KR100964543B1 - Cover for compact image photographing device and making methode of the same and compact image photographing device with the same - Google Patents

Abstract

The present invention is to provide a cover for a small camera module and a manufacturing method and a small camera module equipped with a cover formed of a magnetic material to surround the lens holder and the magnet to reduce the overall number and size of parts.

The cover for the small camera module of the present invention is made of a magnetic material flat plate, bent to open up and down to wrap the side of the camera module, one end and the other end of the cover are coupled to each other.

Cover, camera, magnetic material

Description

COVER FOR COMPACT IMAGE PHOTOGRAPHING DEVICE AND MAKING METHODE OF THE SAME AND COMPACT IMAGE PHOTOGRAPHING DEVICE WITH THE SAME}

The present invention relates to a cover for a small camera module, a method for manufacturing the same, and a small camera module equipped with the same. In particular, a cover for a small camera module and a method for manufacturing the same are formed to surround the camera module and protect the components embedded in the cover. It relates to a small camera module equipped with this.

As the development of small camera modules is accelerated, they are being installed in various electronic products such as notebooks, PMPs and MP3s as well as digital cameras.

In particular, most mobile communication terminals such as mobile phones are equipped with a small camera module is released, the frequency of use is also increasing.

1 and 2 show a conventional small camera module 400.

1 and 2, the small camera module 400 includes a lens group 500, a lens holder 550, a support holder 600, a leaf spring 650, a fixing member 700, and a cover 750. , The driving unit 800 and the control unit 850.

The lens group 500 is composed of a plurality of lenses for changing the magnification of the subject, and is inserted into and fixed to the lens holder 550.

The lens holder 550 is seated inside the support holder 600, and the leaf spring 650 is mounted on upper and lower ends of the lens holder 550.

The leaf spring 650 is elastically supported to guide the lens holder 550 to flow in the optical axis direction of the lens group 500.

In addition, the leaf spring 650 mounted on the upper end of the lens holder 550 is seated on the upper end of the support holder 600 is bonded with the fixing member 700 and bonded with an adhesive.

A driving unit 800 for floating the lens holder 550 is mounted between the support holder 600 and the lens holder 550.

In addition, a control unit 850 including an image sensor for capturing an image of a subject passing through the lens group 500 is mounted at a lower end of the support holder 600.

The driver 800 is fixed to the magnet 810 fixed to the support holder 600, the lens holder 550 and the magnetic flux from the magnet 810 when the power is supplied from the control unit 850 And a coil 820 for generating a force for driving the lens holder 550 in the optical axis direction.

In addition, the driver 800 has a yoke 830 for efficiently purifying the magnetic flux of the magnet 810.

The yoke 830 is made of a magnetic material and is attached to the outer surface of the magnet 810, and is fixed to both sides of the support holder 600 together with the magnet 810.

In addition, the cover 750 is mounted on the upper side of the support holder 600 to surround the support holder 600 and the yoke 830 to protect the driving unit 800 mounted inside the support holder 600. .

These camera modules are constantly required for a small size camera module as the miniaturization of electronic products, but each part has its own functions and roles, it is difficult to remove or reduce the parts.

The present invention has been made to solve the above problems, by forming a cover made of a magnetic material to surround the lens holder and the magnet to perform the function of the cover and the function of the back yoke and the function of the support holder as a whole The purpose of the present invention is to provide a cover for a small camera module and a method for manufacturing the same, and a small camera module equipped with the same.

In order to achieve the above object, the cover for a small camera module of the present invention is made of a flat plate made of a magnetic material, and is bent to open up and down to cover the side of the camera module, and one end and the other end of the cover are coupled to each other.

A coupling groove is formed at one end of the cover, and a coupling protrusion inserted into the coupling groove is formed at the other end thereof. The coupling groove has an inner width wider than an outer width, and the coupling protrusion has an inner width larger than an outer width. It is narrowly formed.

Small camera module equipped with a cover for a small camera module of the present invention includes a base disposed on the upper part of the image sensor; A lens holder including a lens therein and mounted to be moved upward and downward on an upper portion of the base; A coil member mounted to a side of the lens holder to move the lens holder up and down by electromagnetic force when power is applied; A magnet disposed adjacent to the coil member; A cover bent to surround side surfaces of the lens holder and the magnet; It is made, including, the cover is made of a magnetic material, in contact with the magnet to collect the magnetic field of the magnet toward the coil member.

A coupling groove is formed at one end of the cover, and a coupling protrusion inserted into the coupling groove is formed at the other end thereof. The coupling groove has an inner width wider than an outer width, and the coupling protrusion has an inner width larger than an outer width. It is narrowly formed.

The cover is fixed to the upper side of the base, the outer surface of the base is formed with a fixing projection protruding in the outward direction, the lower end of the cover is formed with a coupling groove into which the fixing projection is inserted.

The manufacturing method of the cover for a small camera module of the present invention, the cover for the small camera module is formed to be bent to surround the side of the camera module, it is formed so that one end and the other end of the cover are mutually coupled.

The method of manufacturing a cover for a camera module includes a cutting process of cutting the coupling grooves and the coupling protrusions at both ends of a plate member made of a magnetic material, respectively; A bending process of bending the plate cut by the cutting process into a hollow shape such that the coupling protrusion is inserted into the coupling groove; A cocking step of pressing the coupling groove and the coupling protrusion coupled to each other by the bending process; It is made, including.

According to the cover for a small camera module of the present invention as described above has the following advantages.

The cover is formed of a magnetic plate, and is bent to open up and down by wrapping the side of the camera module, and one end and the other end of the cover are coupled to each other to facilitate attachment of the magnet to the cover, and plastic injection is possible. Not by bending the thin plate to reduce the overall thickness, there is an effect to improve the durability by minimizing the cover in the lateral direction.

By forming the inner width of the coupling groove wider than the outer width, and by forming the inner width of the coupling projections narrower than the outer width, the coupling protrusion can be fixed so as not to leave the coupling groove.

Small camera module equipped with a cover for the small camera module of the present invention, the cover surrounding the lens holder and the magnet is formed of a magnetic material, but in contact with the magnet to collect the magnetic field of the magnet toward the coil member By zooming, the lens holder and the cover to protect the magnet, the support holder for holding the magnet to be disposed on the outer surface of the lens holder and the function of the back yoke to induce the magnetic field circulation of the magnet by performing This reduces the overall component count and size.

In addition, by forming a fixing protrusion in the outward direction on the outer surface of the base, by forming a coupling groove into which the fixing protrusion is inserted in the lower end of the cover, the cover can be fixed so as not to leave the base.

In the method for manufacturing a cover for a small camera module of the present invention, the cover is bent to surround the side of the camera module, by combining one end and the other end of the cover, so that the cover does not open in the lateral direction I can make it.

In addition, when manufacturing the cover for the camera module by pressing the coupling groove and the coupling protrusion coupled to each other by the bending process, the coupling groove and the coupling protrusion is extended in the lateral direction mutually the coupling groove and the coupling protrusion. It is effective to strengthen the bond.

3 is a perspective view of a cover for a small camera module according to the present invention, Figure 4 is an exploded view of a cover for a small camera module according to the present invention, Figure 5 is a small camera module equipped with a cover for a small camera module according to the present invention 6 is an exploded perspective view of a compact camera module equipped with a cover for a small camera module according to the present invention, and FIG. 7 is a compact camera equipped with a cover for a small camera module according to the present invention as seen from AA of FIG. 5. Sectional view of the module.

As shown in FIGS. 3 and 4, the cover 100 for the small camera module of the present invention has a hollow shape in which both upper and lower sides of the hexahedron are opened, and a magnet is made of a flat plate made of a magnetic material, and has a property that a magnet adheres well, and a thin plate The overall thickness can be reduced.

In addition, the cover 100 is bent so that both ends of the plate formed long left and right as shown in Figure 4 are coupled to each other, the coupling protrusion 110 and the coupling groove 120 are coupled to each other at both ends of the plate Is formed.

Specifically, the coupling protrusion 110 is formed at one end when the cover 100 is deployed, and protrudes in the opposite direction of the coupling groove 120.

In addition, the width of the coupling protrusion 110 is formed in the inner width is narrower than the outer width.

That is, when the cover 100 is deployed, the width of the coupling protrusion 110 is the width of the coupling groove 120 of the coupling protrusion 110 in the opposite width of the coupling groove 120 of the coupling protrusion 110. More narrowly formed.

The coupling groove 120 is formed at the other end when the cover 100 is deployed, and is formed to be recessed in the direction of the coupling protrusion 110.

In addition, the width of the coupling groove 120 is formed in the inner width is wider than the outer width as opposed to the coupling protrusion 110.

That is, the width of the coupling groove 120 when the cover 100 is deployed has a width in the direction of the coupling protrusion 110 of the coupling groove 120 opposite to the coupling protrusion 110 of the coupling groove 120. It is formed wider than its width.

The coupling protrusion 110 is inserted into the coupling groove 120 so that the cover 100 bent in a hollow shape does not open in the lateral direction.

As described above, one end and the other end of the cover 100 are coupled to each other, thereby minimizing the cover 100 in the lateral direction and improving durability.

In addition, the inner width of the coupling groove 120 is formed to be wider than the outer width, and the inner width of the coupling protrusion 110 is formed to be narrower than the outer width, so that the coupling protrusion 110 is separated from the coupling groove 120. It can be fixed so as not to.

On the other hand, the cover 100 is mounted to surround the lens holder and the magnet of the small camera module to protect the camera module, and serves to collect the magnetic field of the magnet in contact with the magnet.

Specifically, the compact camera module includes a base 210, a lens holder 220, a coil member 230, a magnet 240, and the cover 100 as shown in FIGS. 5 to 7.

The base 210 has a hexahedron shape and is formed to be similar to or the same as an outer width of the cover 100, and an upper end of the base 210 is inserted and mounted at a lower end of the cover 100.

In addition, a fixing protrusion 211 inserted into the cover 100 is formed at the upper end of the base 210 to protrude outward.

In addition, the top of the base 210 is formed in contact with the lens holder 220, the rotation preventing groove 212 to prevent the rotation of the lens holder 220.

The base 210 is disposed above the image sensor (not shown), and the incident light passing through the lens (not shown) disposed in the upper and lower centers of the base 210 is moved to the image sensor. Do it.

The lens holder 220 is formed to include the lens therein in a cylindrical shape, it is mounted to be moved up and down on the base (210).

In addition, the lower side of the lens holder 220 is formed with a rotation preventing projection 221 is inserted into the rotation preventing groove 212 of the base 210.

The coil member 230 is mounted on the side of the lens holder 220.

The coil member 230 is a thin wire having a current flowing therein and is wound in different directions along the outer circumferential surface of the lens holder 220 in different directions, and moves the lens holder 220 up and down by electromagnetic force when power is applied. .

In addition, the magnet 240 is disposed adjacent to the outer surface of the coil member 230 to form a magnetic field around.

The magnets 240 are two-pole magnetized up and down, and are respectively disposed in four symmetrical directions along the outer circumferential surface of the lens holder 220 and bonded to the inner surface of the cover 100.

Meanwhile, the cover 100 is bent to surround side surfaces of the lens holder 220 and the magnet 240 to protect the lens holder 200 and the magnet 240 and to contact the magnet 240. .

In this case, the cover 100 is made of a magnetic material and is easily attached even without a separate fixing means by the magnetic force of the magnet 240.

Of course, the magnetic material here means a ferromagnetic material containing iron.

The cover 100 serves as a back yoke in contact with an outer surface of the magnet 240 to induce a magnetic field of the magnet 240 to be collected in the direction of the lens holder 220, that is, the coil member 230. .

In addition, the cover 100 has a fixing groove 130 in which the fixing protrusion 211 of the base 210 is inserted into the bottom side is fixed to the top of the base 210 is mounted.

Therefore, the cover 100 supports the magnet 240 mounted on the inner surface of the cover 100 to be positioned on the side of the lens holder 220.

As described above, the compact camera module equipped with the cover 100 for the compact camera module of the present invention may be formed of a magnetic material to cover the lens holder 220 and the side surfaces of the magnet 240. The magnet 240 is supported to be disposed adjacent to the outer surface of the lens holder 220, and the magnetic field of the magnet 240 is brought into contact with the magnet 240 in the direction of the coil member 230, thereby providing the lens. The function of protecting the holder 220 and the magnet 240, the function of the support holder for holding the magnet 240 to be disposed on the outer surface of the lens holder 220 and the magnetic field circulation of the magnet 240 Integrating the function of the inducing back yoke into the cover 100 has the effect of reducing the overall number of parts and size.

Next, a method of manufacturing the cover 100 for a small camera module according to the present invention will be described.

8 is a manufacturing process diagram briefly showing a method for manufacturing a cover for a small camera module according to the present invention.

The manufacturing procedure of the cover for a small camera module according to the present invention comprises a cutting step (S1), a bending step (S2) and a cocking step (S3).

In the cutting step (S1) as shown in Figure 8 (a) is cut a plate made of a magnetic material in the cover 100 is deployed.

In this case, the coupling protrusion 110 and the coupling groove 120 are formed at both ends of the plate, respectively, and the fixing groove 130 is formed at the bottom thereof.

In the bending step S2, the plate cut by the cutting step S1 is bent in a hollow shape so that the coupling protrusion 110 is inserted into the coupling groove 120.

That is, as shown in Figure 8 (b) after bending both ends of the plate formed with the coupling groove 120 and the coupling projection 110 90 degrees toward the center of the plate, shown in Figure 8 (c) As described above, each of both ends of the plate is bent again 90 degrees in the center direction of the plate on the basis of a point spaced apart a predetermined distance in the center direction of the plate.

At this time, the coupling groove 120 and the coupling protrusion 110 are coupled while overlapping each other.

Thereafter, as shown in FIG. 8 (d), the coupling groove 120 and the coupling protrusion 110 are compressed up and down by the cocking process S3.

The cocking fixing S3 inserts the cover 100 into the base jig 10 and then strongly presses the punch 20 with the coupling groove 120 and the coupling protrusion 110. It's a forced combination.

As described above, when the camera module cover 100 is manufactured, the coupling protrusion 110 and the coupling groove 120 coupled to each other by the bending process S2 are fixed up and down through the cocking process S3. As the coupling protrusion 110 and the coupling groove 120 extend in the lateral direction, there is an effect of strengthening the coupling force of the coupling protrusion 110 and the coupling groove 120.

Cover for the small camera module of the present invention, a method for manufacturing the same, and a small camera module equipped with the same are not limited to the above-described embodiments, and may be variously modified and implemented within the scope of the technical idea of the present invention.

1 is a perspective view of a conventional small camera module,

2 is an exploded perspective view of a conventional small camera module,

3 is a perspective view of a cover for a small camera module according to the present invention;

4 is an exploded view of a cover for a small camera module according to the present invention;

5 is a perspective view of a compact camera module equipped with a cover for a small camera module according to the present invention;

6 is an exploded perspective view of a small camera module equipped with a cover for a small camera module according to the present invention;

7 is a cross-sectional view of a small camera module equipped with a cover for a small camera module according to the present invention as seen from A-A of FIG.

8 is a manufacturing process diagram briefly showing a method for manufacturing a cover for a small camera module according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: cover, 110: engaging projection,

120: coupling groove, 130: fixing groove,

210: base, 220: lens holder,

230: coil member, 240: magnet,

Claims (7)

In the cover for a small camera module, The cover is formed of a plate made of a magnetic material bent to open up and down while covering the side of the camera module, A coupling groove is formed at one end of the cover, and a coupling protrusion inserted into the coupling groove is formed at the other end to surround the side of the camera module to be coupled to each other. The coupling groove is formed in the inner width is wider than the outer width, the coupling projection cover for a small camera module, characterized in that the inner width is formed narrower than the outer width. delete A base disposed above the image sensor; A lens holder including a lens therein and mounted to be moved upward and downward on an upper portion of the base; A coil member mounted to a side of the lens holder to move the lens holder up and down by electromagnetic force when power is applied; A magnet disposed adjacent to the coil member; A cover bent to surround side surfaces of the lens holder and the magnet; , &Lt; / RTI &gt; The cover is formed of a magnetic plate material and is bent to surround the lens holder and the magnet, A coupling groove is formed at one end of the cover, and a coupling protrusion inserted into the coupling groove is formed at the other end to protrude from each other. The coupling groove is formed in the inner width is wider than the outer width, the coupling projection is a small camera module, characterized in that the inner width is formed narrower than the outer width. delete delete In the manufacturing method of the cover for a small camera module, The cover is bent to surround the side of the camera module, one end and the other end of the cover is formed to be coupled to each other, A cutting step of cutting the coupling grooves and the coupling protrusions at both ends of the plate member formed of the magnetic material; A bending process of bending the plate cut by the cutting process into a hollow shape such that the coupling protrusion is inserted into the coupling groove; A cocking step of pressing the coupling groove and the coupling protrusion coupled to each other by the bending process; Method of manufacturing a cover for a camera module comprising a. delete

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