KR20130110298A - Voice coil motor - Google Patents

Abstract

PURPOSE: A voice coil motor prevents the deformation of a thermal adhesion boss by blocking heat transferred to the heat adhesion boss. CONSTITUTION: A voice coil motor includes a carrier part (160), a base member (110), a cover housing (120), first and second elastic bodies (140, 150), and a heat blocking part. The carrier part includes a lens. The base member has a driver to vertically move the carrier part in an optical axis direction. The cover housing is combined with the base member. The first and second elastic bodies are formed in the cover housing and provide elastic force to vertically move the carrier part. The heat blocking part blocks the heat of the first and second elastic bodies.

Description

Voice coil motor {VOICE COIL MOTOR}

The present invention relates to a voice coil motor, and more particularly, to a voice coil motor configured to block heat generated during soldering.

In general, with the development of digital camera manufacturing technology, a compact and lightweight camera lens assembly is introduced to enable the mounting of a camera in a portable communication device, and thus, a portable communication device equipped with an optical lens and a camera lens assembly is becoming popular. .

Particularly, the camera lens assembly employed in the portable communication device is in a trend of being developed in a direction favorable to high-performance high-capacity, miniaturization and lightweight.

The camera lens assembly employed in such a portable communication apparatus is equipped with an auto focus function, a shutter function, and a zoom function, and is equipped with an image stabilization function so as to be faithful to the camera function.

A conventional voice coil motor employed in such a camera lens assembly will now be described.

1 and 2, a configuration of a conventional voice coil motor 10 will be described. As shown in FIGS. 1 and 2, the conventional voice coil motor includes a base 11 and a cover 12. And a carrier 13, drive units 14, 16, 17, and upper and lower elastic bodies 15a, 15b. The driving units 14, 16 and 17 include a magnet 14, a yoke 16 and a coil 17. The carrier 13 and the upper and lower elastic members 15a and 15b are accommodated in the inner space provided by the combination of the base 11 and the cover 12. [

2, the upper and lower elastic members 15a and 15b mechanically support the carrier 13 and the cover (not shown) so as to accelerate the operating speed and the restoring speed of the driving units 14, 16 and 17, 12).

Here, the upper and lower elastic bodies are coupled in various ways such as insert, heating, bonding, and the like. That is, the upper and lower elastic bodies are bonded to the heat-sealed bosses formed on the carrier and the cover, and the heat-sealed bosses are fixed to the carrier and the cover.

In addition, the lower elastic body is provided with soldering parts that are soldered by both ends of the coil and heat.

A conventional voice coil motor has already been disclosed in Korean Patent Laid-Open No. 10-2011-0076063 (2011, 07, 06, publication date).

However, the conventional voice motor coil has a structure in which a lower elastic body is respectively coupled to a heat fusion boss of the carrier provided with a coil, and in this state, both ends of the coil are thermally soldered to the soldering section of the lower elastic body. As described above, the lower elastic body not only transfers heat generated during soldering to the thermal fusion boss through the lower elastic body as it is, but also deforms the thermal fusion boss, thereby lowering the function of the thermal fusion boss, and thus, the elastic body. There was a problem of lowering the assembling process.

Therefore, there is a need for an apparatus for blocking heat generated when soldering the lower elastic body from being transferred to the thermal fusion boss.

In addition, when the lower elastic body is coupled to the heat-sealing boss of the carrier, when the boss is heated, the boss is melted and fixed by the pressure and heat pressed on the lower elastic body, so the lower elastic body is the boss Deformation occurs due to the direct contact with the horizontal surface of the carrier as it is, thereby lowering the assembly process and fixing force of the lower elastic body.

In order to solve this disadvantage, the carrier requires a device capable of reducing the deformation of the lower elastic body when the heat-sealed boss is pressed.

The present invention is to configure the heat shield to block the heat transferred to the heat-sealed boss when soldering to the elastic body, to prevent deformation of the heat-sealed boss as well as to improve the function, thereby improving the assembly process of the elastic body One voice coil motor is to provide.

In addition, the present invention by forming at least one or more stepped portions to prevent deformation of the first and second elastic bodies in the carrier portion, not only to prevent the deformation of the elastic bodies, but also to improve the assembly process and fixing force of the elastic bodies voice coil motor To provide.

In order to solve the above problems, the present invention provides a voice coil motor,

A base member for accommodating a carrier part having a lens and a driving part for driving the carrier part up and down in the optical axis direction;

A cover housing coupled to the base member; And

And first and second elastic members provided in the cover housing to provide an elastic force to be able to drive the carrier part up and down,

The first and second elastic bodies are characterized in that a heat shield for blocking heat is formed.

 The present invention is a voice coil motor,

A base member for accommodating a carrier part having a lens and a driving part for driving the carrier part up and down in the optical axis direction;

A cover housing coupled to the base member;

A space part provided between the cover housing and the carrier part;

First and second elastic bodies provided in the cover housing to provide an elastic force to drive the carrier part up and down; And

At least one soldering part formed on the first and second elastic bodies and electrically connected to the coil part of the driving part,

In the adjacent position of the soldering portion is characterized in that the heat shield is formed to block the heat generated during soldering.

The present invention is a voice coil motor,

A base member for accommodating a carrier part having a lens and a driving part for driving the carrier part up and down in the optical axis direction;

A cover housing coupled to the base member;

A space part provided between the cover housing and the carrier part; And

And first and second elastic members provided in the cover housing to provide an elastic force to be able to drive the carrier part up and down,

Voice carrier motor, characterized in that the carrier portion is formed with at least one stepped portion to prevent deformation of the first and second elastic bodies.

As described above, according to the voice coil motor of the present invention,

The heat shield is configured to prevent the heat generated during soldering of the elastic body from being transferred to the thermal fusion boss formed in the carrier, thereby preventing deformation of the thermal fusion boss and improving the function, thereby improving the assembly process of the elastic body. It can be effected.

In addition, at least one stepped portion may be formed in the carrier to prevent deformation of the first and second elastic bodies to prevent deformation of the elastic bodies, as well as to improve the assembly process and the fixing force of the elastic bodies.

1 is an exploded perspective view showing a configuration of a conventional voice coil motor.
Figure 2 is a perspective view showing a coupling state of a conventional voice coil motor.
Figure 3 is an exploded perspective view showing the configuration of the voice coil motor according to an embodiment of the present invention.
4 is an exploded perspective view showing a second elastic body and a carrier part of the configuration of the voice coil motor according to the preferred embodiment of the present invention.
5 is an enlarged exploded perspective view of portion A of FIG. 4;
6 is an enlarged exploded perspective view of portion B of FIG. 4.
Figure 7 is a perspective view showing a coupling state of the voice coil motor according to an embodiment of the present invention.
8 is a plan view showing a coupled state of the voice coil motor according to an embodiment of the present invention.
9 is a plan view showing a coupling state between a second elastic body and a magnetic body of the configuration of the voice coil motor according to an embodiment of the present invention.
10 is an exploded perspective view showing another embodiment of the step portion of the configuration of the voice coil motor according to an embodiment of the present invention.
11 is an enlarged exploded perspective view of part C of FIG. 10;
12 is a perspective view showing a coupling state of the stepped portion of FIG.
FIG. 13 is an enlarged perspective view of part D of FIG. 12;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, a detailed description of the configuration is omitted in order to avoid obscuring the gist of the present invention.

3 and 4 are views showing the configuration of the voice coil motor according to the present invention.

The configuration of the voice coil motor 100 will be described with reference to FIG. The voice coil motor 100 includes a base member 110, a cover housing 120, a space part 130, first and second elastic bodies, a soldering part 180, and a heat shielding part 190. do. The base member 110 accommodates a carrier unit 160 having a lens (not shown), and a driving unit 170 for driving the carrier unit 160 in the optical axis A1 direction. . The cover housing 120 protects and accommodates the carrier unit 160, the driving unit 170, and the first and second elastic bodies 140 and 150 and the heat shield unit 190, which will be described later. Is coupled to the base member 110. The space part 130 is provided between the cover housing 120 and the carrier part 160 to enable the carrier part 160 to be driven up and down by the driving part 170. The first elastic body 140 is provided between the space portion 130 and the carrier portion 160 to provide an elastic force to drive the carrier portion 160 up and down. The second elastic body 150 is provided between the carrier portion 160 and the base member 110 to provide an elastic force to drive the carrier portion 160 up and down. The soldering unit 180 is formed on the first and second elastic bodies 140 and 150 to be electrically connected to the coil unit 172 of the driving unit 170. The heat blocking unit 190 is formed at a position adjacent to the soldering unit 180 to block heat generated during soldering from being transferred to the plurality of heat fusion bosses 161 formed in the carrier unit 160.

4 and 5, the heat shield 190 is formed of a groove having an “I” shape, and preferably formed of at least one or more. The heat shield 190 may have other shapes in addition to the “I” shaped grooves (eg, “V” shaped, “Y” shaped and “T” shaped, etc.).

In addition, referring to the aforementioned configuration of the driving unit 170 in more detail with reference to FIG. 3, first, the driving units 170 and 40 may include a plurality of yokes (not shown) and a magnetic body 171. And the coil portion 172. The plurality of yokes and magnetic bodies 171 are provided in the base member 110 to face the coil unit 172 to be described later. The coil unit 172 may drive the carrier unit 160 in response to the application of power in response to the magnetic bodies 171.

As illustrated in FIG. 9, the soldering units 180 may be positioned so that the wires of the coil unit 172 do not contact the magnetic bodies 171. The position angles of the soldering parts 180 may be made within 90 degrees or 180 degrees with respect to the optical axis A1 on the plane of the second elastic body 150.

In addition, as shown in FIG. 4 mentioned above, at least one stepped portion 200 is preferably formed in the carrier portion 160 to prevent deformation of the first and second elastic bodies 140 and 150. .

As shown in FIG. 6, the stepped portions 200 may be formed in the second elastic body 150 and may be formed of stepped grooves recessed to a predetermined depth. The stepped portions 200 form a heat-sealed boss 161 formed on the carrier 160, and a portion of the heat-sealed boss 161 is preferably formed in the stepped portions 200.

In addition, as shown in Figure 10 to Figure 13, showing another embodiment of the step portion 200, as shown in Figure 10 and 11, the step portion 200 is a multi-stage step formed protruding in multiple steps at a predetermined height. It is preferably made of a portion (210).

12 and 13, the multi-stepped portion 210 includes first and second stepped portions 211 and 212. The first stepped part 211 protrudes from the carrier part 160 so as to support the second stepped part 212 described later. The second stepped portion 212 protrudes to a predetermined height from the first stepped portion 211 to form the heat fusion boss 161.

On the other hand, the voice coil motor according to an embodiment of the present invention is applicable to the camera lens module of the portable communication device as a representative application example. However, the present invention is not limited to the camera lens module of the portable communication device, and can be applied to various types of terminals that can include a camera lens assembly

Examples of the various types of terminals according to the embodiment of the present invention include all mobile communication terminals operating based on communication protocols corresponding to various communication systems, Portable Multimedia Player), Navigation, Game Machine, Digital Camera, Notebook, Billboard, TV, Digital Broadcast Player, PDA (Personal Digital Assistant), Smart Phone and Multimedia Device and its Application Device.

Here, referring to FIG. 3 and FIG. 4, the assembly process of the voice coil motor will be described in more detail. As shown in FIG. 3, first, a lens (not shown) is provided on the base member 110. One carrier unit 160 is coupled. In this case, a second elastic body 150 is provided below the carrier part 160. In this state, the coil unit 172 is coupled to the carrier unit 160, and a magnetic body 171 is provided to face the coil unit 172. The first elastic body 140 is provided on the carrier part 160, and the space part 130 is provided on the first elastic body 140. In the assembled state, the base member 110 is coupled to the cover housing 120 to accommodate the disclosed parts.

Here, if the carrier section 160 and the second elastic body 150 is described in more detail to the exaggeration, first, as shown in Figures 4 and 6, the carrier portion 160 has a plurality of heat-sealing boss ( Since the 161 is formed, the coupling holes of the second elastic body 150 are assembled to the heat fusion boss 161.

In this case, since the at least one stepped portion 200 is formed in the carrier part 160 to prevent deformation of the second elastic body 150, the second elastic body 150 is arranged in a row of the carrier part 160. While pressing and assembling the fusion bosses 161, the bending of the second elastic body 150 is formed by the pressure pressed by the stepped portion 200, and at the same time, it returns to its original state. As a result, the second elastic body 150 may prevent deformation caused when assembling the heat-sealing boss 161 of the carrier 160.

As shown in FIG. 6, the stepped portions 200 may include stepped grooves recessed to a predetermined depth so that the second elastic body 150 may be bent.

That is, when assembling the elastic bodies 15a and 15b (shown in FIG. 1) to the existing carrier 13 (shown in FIG. 1), the upper surface of the carrier unit 160 is formed in a plane, so that the elastic body is formed of the existing carrier. When the assembly is pressed while being in the plane, the elastic body is warped, and the elastic body has a disadvantage in that the assembly process and fixing force to the heat-sealing boss of the carrier.

In order to solve this disadvantage, the present invention forms a stepped portion 200 formed of stepped grooves in the lower portion of the heat-sealing boss 161 of the carrier portion 160, so that the stepped grooves form the second elastic body 150. After absorbing the bending of the second elastic body 150 generated during the assembly to the heat-sealing boss 161 of the carrier unit 160 to be unfolded again to return to the original state. In this case, the second elastic body 150 may prevent the deformation that is generated. As a result, the assembling process and fixing force of the second elastic body 150 may be further improved.

As such, the second elastic body 150 is assembled to the thermal fusion bosses 161 and at the same time, the thermal fusion boss 161 is thermally fused to fix the second elastic body 150.

In addition, as described above with reference to FIGS. 5 and 7, the second elastic body 150 in a state where the coupling holes of the second elastic body 150 are coupled to the heat-sealing bosses 161 of the carrier part 160. And the coil unit 172 of the driving unit 170 are soldered. At least one soldering part 180 is formed on the second elastic body 150 to be electrically connected to the coil part 172 of the driving part 170, so that an end of the coil part 172 is formed on the second elastic body 150. The solder portions 180 of 150 are thermally soldered.

As such, when soldering an existing elastic body 15a, 15b (shown in FIG. 1) by heat, the heat is transferred to the elastic body as it is, and the elastic body is transferred to the thermal fusion bosses of the existing carrier without blocking the heat. As a result, the heat-sealing bosses are deformed and the assembly process with the elastic body is reduced.

In order to solve this disadvantage, as shown in FIG. 8, the present invention forms a heat shield 190 that blocks heat generated when soldering the second elastic body 150. That is, the heat shielding part 190 blocks the heat generated when soldering one end of the coil part 172 to the soldering parts 180 of the second elastic body 150 so that the heat-sealing bosses 161 are closed. It is possible to prevent deformation by heat, thereby improving the assembly fixing of the second elastic body 150.

Here, the soldering parts 180 are positioned in the second elastic body 150 such that the wires of the coil part 172 do not contact the magnetic bodies 171, and thus the coil part 172 and the magnetic body 171. By preventing the interference of the driving unit 170 may further improve the function.

In addition, FIG. 9 is a diagram illustrating an installation position between the soldering units 180 and the magnetic bodies 171. As shown in FIG. 9, the position angles of the soldering parts 180 are 90 degrees with respect to the optical axis A1 on the plane of the second elastic body 150, and the soldering parts 180 are the coil parts 172. ) Is provided in a corner empty space of the magnetic bodies 171 so that the line of the magnetic body 171 does not come into contact with the magnetic bodies 171 even when protruding from the outside of the carrier unit 160.

On the other hand, when the operation process of the voice coil motor in the assembly is completed, first, when power is applied to the coil unit 172, the coil unit 172 generates an electric field, the coil unit 172 The electric field and the magnetic field of the magnetic body 171 interact with each other to drive the carrier unit 160 including the lens in the up and down directions in the optical axis A1 direction.

10 to 13 illustrate another embodiment of the stepped part 200.

Referring to FIGS. 10 to 13, another embodiment of the stepped parts 200 will be described. First, as shown in FIG. 10, the stepped parts 200 protrude in multiple steps at a predetermined height. )

The multi-stepped part 210 includes first and second stepped parts 211 and 212, and the first stepped part 211 protrudes to a predetermined height of the carrier part 160. The second stepped part 212 is formed to protrude to a predetermined height on the upper surface of the first stepped part 211.

As illustrated in FIG. 11, a heat fusion boss 161 formed on the carrier part 160 is formed at the second stepped part 212.

In this state, the coupling hole of the second elastic body 150 is assembled to the heat-sealing boss 161.

At this time, as shown in FIG. 12, the second elastic body 150 is assembled to the heat-sealing boss 161 while pressing and warping occurs. Since the multi-stage stepped portion 210 for preventing deformation of the second elastic body 150 is formed under the heat-sealing boss 161, the second elastic body 150 is in contact with the multi-stage stepped portion 210. In addition, warpage is generated along the multi-stepped step 210. That is, the second elastic body 150 is restored along with the bending along the multi-stage step portion 210, and at this time, the second elastic body 150 is kept intact and prevents deformation.

Furthermore, as shown in FIG. 13, since the multi-stepped portion 210 protrudes stepwise into the first and second stepped portions 211 and 212, the second elastic body 150 may have the first stepped portion 211. ) Is first contacted to generate warpage, and then sequentially contacted with the second stepped portion 212 to cause warpage and unfold again to return to its original state.

As such, by forming the multi-stage step portion 210 for generating the second elastic body 150 stepwise and restoring it to its original state, the carrier part 160 can prevent deformation of the second elastic body 150. In addition, the assembly process can be improved.

The voice coil motor of the present invention described above is not limited to the above-described embodiments and drawings, and various substitutions, modifications, and changes are possible within the technical scope of the present invention. It will be apparent to those who have

Base member: 110 Cover housing: 120
Space part: 130 1st, 2nd elastic body: 140, 150
Solder: 180 Thermal Cut: 190
Carrier section: 160 Drive section: 170
Magnetic material: 171 Coil part: 172
Steps: 200 Steps: 210
1st, 2nd step: 210, 212

Claims (16)

In the voice coil motor,
A base member for accommodating a carrier part having a lens and a driving part for driving the carrier part up and down in the optical axis direction;
A cover housing coupled to the base member; And
And first and second elastic members provided in the cover housing to provide an elastic force to be able to drive the carrier part up and down,
Voice coil motor, characterized in that the first and second elastic body is formed of a heat shield for blocking heat.
The voice coil motor of claim 1, wherein at least one stepped portion is formed in the carrier portion.
In the voice coil motor,
A base member for accommodating a carrier part having a lens and a driving part for driving the carrier part up and down in the optical axis direction;
A cover housing coupled to the base member;
A space part provided between the cover housing and the carrier part;
First and second elastic bodies provided in the cover housing to provide an elastic force to drive the carrier part up and down; And
At least one soldering portion formed on the first and second elastic bodies,
Voice coil motor, characterized in that the heat shield is formed to block the heat generated when the soldering portion adjacent to the soldering portion.
The voice coil motor of claim 3, wherein the first elastic part is provided between the space part and the carrier part.
The voice coil motor of claim 3, wherein the second elastic part is provided between the carrier part and the base member.
The voice coil motor of claim 3, wherein the heat shield is formed of a groove having an “I” shape and formed in at least one.
The voice coil motor of claim 3, wherein the heat shield blocks the soldering heat transferred to the plurality of heat-sealed bosses formed in the carrier part.
According to claim 3, The drive unit, Yoke and magnetic body provided in the cover housing; And
And a coil part provided in the carrier part and driving the carrier part in response to the application of a power source corresponding to a magnetic body.
The voice coil motor of claim 8, wherein the solder parts are positioned so that the wire of the coil part does not contact the magnetic material.
10. The voice coil motor of claim 9, wherein the position angles of the soldering portions are within 90 degrees or 180 degrees with respect to the optical axis on a plane of the carrier portion.
In the voice coil motor,
A base member for accommodating a carrier part having a lens and a driving part for driving the carrier part up and down in the optical axis direction;
A cover housing coupled to the base member;
A space part provided between the cover housing and the carrier part; And
And first and second elastic members provided in the cover housing to provide an elastic force to be able to drive the carrier part up and down,
Voice carrier motor, characterized in that the carrier portion is formed with at least one stepped portion to prevent deformation of the first and second elastic bodies.
12. The voice coil motor of claim 11, wherein the stepped portions are formed in the second elastic body and are formed with stepped recesses recessed to a predetermined depth.
12. The voice coil motor of claim 11, wherein the stepped portions form a heat-sealed boss formed in the carrier portion and a portion of the heat-sealed boss is formed in the stepped portions.
12. The voice coil motor of claim 11, wherein the stepped portions are formed of a multi-stepped portion protruding in multiple stages at a predetermined height.
15. The method of claim 14, wherein the multi-stage step portion, The first step portion protruding from the carrier portion; And
And a second stepped part protruding to a predetermined height in the first stepped part.
The voice coil motor of claim 15, wherein a heat fusion boss formed on the carrier is formed on an upper surface of the second stepped portion.

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