KR101217760B1 - Linear Vibrator and Manufacturing of Thereof - Google Patents

Abstract

The present invention is composed of a case having one side open, a vibrator composed of weights and magnets, an elastic means, a plate for closing one side of the case open, a coil and the like disposed opposite to the magnet with a predetermined gap. In the structure of the vibration generator for generating a vibration force in the horizontal direction, the weight is fixed to one side of the side is fixed to one side of the weight is bent when the magnet is installed is surrounded by the elastic means coupled to the elastic means By providing a means that the elastic means is fixedly coupled to the fixing means fixed to the weight is fixed to the weight structure, the structure is simple, the weight and the magnet and the elastic means can be securely coupled The weight, the magnet and the elasticity even after long use However this does not exit to maintain uniform performance in the condition of falling, which can occur when applying the relevant application and relates to a vibration generator and a method of manufacturing the same are manufactured is easy.

Description

Vibration Generator and Manufacturing Method Thereof {Linear Vibrator and Manufacturing of Thereof}

The present invention relates to a vibration generator for use in a device such as a mobile phone that requires vibration, and to a method of manufacturing the same, and more particularly, a weight having a case having one side open and an inner space installed in the inner space of the case; An oscillator composed of a magnet installed in an inner space of a weight, an elastic means having one end coupled to the case and the other end fixedly coupled to the weight, while wrapping the weight in a 'c' shape, and an open side of the case In the structure of the vibration generator for generating a vibration force in a horizontal direction consisting of a plate for closing the plate and a coil disposed opposite to the magnet with a predetermined gap on the plate, fixedly coupled to the elastic means in the weight The side is bent when one side of the magnet is installed to surround the side The fixing means is fixed to one side of the elastic means is fixedly coupled to the fixing means fixed to the weight is fixed to the weight structure to be coupled to the weight, the structure is simple and the weight and the magnet and the elastic The means can be combined firmly, and even after prolonged use, the weight, the magnet and the elastic means do not detach and maintain uniform performance even under conditions such as dropping that may occur when applied to related applications and are easy to manufacture. A vibration generator and a method of manufacturing the same.

Conventional vibration generator has a problem that the performance is not exhibited due to the fall or falling due to the combination state of each of the parts when the fall of the user carelessly in a device such as a mobile phone that requires vibration. The detachment phenomenon of the coupling of the parts caused by the drop, etc. is mainly the weight is mainly separated from the elastic means.

Conventional weights are composed of a tungsten material having a high specific gravity, and the melting point of the material is very high, so that the material is melted and fixedly bonded to the elastic means, thereby failing to secure 100% bonding reliability. Also, there is a problem that the method of fixing by using chemical substances can not secure 100% bonding reliability.

Due to these problems, the method of melting and weighting the weights and applying the method of fixed bonding using chemicals is also used, but this leads to an increase in manufacturing cost, and also has a problem in that it is insufficient to secure the reliability of the fixed bonding. .

The present invention has been made to solve the problems of the prior art as described above, the present invention is a weight having a case having an open side, the inner space installed in the inner space of the case and a magnet installed in the inner space of the weight A configured vibrator, an elastic means having one end coupled to the case and the other end fixedly coupled to the weight while wrapping the weight in a 'c' shape, a plate for closing one open surface of the case, and the plate In the structure of the vibration generator that is configured to have a predetermined gap with the magnet disposed in the vibration generator to generate a vibration force in the horizontal direction, surrounding the one side fixedly coupled to the elastic means in the weight and one surface thereof Fixed when the magnet is bent and installed on one side of the weight The elastic means is fixedly coupled to the fixing means fixed to the weight and fixedly coupled to the weight, so that the weight, the magnet, and the elastic means do not depart even when used for a long time. Its purpose is to provide a vibration generator that can maintain uniform performance even under conditions such as drops that may occur during application.

In addition, the present invention in the manufacture of the vibration generator as described above is easy to assemble between the assembly parts to improve the assembly, and can be firmly fixed to the coupling between the components can improve the reliability of the product and reduce the manufacturing cost Another object is to provide a method of manufacturing a vibration generator.

Vibration generator according to the present invention for achieving the above object is an oscillator consisting of a case having one side open, a magnet installed in the inner space of the case, while wrapping the weight in a "c" shape one end of the case An elastic means coupled to the weight and fixedly coupled to the weight, a plate for closing an open surface of the case, a coil disposed to face the magnet at a predetermined distance from the magnet, and the elastic at the weight. And a fixing means surrounding one side fixedly coupled to the means and fixedly installed on one side of the weight, wherein the fixing means is formed with an extension part when the magnet is installed in the internal space of the weight. It is bent and characterized in that it is fixedly coupled with the weight.

In addition, the present invention is characterized in that the fixing means is fixed to the coupling groove by forming a coupling groove in a portion where the fixing means is fixedly installed in the weight.

In addition, the present invention is characterized in that the fixing means is formed at least two or more bent portions surrounding the weight.

In addition, the present invention is characterized in that at least one place where one surface of the fixing means and one surface of the magnet abuts.

In addition, the present invention is characterized in that the bent portion of the fixing means is formed with at least one or more bending grooves to facilitate bending.

The present invention is also characterized in that the plate is a metal plate member, and the metal plate member is provided with a circuit board for applying an external electric signal to the coil.

In addition, the present invention is characterized in that the plate is printed on the surface of the metal plate member is a circuit board for applying an external electrical signal to the coil.

In addition, the present invention is characterized in that the plate is a printed circuit board (PCB).

In addition, the present invention is characterized in that the buffer is further provided between the weight and the case for removing the shock noise generated during vibration.

In addition, the present invention is characterized in that the magnetic fluid is applied between the coil and the magnet in order to prevent the coil is disconnected due to the interference generated during the vibration.

On the other hand, the vibration generator manufacturing method according to the present invention comprises the first step of coupling the fixing means having one surface extended to the weight is formed in the inner space, the fixing means while the magnet is inserted into the inner space of the weight combined with the fixing means A second step of fixing the magnet to the weight by bending one surface extending from the second step, and fixing one end of the elastic means having a 'c' shape to the weight to which the fixing means and the magnet are fixed in the second step. The first assembly is manufactured through a third step of coupling and a fourth step of fixing and coupling the other end of the elastic means to the case in which one side is opened in the assembly completed in the third step, and separately from the first assembly. Fabricating a second assembly by assembling a coil, and manufacturing by assembling the first assembly and the second assembly. .

Vibration generator according to the present invention wraps the weight in a 'c' shape, the oscillator consisting of a case having an open side, a weight having an inner space installed in the inner space of the case and a magnet installed in the inner space of the weight, While one end thereof is coupled to the case and the other end thereof is elastic means fixedly coupled to the weight, a plate for closing one open surface of the case, a coil disposed to face the magnet at a predetermined gap with the plate, and the like. In the structure of the vibration generator is configured to generate a vibration force in the horizontal direction, surrounding the one side fixedly coupled to the elastic means in the weight and one side is bent when the magnet is installed is fixed to one side of the weight It is provided with a fixing means to be installed so that the elastic means is fixed to the weight The structure can be fixedly coupled to the fixed means and fixedly coupled to the weight, so that the weight and the elastic means can not be detached from the weight without being detached from the weight even when used for a long time. It is effective in maintaining uniform performance even under such conditions.

In addition, the vibration generator manufacturing method according to the present invention is easy to assemble between the assembly parts to improve the assemblability, and can be firmly fixed to the coupling between the parts has the effect of improving the reliability of the product and reduce the manufacturing cost. .

1 is an overall exploded perspective view of a vibration generator according to the present invention
2 is an overall cross-sectional view of a vibration generator according to the present invention.
3 is a view before the magnet is installed on the weight in the vibration generator according to the present invention
4 is a view of a magnet installed on the weight according to the invention
5 is a detailed view of the fixing means in the vibration generator according to the invention
6 shows an embodiment of a plate in a vibration generator according to the invention
7 shows another embodiment of a plate in a vibration generator according to the invention.

Hereinafter, a vibration generator according to the present invention will be described in detail with reference to the accompanying drawings.

Vibration generator according to the present invention is a vibration generator according to the present invention as shown in Figs. 1 to 3, the weight 10 having an inner space installed in the inner space of the case 10 and the inner space of the case and A vibrator composed of a magnet 30 installed in an inner space of the weight 20, and the one end is coupled to the case 10 while the weight 20 is wrapped in a 'c' shape, and the other end thereof is the weight ( 20 and an elastic means 40 fixedly coupled to each other, a plate 60 closing the open one surface of the case 10, and the plate 60 are disposed to face each other with a predetermined gap from the magnet 30. The coil 50 etc. which were provided are comprised.

The case 10 is made of a nonmagnetic conductive material and has one side thereof closed and another side opened to form a space therein, and four sides of the side thereof are vertically extended to form a four- Shape.

The weight 20 is made of a metal having a large specific gravity, for example, a tungsten alloy which is a nonmagnetic material having a specific gravity of 16 or more, and has a rectangular cylindrical inner space 21 and has the magnet in the inner space 21. 30) is inserted and installed.

The magnet 30 has two poles (N pole and S pole) magnetized in the left and right direction, and is preferably an Nd-Fe-B sintered magnet.

Fixing means 70 is used to fix the magnet 30 to the weight 20.

As shown in FIG. 2, the fixing means 70 surrounds one side of the weight 20 fixedly coupled to the elastic means 40 and firmly installs the magnet 30 on the weight 20. Let's do it.

As shown in FIG. 5, before the fixing means 70 is fixedly coupled to the weight 20, the flat parts 71, 72, and 73 having a predetermined length and width are bent and ' It has a '-' shape, the end portion of the flat portion 71 is formed with a bent portion 74 is bent upwards, in the case of the flat portion 73 is extended to extend longer than the facing flat portion 71 The part 73a is formed. In addition, the fixing means 70 is the flat portion 71 and the bent portion 74, the flat portion 71 and the flat portion 72, the flat portion 72 and the flat portion 73, Each of the flat portion 73 and the extension portion 73a may be formed in each of the bending grooves 75 so as to be easily bent in the manufacturing process or the assembling process. Although the bent groove 75 is illustrated in FIG. 5 in a rectangular shape, the shape of the bent groove 75 may be formed in various shapes such as a circular shape that can be easily bent.

The weight 20 forms a coupling groove 22 in a portion where the fixing means 70 is fixed so that the fixing means 70 is placed in the coupling groove 22.

The process of installing the magnet 30 in the internal space 21 of the weight 20 is as follows.

In order to install the magnet 30 in the inner space 21 of the weight 20, the fixing means 70 is placed in the coupling groove 22 of the weight 20, as shown in FIG. The flat portion 71, 72, 73 and the bent portion 74 bent at the flat portion 71 are wrapped around one side of the weight 20. At this time, the fixing means 70 arranges the flat portion 73 in which the extension portion 73a is formed in the direction in which the magnet 30 is inserted.

Next, when the magnet 30 applies a force to insert into the internal space of the weight 20, the extension portion 73a formed in the flat portion 73 is pressed to bend the extension portion 73a. The bent extension 73a comes into contact with one surface of the magnet 30.

In this case, the weight 20 is wrapped around the fixing means 70, and when the extension portion 73a of the fixing means 70 is bent, a spring-back occurs so that the bent extension 73a is formed. ) Pushes one surface of the magnet 30 in the direction of the internal space 21, and thus the magnet 30 is firmly installed on the weight 20.

When the fixing means 70 fixed to the weight 20 is fixedly coupled to the elastic means 40 by welding or the like, the weight 20 is also firmly fixed to the elastic means 40. .

The elastic means 40 is composed of a planar portion having a predetermined area on both sides and a connecting portion connecting the planar portion to have a substantially 'c' shape as a whole, and one end of the elastic member 40 wraps around the weight 20. 10 is bonded and fixed to one surface of the other end thereof and the other end is fixedly coupled to the fixing means 70 fixedly coupled to the weight 20 by welding or the like, and inserted into the inner space of the weight 20 When the magnet 30 is moved left and right by the magnetic force generated from the coil 50, the weight 20 is also moved left and right, and the elastic means 40 fixedly coupled to the weight 20 is also elastic Will move from side to side with it.

As described above, the weight 20 and the elastic means 40 are fixedly coupled to each other by using the fixing means 70 for fixing the magnet 30 to the weight 20. ) And the magnet 30 and the elastic means 40 will be able to maintain a uniform performance even under conditions such as dropping that may occur when applied to the application without being separated.

The plate 60 is a metal plate member, and as shown in FIG. 6A, a circuit board 61 for applying an external electric signal to the coil 50 is provided in the metal plate member. In another embodiment, the plate 60 may allow a circuit board 61 for directly applying an external electrical signal to the coil to the surface of the metal plate member as shown in FIG. 6 (b).

The coil 50 is fixedly coupled to the circuit board 61 on the plate 60 or the printed circuit board 61 directly on the plate 60, as shown in FIG. do.

In addition, the plate 60 may be a printed circuit board (PCB) itself as shown in Figs. 7 (a) and 7 (b).

7 (a) shows the front side of the printed circuit board and FIG. 7 (b) shows the back side of the printed circuit board. As shown in FIGS. 7 (a) and (b), the case ( In order to easily combine with 10), it is possible to form an assembly protrusion 62 and a coil connecting means for electrically connecting with the coil 50 on one surface thereof, the other side to the outside for receiving external power The connecting means 64 is provided. The coil connecting means and the external connecting means 64 are electrically connected to the internal circuit of the plate 60 (printed circuit board). In addition, the other surface of the plate 60 may be provided with a grounding means 63 for grounding the vibration generator.

In addition, the present invention may be provided with a buffer member 80 between the weight 20 and the case 10 in order to remove the impact noise generated when the horizontal vibration. The shock absorbing member 80 may be attached to the case 10 as shown in FIGS. 3 and 5, may be attached to the weight 20 in other ways, and the shock absorbing member 80 may be installed. The rubber is preferably made of a rubber (rubber) material to further mitigate the impact.

In addition, in the present invention, a magnetic fluid may be applied between the coil 50 and the magnet 30 to prevent the coil 50 from being disconnected due to the interference generated during the vibration. Preferably, the magnetic fluid is applied to the surface of the magnet 30. In this case, the magnetic fluid forms a film on the surface of the magnet 30 by the magnetic force of the magnet 30. Even if friction occurs, it is possible to prevent the coil from breaking due to the magnetic fluid.

In the above structure, the vibrating unit is moved to the left and right to vibrate as follows.

When an external power source is applied through the circuit board 61 or the printed circuit board of the plate 60, a current flows in the coil 50, and a magnetic field is formed around the coil 50. ), The magnetic field is generated according to the right screw law.

The magnet 30 has the N pole and the S pole magnetized in the left and right directions and interacts with a magnetic field generated in the magnet 30 and a magnetic field formed around the coil 50 and the magnet 30. Since the structure of the 'c'-shaped elastic means 40 can not move up and down, the magnet 30 is moved to the left and right, and the weight 20 is fixed to the magnet 30 is also left and right Will be moved to.

At this time, if the frequency of the power applied to the coil 50 is equal to the natural frequency of the elastic means 40, a resonance phenomenon occurs in which the vibration increases rapidly, thereby obtaining the maximum vibration.

The resonance frequency for generating resonance at the frequency of the applied power can be obtained as follows.

Resonance Frequency = 1 / 2π

(Where k = spring constant of the elastic means, m = weight weight)

The resonant frequency may be changed by changing the spring constant of the elastic means 40 and the weight of the weight 20 according to the frequency to be used in the design, and the resonant frequency may vary for each designer.

Next, the vibration generator manufacturing method according to the present invention will be described in detail with reference to the accompanying drawings.

The vibration generator having the above structure is manufactured as follows.

Coupling the fixing means 70 having one surface extended to the weight 20 having an internal space (first step), and to the internal space 21 of the weight 20 to which the fixing means 70 is coupled. As the magnet 30 is inserted, the magnet 30 is fixedly coupled to the weight 20 by bending one surface extending from the fixing means 70 (second step).

In the second step, the one end of the elastic means 40 having a 'c' shape is fixedly coupled to the weight 20 to which the magnet 30 is fixedly coupled by the fixing means 70 (third step) In the assembly completed in the third step, the other end of the elastic means 40 is fixedly coupled to the case 10 having one surface open (step 4), thereby manufacturing the first assembly.

Next, the plate 60 and the coil 50 are assembled separately from the first assembly to produce a second assembly.

Next, the vibration assembly is completed by assembling the first assembly and the second assembly.

The vibration generator manufacturing method as described above has the advantage that the assembly between the assembly parts is simple to improve the assemblability, and can be firmly fixed to the coupling between the parts to improve the reliability of the product and reduce the manufacturing cost.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that it is possible.

10: case 20: weight
21: internal space 22: coupling groove
30: magnet 40: elastic means
50: coil 50a: core part
60: plate 61: circuit board
62: assembly protrusion 63: grounding means
64: external connection means 70: fixing means
71. 72, 73: flat part 73a: extension part
74: bending portion 75: bending groove
80: buffer member

Claims (11)

Case open one side,
A vibrator composed of a magnet installed in an inner space of the case,
Wrapping the weight in the shape of the "c" shape is coupled to one end of the case and the other end of the elastic means fixedly coupled to the weight,
A plate for closing one open side of the case;
A coil disposed to face the magnet with a predetermined gap therebetween;
Surrounding one side that is fixedly coupled to the elastic means in the weight is configured to include a fixing means fixed to one side of the weight,
The fixing means is an extension portion is formed when the magnet is installed in the interior space of the weight is the extension portion is bent and fixed to the weight
.
The method of claim 1,
The fixing means is fixed to the coupling groove by forming a coupling groove in a portion where the fixing means is fixedly installed in the weight.
.
The method of claim 1,
The fixing means has at least two bent portions formed to surround the weight
.
The method of claim 1,
At least one place where one surface of the fixing means and one surface of the magnet is in contact with each other
.
The method of claim 1,
The bending portion of the fixing means has at least one that is formed with a bending groove to facilitate bending
.
The method of claim 1,
The plate is a metal plate member, and the metal plate member is provided with a circuit board for applying an external electrical signal to the coil.
A vibration generator
The method of claim 1,
The plate is printed on the surface of the metal plate member printed circuit board for applying an external electrical signal to the coil
.
The method of claim 1,
The plate is made of a printed circuit board (PCB)
.
The method of claim 1,
Between the weight and the case is further provided with a cushioning material for removing the shock noise generated during vibration
.
The method of claim 1,
Magnetic fluid is applied between the coil and the magnet to prevent the coil from disconnecting due to interference generated during vibration.
.
A first step of coupling a fixing means having one surface extended to a weight having an internal space formed therein;
A second step of fixing the magnet to the weight by bending the one surface extending from the fixing means while the magnet is inserted into the internal space of the weight to which the fixing means is coupled;
A third step of fixedly coupling one end of an elastic means having a 'c' shape to the weight on which the fixing means and the magnet are fixed in a second step,
The first assembly is manufactured by a fourth step of fixing the other end of the elastic means to the case with one surface open in the assembly completed in the third step,
A second assembly is manufactured by assembling a plate and a coil separately from the first assembly.
Manufacturing by assembling the first assembly and the second assembly
Vibration generator manufacturing method characterized in that.

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