KR20190136475A - The linear vibrator and method of mounting magnet for a linear vibrator - Google Patents

Abstract

The present invention relates to a linear vibration motor and a method for mounting a magnet thereof. The linear vibration motor is developed to adjust a vibration frequency and fix the same by changing the position of a magnet when the magnet is assembled in the linear vibration motor having a structure of being fixed to an upper part inside a case. The linear vibration motor comprises: a cylindrical case having an open bottom; a bracket mounted to a lower part of the case; a magnet fixed to a center of an upper part inside the case and having a plate fixed to a bottom surface thereof; a weight penetrated by the magnet through a center and having a coil mounted thereto; a spring for connecting an upper surface of the weight and the upper part inside the case; and a flexible circuit board for supplying external power to the coil, wherein an insertion hole is formed at a center of an upper surface of the case and has an extension rib penetrated in a circular shape and bent toward a lower part in a vertical direction along an inner diameter surface to be extended. In addition, the magnet has an outer diameter corresponding to an inner diameter of the insertion hole and is inserted from an upper part outside the case to protrude inward. The linear vibration motor further comprises a fixing unit formed between the magnet and the insertion hole to fix the magnet.

Description

The magnet vibrator and method of mounting magnet for a linear vibrator

The present invention relates to a linear vibration motor and a magnet mounting method of the linear vibration motor, in more detail to adjust the vibration frequency by changing the position of the magnet when assembled in the linear vibration motor of the structure in which the magnet is fixed to the upper inside of the case The present invention relates to a linear vibration motor and a magnet mounting method of the linear vibration motor, which are developed to be fixed afterwards.

Linear vibration motor or linear vibrator used in mobile phones and various portable devices by replacing vibration motor that generates vibration while rotating the eccentric shaft is using Fleming's left hand law that the direction of force varies depending on the direction of magnetic force and current. It has a structure that vibrates up and down while the weight is suspended from the spring in the center.

FIG. 6 is a conceptual view illustrating a structure of a vertical vibration linear vibration motor, and FIG. 7 is a plan view illustrating a conventional flexible circuit board. The linear vibration motor 1 or the linear vibrator generating vibration while reciprocating in a linear straight line has a lower portion. An open cylindrical case 11, a bracket 12 mounted on the bottom of the case 11, and a magnet 13 fixed to a center of an upper surface of the bracket 12, and a plate 131 fixed to an upper surface thereof. And a weight 15 in which the magnet 13 penetrates and the coil 14 is mounted, a spring 16 which connects and fixes the upper surface of the weight 15 and the inner upper part of the case 11, and a coil. And a flexible printed circuit board 17 (FPCB) for supplying external power to 14.

At this time, since the magnet 13 is fixed to the bracket 12, the flexible circuit board 17 avoids a path passing through the center where the magnet 13 is formed, and thus a shape for securing a length in a limited path as shown. However, it is necessary to secure a longer distance to withstand repeated buckling near both ends of the connection.

(f는 진동 주파수, m은 웨이트의 중량, k=스프링에 따라 결정되는 고유한 상수)의 수식에 의하여 결정되며 이때 c는 스프링(16)이 고정되는 위치, 플레이트(131)와 마그네트(13)의 두께변화, 코일(14)과 마그네트(13)의 높이 편차에 따라서 달라지는 변수이다.In addition, the vibration frequency

(f is the vibration frequency, m is the weight of the weight, k = a unique constant determined by the spring), where c is the position where the spring 16 is fixed, the plate 131 and the magnet 13 This is a variable that varies depending on the thickness variation of the coil 14 and the height deviation of the coil 14 and the magnet 13.

These variables result in significant obstacles to the production of the linear vibration motor 1 with a constant vibration frequency equal to the design value.

Korea Patent Registration No. 10-1354858-0000 (January 16, 2014) Korea Patent Registration No. 10-1516056-0000 (April 22, 2015) Republic of Korea Patent Publication No. 10-2015-0108520 (September 30, 2015)

The present invention was developed to solve the above problems, the purpose of the magnet mounting of the linear vibration motor and the linear vibration motor to adjust the inserted depth by inserting the magnet of the linear vibration motor vibrating vertically from the outside of the case Is in developing a method.

In addition, the present invention is to develop a magnet mounting method of the linear vibration motor and the linear vibration motor to be fixed after finely adjusting the depth of the magnet.

According to the exemplary embodiment, a cylindrical case 11 having a lower opening, a bracket 12 mounted on the lower portion of the case 11, and a plate are fixed to the inner upper center of the case 11. The magnet 13 to which the 131 is fixed, the weight 15 through which the magnet 13 penetrates and the coil 14 is mounted, the upper surface of the weight 15, and the inner upper part of the case 11. In the linear vibration motor (1) consisting of a spring (16) for fixing the connection and a flexible circuit board (17) (FPCB) for supplying external power to the coil (14), the upper surface of the case (11) has a circular shape. An insertion hole 112 having an extension rib 111 extending through the inner surface and bent vertically downward along the inner diameter surface is formed, and the magnet 13 has an outer diameter corresponding to the inner diameter of the insertion hole 112. It is inserted in the outer upper portion of the case 11 and protrudes inward, And a fixing part 113 for fixing the magnet 13 between the magnet 13 and the insertion hole 112, wherein the magnet 13 is determined by the position of the magnet 13 in the linear vibration motor. Disclosed is a linear vibration motor, characterized in that a bonding position with respect to the fixing part 113 is determined in consideration of the resonance frequency of (1).

Here, a screw thread is formed on the inner diameter surface of the insertion hole 112, and a screw thread is formed on the outer circumferential surface to correspond to the screw thread of the insertion hole 112, and the bottom surface is opened so that the upper portion of the magnet 13 is inserted and fixed. The rotary block 18 is further provided, and the position of the magnet 13 can be changed along the thread of the insertion hole 112 by rotating the rotary block 18 in which the upper portion of the magnet 13 is inserted and fixed. have.

According to another exemplary embodiment, the cylindrical case is formed in the center of the upper surface is formed with an insertion hole 112 having an extension rib 111 which extends bent to extend vertically downward along the inner diameter surface and the bottom is open (11) assembling the bracket (12) in the state in which the weight (15) and the spring (16) on which the coil (14) is mounted on the inner circumferential surface, and inserting the magnet (13) into the insertion hole (112) and temporarily Temporary fixation step to fix with a vibration, frequency measurement step to measure the vibration frequency generated by connecting the power supply, if the measured frequency is different from the target frequency, temporarily fixed after changing the inserted depth of the magnet (13) and vibration frequency again Disclosed is a magnet fixing method of a linear vibration motor including a readjusting step of measuring a value and finally fixing the magnet 13 to an extension rib 111 when the measured frequency coincides with a target frequency. All.

Here, the final fixing step may be fixed by putting an adhesive between the magnet 13 and the extension rib 111.

In addition, a screw thread is formed on an inner diameter surface of the insertion hole 112, and an outer circumferential surface is formed with a thread thread corresponding to the thread of the insertion hole 112, and the changing step includes an upper portion of the magnet 13. The rotation block 18 is fixed to the insertion can change the position of the magnet 13 along the thread of the insertion hole (112).

As described above, the present invention adjusts the depth of the magnet while adjusting the depth of the magnet while checking the vibration frequency by inserting and operating the vibration motor while inserting the magnet into the center insertion hole from the outside of the case to fix the magnet to reach the set frequency. It is effective to provide linear vibration motor with frequency.

In addition, a screw thread is formed on the inner circumferential surface of the insertion hole of the case and forms a rotating block coupled to the screw thread and the upper part of the magnet is inserted into the lower part to finely adjust the height of the magnet according to the rotation of the rotating block, thereby providing accurate vibration frequency. It is easy to reach.

1 is a cross-sectional view according to an embodiment of the present invention
2 is a conceptual diagram according to an embodiment of the present invention;
3 is a cross-sectional view according to another embodiment of the present invention.
4 is a conceptual diagram according to another embodiment of the present invention.
5 is a flow chart illustrating a magnet fixing method of the linear vibration motor according to another embodiment of the present invention.
6 is a conceptual diagram showing the structure of a vertical vibration linear vibration motor
7 is a plan view showing a conventional flexible circuit board

Accordingly, the configuration of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce.

1 is a cross-sectional view according to an embodiment of the present invention, Figure 2 is a conceptual diagram according to an embodiment of the present invention, a cylindrical case 11 of which the bottom is open and is mounted on the bottom of the case 11 Bracket 12, the magnet 13 is fixed to the inner upper center of the upper case 11, the plate 131 is fixed to the bottom, the weight through which the magnet 13 is penetrated and the coil 14 is mounted in the center (15), a spring (16) for connecting and fixing the upper surface of the weight (15) and the inner upper part of the case (11), and a flexible circuit board (FPCB) (17) for supplying external power to the coil (14). In the linear vibration motor 1 is configured;

An insertion hole 112 is formed at the center of the upper surface of the case 11 and has an extension rib 111 that extends bent downward and extends along the inner diameter surface;

The magnet (13) has an outer diameter corresponding to the inner diameter of the insertion hole (112) is inserted in the outer upper portion of the case (11) to protrude inward;

The linear vibration motor is characterized in that it consists of a fixing part 113 for fixing the magnet 13 between the magnet 13 and the insertion hole 112.

The present application basically has a path through which the flexible circuit board 17 passes through the center in the linear vibration motor 1 in which the bracket 12 and the coil 14 are electrically connected by the flexible circuit board 17. When the buckling angle of the buckled portion can be reduced, the magnet 13 has a structure to be fixed to the inner upper portion of the case 11.

At this time, many variables are generated in order to produce the linear vibration motor 1 having a constant vibration frequency as described above in the background technology of the present invention, so that the magnet 13 is inserted into and fixed from the outside to have a structure It is proposed to the structure that can be fixed when the desired vibration frequency is reached by adjusting the insertion depth of the magnet 13 while operating before and fixed.

Such a method can be used for various experiments and measuring devices to implement accurate vibration frequency in the purpose of simply generating vibration in a portable device, and it is a way to increase durability by having an optimal vibration frequency in a portable device.

3 is a cross-sectional view according to another embodiment of the present invention, and FIG. 4 is a conceptual view according to another embodiment of the present invention, in which an inner diameter surface of the insertion hole 112 is formed with a screw thread;

The outer circumferential surface is formed with a screw thread coupled to the thread of the insertion hole 112, a tool groove 181 is formed on the upper surface, the bottom surface is open to the rotary block 18, the upper portion of the magnet 13 is inserted and fixed In addition, the embodiment is characterized by including the provided.

In the above embodiment, since the magnet 13 is molded by sintering, it is difficult to realize a precise shape, and in particular, an improvement such as a thread may be difficult to be molded, but not easily damaged, so that the screw is coupled by a separate rotary block 18. This is done.

In this method, the height of the magnet 12 can be controlled to a height of 0.1 mm or less by the rotation of the rotary block 18, so that the vibration frequency can be fixed more accurately and quickly.

In this case, when the upper surface of the case insertion hole 112 is formed in a recessed shape and the vibration frequency is adjusted, the resin is applied to the recessed portion by applying a resin such as epoxy to cover and fix the rotating block 18. It is also possible.

5 is a flowchart illustrating a magnet fixing method of the linear vibration motor according to another embodiment of the present invention.

In the step 510, the cylindrical case 11 is formed in the center of the upper surface is formed with an insertion hole 112 having an extension rib 111 which extends bent downward and extends vertically along the inner diameter surface and the lower portion is open. The bracket 12 is assembled while the weight 15 and the spring 16 on which the coil 14 is mounted on the inner circumferential surface are fixed.

In step 520, the magnet 13 is inserted into the insertion hole 112 and temporarily fixed.

In step 530, the vibration frequency generated by connecting the power supply to the linear vibration motor, the magnet is temporarily fixed.

In step 540 the measured vibration frequency is compared with the target frequency of the linear vibration motor.

If the measured vibration frequency is different from the target frequency, the inserted position of the magnet 13 is changed in step 560 and then temporarily fixed and the vibration frequency is measured again in step 530.

According to one side, the thread is formed on the inner diameter surface of the insertion hole 112, the linear vibration motor is formed on the outer circumferential surface of the thread corresponding to the thread of the insertion hole 112, the bottom surface is open to the magnet 13 The upper portion of the rotary block 18 may be further provided.

In this case, when the rotary block 18 is rotated so that the rotary block 18 and the magnet 13 move along the thread of the insertion hole 112, the position change of the magnet 13 can be easily, accurately and precisely performed. Can be.

If the measured frequency coincides with the target frequency, the magnet 13 is finally fixed in step 550. According to one side, the adhesive may be put between the magnet 13 and the extension rib 111, or the adhesive may be put between the rotary block 18 and the thread of the extension rib 111 to finally fix the position of the magnet. .

After performing the magnet fixing process, the linear vibration motor 1 is completed by completely assembling the case 11 and the bracket 12 which were temporarily assembled.

Since the vibration frequency of the linear vibration motor 1 is resonant with the natural frequency of various parts and joints, there is a risk of fatal durability weakening in a specific part. In this application, the vibration frequency is avoided and has a constant vibration frequency. A method for producing a linear vibration motor (1) is proposed.

1: linear vibration motor
11: case
111: extension rib 112: insertion hole
113: fixed part
12: Bracket
13: magnet
131: plate
14: coil
15 weight
16: spring
17: flexible circuit board
18: rotating block
181: tool groove

Claims (5)

A cylindrical case 11 having a lower opening, a bracket 12 mounted on the lower portion of the case 11, a magnet fixed to the inner upper center of the upper case 11, and a plate 131 fixed to the bottom surface thereof. 13 and a weight 15 in which the magnet 13 penetrates and the coil 14 is mounted, and a spring 16 for connecting and fixing the upper surface of the weight 15 and the inner upper part of the case 11 to each other. And a linear vibration motor 1 composed of a flexible circuit board 17 (FPCB) for supplying external power to the coil 14;
An insertion hole 112 is formed at the center of the upper surface of the case 11 and includes an extension rib 111 that extends bent downward and extends along the inner diameter surface;
The magnet (13) has an outer diameter corresponding to the inner diameter of the insertion hole (112) is inserted in the outer upper portion of the case (11) to protrude inward;
It includes a fixing portion 113 for fixing the magnet 13 between the magnet 13 and the insertion hole 112,
The magnet 13 is a linear vibration motor, characterized in that the bonding position to the fixed portion 113 is determined in consideration of the resonant frequency of the linear vibration motor 1 is determined according to the position of the magnet (13). . The inner diameter surface of the insertion hole 112 is threaded;
On the outer circumferential surface is formed a screw thread coupled to the thread of the insertion hole 112, the bottom surface is further provided with a rotary block 18, the top of the magnet 13 is inserted and fixed,
Linear vibration motor, characterized in that for changing the position of the magnet (13) along the thread of the insertion hole 112 by rotating the rotary block (18) is inserted into the upper portion of the magnet (13). In the center of the upper surface is formed an insertion hole 112 having an extension rib 111 which extends bent downwardly and extends vertically along the inner diameter surface, and a cylindrical case 11 having an open lower portion is provided with a coil 14 Assembling with the bracket 12 in a state in which the weight (15) and the spring (16) to which is mounted;
A temporary fixing step of temporarily inserting the magnet 13 into the insertion hole 112 and temporarily fixing the magnet 13;
A frequency measuring step of measuring a vibration frequency generated by connecting a power source;
If the measured frequency is different from the target frequency, changing the insertion depth of the magnet 13 and temporarily fixing the position of the magnet again measuring the vibration frequency; And
Final fixing of the magnet 13 to the extension ribs 111 when the measured frequency coincides with the target frequency
Magnet fixing method of the linear vibration motor comprising a. The method of claim 3,
The fixing step is a magnet fixing method of the linear vibration motor, characterized in that the fixing by putting an adhesive between the magnet (13) and the extension ribs (111). The method of claim 3,
A thread is formed on an inner diameter surface of the insertion hole 112;
On the outer circumferential surface is formed a screw thread coupled to the thread of the insertion hole 112, the bottom surface is further provided with a rotary block 18, the top of the magnet 13 is inserted and fixed,
The changing may include rotating the rotary block 18 in which the upper portion of the magnet 13 is inserted and fixed to change the position of the magnet 13 along the thread of the insertion hole 112. Magnet fixing method.

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