112 to the center portion, and the protrusion 118 of the leaf spring 110 protrudes from the center portion. The magnet 120 is attached to the concave surface, and a pair of weights 106 are attached to both sides of the magnet 120 to the opposite side 116 of the magnet 120 in parallel with the magnet 120. The protrusion 118 is attached with a damper or magnetic fluid 104 to prevent collision with the case 102. In this vibrating body, the structure of the spring 110 and the weight of the weight 106 have the greatest influence on the determination of the vibration frequency.

4, the fixed body of the square linear vibration motor according to the present invention, the FPCB 140 is attached to the bracket 150, the vibration coil 130 is attached to one side of the FPCB 140 and FPCB On the other side of the 140, a connection terminal 142 for contacting an external circuit and transmitting a signal is attached. In the embodiment of the present invention, the connection terminal 142 is a helical spring terminal, but may be implemented in other forms such as a wire, a connection pad, and a terminal. In addition, the method of attaching the vibration coil 130 may be attached on the FPCB 140 and the insulator.

The fixed body and the vibrating body of the rectangular linear vibration motor according to the present invention, as shown in Figure 5, both ends 112 of the leaf spring 110 is fixed to the bracket 150 and supported by the center of the leaf spring 110 Magnets 120 attached to the parts are opposed to each other at a predetermined interval on the inside of the ring-shaped vibration coil 130, the external signal is transmitted to the vibration coil 130 through the connection terminal 142 and the FPCB 140. do.

Meanwhile, in the modified example of the present invention, as shown in FIG. 6, the vibrating body may be coupled to the case 102 instead of the bracket 150.

Next, the operation of the vertical vibration rectangular linear vibration motor according to the present invention configured as described above are as follows.

When the low frequency signal according to the resonance frequency is applied to the vibration coil 130 through the FPCB 140 through the connection terminal 142, the vibration coil 130 generates a magnetic field according to the applied signal, the vibration coil 130 Since it is located in the magnetic field generated by the magnet 120, the magnetic field of the vibration coil 130 and the magnetic field of the magnet 120 interacts to vibrate the vibrating body in the vertical direction. The vibration amount and the resonance frequency of the linear motor according to the present invention can be determined according to the structure of the spring and the weight of the weight.

The present invention has been described above with reference to one embodiment shown in the drawings, but those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

102: case 104: damper or magnetic fluid
106: weight 110: leaf spring
120: magnet 130: vibration coil
140: FPCB 142: connection terminal
150: bracket

Claims (5)

A rectangular case having one surface opened while forming a space for accommodating parts therein;
A bracket coupled to the case to close the opening surface of the case;
Vibration coil to generate a magnetic field when a signal is applied from the outside;
An FPCB having one surface attached to the bracket and the vibration coil attached to the other surface to transmit a signal to the vibration coil; And
Vertical vibration type rectangular linear motor, characterized in that consisting of a vibrating body is supported by the bracket and vibrating in response to the magnetic field generated by the vibration coil when a current flows in the vibration coil.
According to claim 1, wherein the vibrating body is
The leaf spring protrudes convexly toward the case side and both ends are fixed to the bracket, the magnet is attached to the center recess of the leaf spring, and is symmetrically attached to both sides of the surface opposite to the surface to which the magnet is attached. Vertical vibration type square linear motor, characterized in that composed of a pair of weights.
The method of claim 2, wherein the leaf spring
A vertical vibration rectangular linear motor, characterized in that a bridge is formed between the two ends and the central protrusion to increase elasticity.
The rectangular vibration linear motor of claim 2, wherein a damper or a magnetic fluid is attached to the protrusion of the leaf spring to prevent the vibrator from colliding with the case.
According to claim 1 or 2, The bracket is one side is extended out of the case outside,
The FPCB is a vertical vibration square linear motor, characterized in that attached to the bracket and the connection terminal for supplying power to the vibration coil to the outer portion of the case attached.

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