KR20050121946A - Linear type vibration actuator having case integrated with lamellar spring - Google Patents

Abstract

The present invention relates to a linear vibration actuator having a leaf spring integrated case.

The present invention includes a movement unit consisting of a mass having a mass of a magnet and a yoke surrounding the magnet and a predetermined size attached to the yoke; A base assembly having a coil assembly disposed below the moving part; And a leaf spring integrated case having a cylindrical side surface and an upper surface portion connected to the side surface portion, the upper surface portion of which is in contact with an upper surface of the moving portion. It provides a linear vibration actuator having a plate spring integrated case comprising a.

According to the present invention, the parts manufacturing process and the parts assembly process can be simplified, and the quality can be stabilized.

Description

Linear Type Vibration Actuator having Case Integrated with Lamellar Spring}

The present invention relates to a linear vibration actuator having a plate spring integrated case, and more particularly, in the linear vibration actuator to manufacture the spring integrally with the case to simplify the manufacturing process, to minimize the defects that may occur in the assembly process The present invention relates to a linear vibration actuator having a leaf spring integrated case that can greatly improve quality stabilization.

In general, one of the essential functions of a communication device is an incoming call function. The most common types of call forwarding features are vocals such as melodies and bells, and vibrations that cause the device to shake.

Among them, the vibration function is mainly used when a melody or bell is transmitted to the outside through a speaker so as not to cause damage to others. For this vibration, it is common to drive a small vibration motor so that the driving force is transmitted to the case of the device so that the device can vibrate.

Vibration motors currently applied to mobile phones are classified into a coin type having a thin thickness and a bar type having a long shape according to its shape.

Regardless of the shape described above, the vibration motors use a method of generating a rotational force to obtain mechanical vibration by rotating a rotating part of an unbalanced mass, and the rotational force is mostly through rectification through a contact point of a brush and a commutator. It is generated by supplying current to the coil.

However, the brush type structure using the commutator causes mechanical friction and electrical spark as the brush passes between the segments of the commutator and the segments between the segments when the motor rotates, and the brush and commutator There is a problem of shortening the life of the motor by abrasion.

Vibration generating device has been proposed in Japanese Patent Laid-Open No. 1997-205763 as a vertical vibrator, which is a brushless type vibration motor that partially improves the disadvantages of the brush type vibration motor as described above. Is shown.

Referring to FIG. 1, the vibration generating device 100 includes a spring 120 disposed inside a case 110 and a magnet 142 and a yoke 141 disposed on the spring 120. And a magnetic field generator 140 composed of a plate 143 is installed.

A coil 130 is disposed in the magnetic field of the magnetic field generator 140, one end of which is fixed to an inner surface of the case 110. The vibration generating device 100 is the direction of the magnetic flux passing through the coil in the magnet is formed left and right, the direction of vibration, that is, the movement is formed up and down, the magnetic flux direction and the movement direction is perpendicular. The vibration generating device 100 can improve the durability compared to the existing vibration motor and can be miniaturized.

However, in the conventional vibration generating device, the spring 120 and the case 110 were manufactured as separate parts, and these were assembled by injection or welding.

This method requires a separate part of the spring 120 and the case 110, there is a problem that the defect is likely to occur during the respective manufacturing process or their assembly process.

For example, as shown in FIG. 2, when the case 110 is a mold, the spring 120, which is a press, is inserted into the case 110 and an insert.

However, this assembly method is not only the problem described above, but also the case is molded, so it is vulnerable to external impact, and only a part of the spring is secured to the case to secure a gap for generating vertical displacement during injection of the spring and the case. There was a weak problem in impact during the drop because it is inserted.

Also, for example, in the vibration motor 110 ′ as shown in FIG. 3, when the case 110 ′ is metal, the spring 120 ′ and the case 110 ′, which are presses, are welded as separate parts. Assembled.

That is, as shown in the case of a spring 120 'consisting of a small inner plate portion 121' and a large outer plate portion 123 'and at least two connection plate portions 122' connecting them in a curved manner. It is manufactured as a separate component from 110 ', and welded to the outer side 123' of the spring 120 'and the upper inner side of the case 110'.

However, this method also has a high possibility of defects caused by component shape and structure in the manufacturing process or assembling process, and also has a problem of shortening the life of the spring due to the concentration of stress in the weld.

Therefore, there has been a need in the art for a linear vibration actuator capable of preventing such problems.

The present invention is to solve the conventional problems as described above, it is possible to prevent problems such as the complexity of the process and assembly failure according to the separation structure by having a plate spring integrated case in which the case and the spring of the vibration motor is integrally manufactured. The purpose is to provide a linear vibration actuator.

In order to solve the above object, the present invention provides a magnet and a plate-yoke mounted to the lower portion of the magnet (plate-yoke), the yoke surrounding the magnet and a mass having a mass of a predetermined size attached to the yoke; A base assembly having a coil assembly disposed below the moving part; And a leaf spring integrated case having a cylindrical side surface and an upper surface portion connected to the side surface portion, the upper surface portion of which is in contact with an upper surface of the moving portion. It provides a linear vibration actuator having a plate spring integrated case comprising a.

Here, as an embodiment, the upper surface portion of the leaf spring integrated case, the inner plate portion in contact with the upper surface of the moving part; An outer plate portion connected to the side portion of the leaf spring integrated case; And at least two connection plate portions in which the inner plate portion and the outer plate portion are connected in a curve. It may include.

In another embodiment, the upper surface portion of the leaf spring integrated case, the inner plate portion in contact with the upper surface of the moving part; And at least two connecting plate portions connected in a curve to the inner side plate portion and the side portion of the leaf spring integrated case. It may include.

Preferably, the coil assembly is partially recessed into a ring-shaped recess below the moving part, and an upper end thereof is formed higher than a bottom surface of the moving part.

Preferably, the base assembly includes a terminal that can be connected to an external substrate.

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

4 is a side cross-sectional view of a linear vibration actuator having a leaf spring integrated case according to the present invention, which will be described below.

The present invention relates to a linear vibration motor in which the moving part 20 causes resonance up and down by the interaction of a magnetic force by the magnet 21 and an electromagnetic force of a predetermined frequency generated in the coil assembly 41, and simplifies the manufacturing process and the assembly process. In addition, in order to minimize the failure rate that can occur during the assembly process is provided with a plate spring integrated case 10 formed integrally with the leaf spring.

As shown, the leaf spring integrated case 10 has a cylindrical side surface portion 12, and the upper surface portion 11 is formed of a leaf spring connected to the side portion 12 and a part of the leaf spring in contact with the upper surface of the moving part 20 ).

This has the advantage of maximizing the amount of vibration by optimizing the space according to the disappearance of the upper surface of the conventional case as well as simplify the manufacturing process and assembly process is formed with the spring and the case integrally.

The upper surface portion 11 of the leaf spring integrated case includes an inner plate portion 11a in contact with the upper surface of the moving part 20, an outer plate portion 11c connected to the side surface portion 12 of the leaf spring integrated case, and the The inner plate portion 11a and the outer plate portion 11c may include at least two or more connecting plate portions 11b connected in a curve. (See Figures 5 and 6)

In another embodiment, the upper surface portion 11 may not be provided with the outer plate portion 11c and the connection plate portion 11b may be directly connected to the side portion 12. This will be described in detail with reference to FIGS. 5 and 6 below.

The present invention may include the leaf spring integrated case 10, the moving part 20, and the base assembly 30.

The moving part 20 includes a magnet 21, a plate-yoke 24 mounted below the magnet, a yoke 22 surrounding the magnet 21, and a predetermined size of mass attached to the yoke 22. It is made of a mass body 23 having a, the base assembly 30 may be provided with a coil assembly 31 disposed below the moving part (20).

In this case, as shown in FIG. 4, the coil assembly 31 is partially recessed into the ring-shaped groove 40 below the moving part 20, and an upper end thereof is formed higher than the bottom of the moving part 20. Can be.

In addition, the base assembly 30 may be formed with a terminal that can be connected to an external substrate. That is, the base assembly 30 is preferably a flexible printed circuit (flexible printed circuit) is arranged on the upper side to be connected to the input terminal, the coil assembly 31 is preferably disposed on the flexible printed circuit.

As such, the present invention can simplify the process by reducing the number of parts by integrating the leaf spring and the case, it is possible to maintain the resonance frequency uniformly by reducing the defective rate that can occur during the assembly process.

In addition, by omitting the welding process it is possible to prevent the phenomenon that the stress is concentrated in the welded portion can improve the life of the leaf spring.

Figure 5 shows an embodiment of a leaf spring integrated case according to the present invention, it will be described as follows.

As described above, the present invention is a plate spring-integrated case having a cylindrical side surface portion 12 and the upper surface portion 11 is formed of a leaf spring connected to the side surface portion 12 and a part of the upper surface of the moving portion (10).

As shown in one embodiment, the upper surface portion 11 of the leaf spring integrated case, the inner plate portion 11a having a small diameter and the outer plate portion having a large diameter connected to the side portion 12 of the leaf spring integrated case 11c and at least two connection plate portions 11b in which the inner plate portion 11a and the outer plate portion 11c are connected in a curve.

At this time, the inner plate portion (11a) of the upper surface portion 11 is formed in contact with the upper surface of the movement portion, the side portion 12 is preferably formed in a cylindrical shape to surround the base assembly and the movement portion.

Figure 6 shows another embodiment of the leaf spring integrated case according to the present invention, it will be described as follows.

In another embodiment, the upper surface portion 11 'of the leaf spring-integrated case 10' may include an inner plate portion 11a 'and a side portion of the inner plate portion 11a' and the leaf spring-integrated case which contact the upper surface of the moving part. At least two connection plate portions 11b 'connected in a curve with 12' may be included.

In this case, the connecting plate portion 11b 'is directly connected to the side portion 12', thereby allowing the length of the connecting plate portion 11b 'to be relatively long, which may have advantages such as frequency stabilization.

The above has been described in detail with reference to the present invention, which is illustrative and does not limit the present invention.

The linear vibration actuator having a spring-integrated case according to the present invention has an effect of simplifying a part manufacturing process and a part assembly process by integrally forming a case and a spring.

In addition, according to the present invention there is an effect that can stabilize the quality, such as to maintain the resonance frequency uniformly by minimizing the failure rate that may occur in the assembly process.

In addition, the present invention has the effect of maximizing the amount of vibration through the space optimization of the leaf spring.

1 is a side cross-sectional view of a conventional vibration generating device.

Figure 2 shows a method of assembling the spring of the conventional vibration generating device to the case.

Figure 3 shows another conventional assembly method.

Figure 4 shows a side cross section of a linear vibration actuator with a leaf spring integrated case according to the present invention.

Figure 5 shows one embodiment of a leaf spring integrated case according to the present invention.

Figure 6 shows another embodiment of a leaf spring integrated case according to the present invention.

* Description of the symbols for the main parts of the drawings *

100, 100 '... Conventional Vibration Generator 110, 110' ... Case

120, 120 '... spring 130 ... coil

140 ... magnetic field generator 10 ... integrated leaf spring case

11 ... top 11a, 121 '... inner plate

11b, 122 '... Connecting plate part 11c, 123' ... Outer plate part

12 ... side 20 ... athletic

21 ... Magnet 22 ... York

23. Mass 30. Base assembly

31. Coil assembly 40 ... Ring-shaped groove

Claims (5)

A moving part including a magnet and a plate-yoke mounted below the magnet, a yoke surrounding the magnet, and a mass having a mass of a predetermined size attached to the yoke; A base assembly having a coil assembly disposed below the moving part; And A leaf spring integrated case having a cylindrical side surface portion and an upper surface portion connected to the side surface portion and a portion of the leaf spring contacting an upper surface of the moving portion; Linear vibrating actuator having a plate spring integrated case comprising a. The method of claim 1, The upper surface portion of the leaf spring integrated case, An inner plate portion in contact with the upper surface of the movement portion; An outer plate portion connected to the side portion of the leaf spring integrated case; And At least two connection plate portions in which the inner plate portion and the outer plate portion are curved; Linear vibrating actuator comprising a. The method of claim 1, The upper surface portion of the leaf spring integrated case, An inner plate portion in contact with the upper surface of the movement portion; And At least two connection plate portions connected to the inner plate portion and side surfaces of the leaf spring integrated case in a curved manner; Linear vibrating actuator comprising a. The method of claim 1, The coil assembly is part of the ring-shaped groove in the lower portion of the movement portion, the linear vibration actuator, characterized in that the upper end is formed higher than the bottom surface of the movement portion. The method of claim 1, The base assembly is a linear vibration actuator, characterized in that the terminal is connected to the external substrate is formed.