KR20210125458A - Camera module - Google Patents

Abstract

The present invention relates to a camera module, which comprises: a lens module including a lens; an image sensor for converting light passing through the lens module into an electrical signal; a printed circuit board having the image sensor mounted thereon; a base having the printed circuit board disposed at a lower side thereof; a bobbin disposed at an upper side of the base, accommodating the lens module, and having a coil wound around the outside thereof; a magnet for vertically moving the bobbin by electromagnetic interaction with the coil; and a housing formed in a hollow prism having open upper and lower portions, accommodating the bobbin to be vertically moved therein, and including a plate-shaped rib extending in a diagonal direction from one side to the adjacent other side inside an edge. The housing is formed with a magnet accommodating unit for accommodating the magnet at a lower side of the rib, and a lower surface of the rib is in contact with an upper surface of the magnet to support the magnet. Also, the rib is formed inside the edge of the housing and the magnet accommodating unit is formed therein, such that the magnet is stably mounted on the housing by the rib and the magnet accommodating unit.

Description

Camera Module {CAMERA MODULE}

The present invention relates to a camera module, and more particularly, to a camera module used in a mobile device or the like.

In general, automatic focus adjustment of the camera module can be implemented through lens control using a voice coil motor. A camera module having a voice coil motor controls the focus of an image incident on the image module by performing an operation of reciprocating the bobbin with respect to an image sensor according to an interaction between a coil wound on the outside of the bobbin and a magnet.

The camera module has a high probability of detaching the magnet from the housing when there is an external shock such as a drop, and even if the magnet and the housing are adhered by applying adhesive, the distribution of the adhesive is not uniform and the adhesive is applied only to the local part of the magnet and the housing. Therefore, it is still separated by an external shock, and defects can occur frequently.

Patent Document 1: Patent Publication No. 10-2012-0008701 (2012.02.01.) Patent Document 2: Korean Patent Publication No. 10-2008-0105396 (2008.12.04.) Patent Document 3: Japanese Patent Publication No. 4315182 (2009.08.19.) Patent Document 4: US Patent Application Publication No. US2014/0009631 (2014.01.09.)

SUMMARY OF THE INVENTION The present invention is to solve the conventional problems as described above, and an object of the present invention is to provide a camera module capable of stably mounting a magnet to a housing.

Another object of the present invention is to provide a camera module that prevents the detachment of a magnet, even if the camera receives an external shock such as a drop.

In order to achieve the object of the present invention as described above, a camera module according to the present invention includes a lens module including a lens, an image sensor that converts light passing through the lens module into an electrical signal, and the image sensor A mounted printed circuit board, a base on which the printed circuit board is disposed below, a bobbin disposed above the base, accommodating the lens module, and having an AF coil wound thereon, and the AF coil and electromagnetic A magnet for moving the bobbin up and down by interaction, and a hollow prism with upper and lower openings, and accommodating the bobbin so as to be movable up and down inside, from one side to the other side adjacent to the inside of the corner and a housing including a plate-shaped rib extending in a diagonal direction, wherein the housing has a magnet receiving portion accommodating the magnet is formed below the rib, and the lower surface of the rib and the upper surface of the magnet are attached to each other to support the magnet can do.

In the camera module according to the present invention, a first adhesive groove facing the upper surface of the magnet and receiving an adhesive may be formed on the lower surface of the rib of the housing.

In the camera module according to the present invention, a portion of the first adhesive groove may be extended to both sides in the longitudinal direction to accommodate the overflowing adhesive while the rib lower surface and the magnet are adhered.

In the camera module according to the present invention, a second adhesive groove facing the upper surface of the magnet and receiving an adhesive may be further formed on the lower surface of the rib of the housing.

In the camera module according to the present invention, the housing may further include an OIS spring for elastically supporting the base with respect to the outside.

In the camera module according to the present invention, an OIS coil may be further included between the bobbin and the base.

In the camera module according to the present invention, a wiring board may be further included between the bobbin and the base.

In the camera module according to the present invention, the magnets may be disposed at equal intervals to neighboring magnets.

In the camera module according to the present invention, a first elastic member may be further included between the housing and the base.

In the camera module according to the present invention, a cover can covering the housing and the base may be further included.

In the camera module according to the present invention, a second elastic member may be further included between the housing and the cover can.

In the camera module according to the present invention, a reinforcing adhesive groove may be formed on the lower surface of the rib for receiving an adhesive for bonding the upper surface of the magnet.

In the camera module according to the present invention, the reinforcing adhesive groove may extend toward the bobbin and open to the side of the rib.

In the camera module according to the present invention, the reinforcing adhesive groove forms a channel on the lower surface of the rib, but extends from the channel and may be opened to a side surface of the rib.

In the camera module according to the present invention, the adhesive accommodated in the first adhesive groove, the second adhesive groove, and the reinforcing adhesive groove may be an epoxy adhesive.

According to the present invention, by forming ribs on the inside edge of the housing and forming a magnet accommodating part, the magnet is stably mounted to the housing by the ribs and the magnet accommodating part.

In addition, a second adhesive groove or a reinforcing adhesive groove is formed on the lower surface of the rib of the housing along with the first adhesive groove for accommodating the adhesive, the adhesive is filled and the magnet is attached to the lower surface of the rib to strengthen the adhesive force, and the camera Even when subjected to an impact, separation of the magnet disposed in the housing is prevented, thereby facilitating assembly of the camera module and enhancing the stability of the camera in operation.

And by press-fitting the adhesive into one opening of the reinforcing adhesive groove formed on the side of the rib, the amount of the adhesive pressed through the other opening can be visually checked, so that the adhesive can be prevented from overflowing from the adhesive groove and flowing into the camera module. The failure rate of operation is also reduced.

1 is an exploded perspective view of a first embodiment according to the present invention;
Figure 2 is a bottom perspective view showing a state in which a second adhesive groove is formed in the form showing the arrangement of the magnet and the housing of the first embodiment according to the present invention.
3 (a) and 3 (b) are bottom perspective views showing the first adhesive groove and the second adhesive groove on the rib in the first embodiment according to the present invention.
4 (a) and 4 (b) are bottom perspective views showing a first adhesive groove and a channel-shaped second adhesive groove on the rib in the second embodiment according to the present invention.
5 (a) to 5 (d) are bottom perspective views showing a first adhesive groove on the rib and a reinforcing adhesive groove opened toward the bobbin in the third embodiment according to the present invention.
6 (a) to 6 (c) is a bottom perspective view showing the first adhesive groove in the rib and the reinforcing adhesive groove in the form of a channel opened toward the bobbin in the fourth embodiment according to the present invention.
7(a) to 7(c) are bottom perspective views showing a first adhesive groove in a rib and a reinforcing adhesive groove in which both ends of the channel are opened toward the bobbin in the fifth embodiment according to the present invention.
Figure 8 is a bottom perspective view showing the state in which the rib and the magnet of Figures 5 (a) to 7 (c) of the present invention are adhered.

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

Referring to FIG. 1 , the camera module according to the present embodiment includes a base 100 , a bobbin 200 on which an AF coil 210 is wound, a magnet 300 , and a housing 400 .

The bobbin 200 may have a columnar shape with open top and bottom, and a hollow columnar shape is formed. The hollow formed in the bobbin 200 accommodates a lens module (not shown) that is composed of one or more lenses and through which light passes, and the lens module is vertically movable with respect to the bobbin 200 .

The AF coil (Auto Focusing Coil) 210 is wound on the outside of the bobbin 200 .

The magnet 300 may face the AF coil 210 wound on the outside of the bobbin 200 and may be disposed in plurality. And the distance between the magnets 300 adjacent to each other are arranged at equal intervals. When a current flows in the AF coil 210 , a magnetic field is formed in the AF coil 210 , and the magnet 300 raises and lowers the bobbin 200 up and down through electromagnetic interaction with the AF coil 210 .

The housing 400 surrounds the bobbin 200 from the outside of the bobbin 200 . The housing 400 is hollow and has upper and lower openings. The housing 400 is provided with a magnet accommodating part 420 on the inside of the edge, the magnet 300 is accommodated.

The first elastic member 440 is disposed below the housing 400 in the shape of a leaf spring. The first elastic member 440 has a hole through which light passes through the lens module. The upper surface around the hole of the first elastic member 440 comes into contact with the lower side of the bobbin 200 to elastically support the bobbin 200 from the housing 400 .

The OIS coil (Optical Image Stabilization Coil) 220 is disposed below the first elastic member 440 . The OIS coil 220 is formed in a plate body and a hole through which light passes through the lens module is formed. A first elastic member 440 is disposed between the OIS coil 220 and the housing 400 . The OIS coil 220 faces the lower surface of the magnet 300 accommodated in the housing 400 with the through hole formed in the first elastic member 440 interposed therebetween. The OIS coil 220 performs a function of correcting a user's hand shake by horizontally moving the bobbin 200 and the housing 400 on which the lens module is mounted with respect to an image sensor to be described later. That is, when a current flows in the OIS coil 220 , a magnetic field is formed in the OIS coil 220 , and the housing 400 and the bobbin 200 accommodated in the housing 400 are horizontally interacted with the magnet 300 . move to

The OIS spring (Optical Image Stabilization Spring) 430 is disposed on the side of the housing 400 . The OIS spring 430 elastically supports the housing 400 with respect to the base 100 to be described later. The OIS spring 430 performs a function of returning the bobbin 200 and the housing 400 moved in the horizontal direction with respect to the image sensor to be described later by the magnetic field of the OIS coil 220 and the magnet 300 .

The wiring board 120 is disposed below the OIS coil 220 . The wiring board 120 has a hole through which light passes through the lens module. The wiring board 120 may be formed of a flexible printed circuit board (FPCB). The wiring board 120 transmits the current supplied through the terminal formed on one side to the OIS coil 220 or the OIS spring 430, and the current transmitted to the OIS spring 430 uses a second elastic member 450 to be described later. It is supplied to the AF coil 210 through the AF coil 210 or the OIS coil 220 is formed with a magnetic field.

The base 100 has a pillar 110 formed at each corner, the housing 400 is disposed inside the pillar, and the base 100 is moved through the first elastic member 440 to move the housing 400 . support and support Since the housing 400 supported by the base 100 has a gap with the pillar 100, it is possible to move horizontally by the spaced distance. A hole through which light passing through the lens module can pass is formed in the base 100 . The OIS coil 220 , the first elastic member 440 , and the wiring board 120 are disposed between the base 100 and the housing 400 .

Although not shown in the drawings, a printed circuit board may be disposed below the base 100 . An image sensor that converts light passing through the lens module into an electrical signal is mounted near the upper center of the printed circuit board. Components for operating the image sensor may be disposed on the printed circuit board, or a plurality of terminal units capable of supplying power and outputting information of the image sensor may be provided. In addition, an infrared cut filter for filtering infrared light before the light passing through the lens module reaches the image sensor may be installed in the base 100 .

The second elastic member 450 is disposed above the housing 400 in the shape of a leaf spring. The second elastic member 450 has a hole through which light passes through the lens module. The lower surface of the second elastic member 450 formed with a spring around the hole comes into contact with the upper side of the bobbin 200 to elastically support the bobbin 200 with respect to the housing 400 .

Since the first and second elastic members 440 and 450 elastically support the bobbin 200 that is lifted up and down by the magnet 300 , the bobbin 200 can be returned to its original state.

The cover can 500 covers the above-mentioned components. A hole is formed in the cover can 500 to allow light to pass through the lens module.

2 shows the arrangement of the magnet 300 and the housing 400 . Referring to FIG. 2 , the housing 400 is formed as a hollow prism having an upper portion and a lower portion opened. The housing 400 accommodates the bobbin 200 in an inner hollow so as to be movable up and down. The housing 400 includes a plate-shaped rib 410 extending in a diagonal direction from one side to the other adjacent side inside the corner.

2 to 8 , the rib 410 may be formed at the upper end or lower end of the housing 400 , or between the upper end and the lower end. A magnet accommodating part 420 for accommodating the magnet 300 is formed inside the edge of the housing 400 by the rib 410 . Hereinafter, the rib 410 is formed between the upper end and the lower end of the housing 400, and the magnet receiving portion 420 is formed in the space below the rib 410, but the present invention is not limited thereto. does not When the magnet accommodating part 420 is formed on the lower side of the rib 410 and the magnet 300 is accommodated, the lower surface of the rib 410 is in contact with the upper surface of the magnet 300 , and the rib 410 is the magnet 300 . support If an impact occurs on the camera module due to an external force such as a drop, the magnet 300 is separated from the magnet accommodating part 420, so to prevent this, the upper surface of the magnet 300 and the lower surface of the rib 410 Apply adhesive to

However, since it is not easy to prevent the magnet 300 from being separated from the magnet receiving part 420 when the adhesive 414 is applied locally, the camera module according to the present embodiment forms an adhesive groove to solve this problem. .

Referring to FIGS. 3A to 8 , a first adhesive groove 411 is formed on the lower surface of the rib 410 in order to strengthen the adhesion between the magnet 300 and the rib 410 . When an adhesive is applied to the lower surface of the rib 410 in direct contact with the magnet 300 , the magnet 300 and the rib 410 are bonded by an adhesive, and the overflowing adhesive is accommodated in the first adhesive groove 411 . On the other hand, it is also possible to adhere the upper surface of the magnet 300 and the lower surface of the rib 410 by applying an adhesive directly to the first adhesive groove 411 . In addition, although the first adhesive groove 411 is partially extended in the width direction to accommodate the overflowing adhesive while the lower surface of the rib 410 and the upper surface of the magnet 300 are adhered by an adhesive, it can be formed in a single (一) shape. have.

Referring to FIGS. 3A and 3B , the camera module according to the first embodiment of the present invention has a second adhesive groove 412 on the lower surface of the rib 410 in addition to the first adhesive groove 411 . It may be formed by further including one or a plurality of. The second adhesive groove 412 receives an adhesive 414 for bonding the upper surface of the magnet 300 and the lower surface of the rib 410, similarly to the first adhesive groove 411, to accommodate the rib 410 and the magnet 300. strengthen the adhesion of The second adhesive groove 412 may be formed on both sides of the first adhesive groove 411 as a center.

4(a) and 4(b), the camera module according to the second embodiment of the present invention has a channel-shaped product in addition to the first adhesive groove 411 on the lower surface of the rib 410. Two adhesive grooves 412 may be formed to further include one or more. The second adhesive groove 412 may be formed on both sides of the first adhesive groove 411 as a center. In addition, although not shown in the drawings, the channel shape of the second adhesive groove 412 may be curved, and the shape is not limited to any one.

5(a) to 5(h) and 8, the camera module according to the third embodiment of the present invention has a reinforcing adhesive groove 413 on the lower surface of the rib 410 in addition to the first adhesive groove 411. ) is formed one or a plurality of, the reinforcing adhesive groove 413 has one end toward the bobbin 200 and may be opened to the side of the rib 410 , and the reinforcing adhesive groove 413 is the first adhesive groove 411 . It is also possible to form across. Adhesive 414 is applied to the first adhesive groove 411 so that the rib 410 and the magnet 300 are adhered, and then the adhesive 414 is additionally injected through the opening of the reinforcing adhesive groove 413 to inject the rib 410 ) and the magnet 300, the adhesion is strengthened by reinforcing the adhesion.

Meanwhile, as shown in FIGS. 5(b), 5(d), 5(f), and 5(h), the first adhesive groove 411 concavely forms a step on the lower surface of the rib 410, and the first A reinforcing adhesive groove 413 may be formed in the adhesive groove 411 . When the first adhesive groove 411 is not filled with the adhesive while the upper surface of the magnet 300 and the lower surface of the rib 410 are adhered, the adhesive 414 is additionally injected through the opening of the reinforcing adhesive groove 413. , at this time, the adhesive 414 may overflow to fill the empty space of the first adhesive groove 411 .

6(a) to 6(f) and 8, the camera module according to the fourth embodiment of the present invention has a reinforcing adhesive groove 413 on the lower surface of the rib 410 in addition to the first adhesive groove 411. ) is formed in one or a plurality of reinforcing adhesive grooves 413 are formed in a channel shape, one side of each channel may be opened to the side of the rib (410). Adhesive 414 is applied to the first adhesive groove 411 so that the rib 410 and the magnet 300 are adhered, and then the adhesive 414 is additionally injected through the opening of the reinforcing adhesive groove 413 to inject the rib 410 ) and the magnet 300, the adhesion is strengthened by reinforcing the adhesion.

On the other hand, as shown in FIGS. 6(b), 6(d), and 6(f), the first adhesive groove 411 is concavely formed on the lower surface of the rib 410, and the first adhesive groove ( A reinforcing adhesive groove 413 may be formed in 411 . When the first adhesive groove 411 is not filled with the adhesive while the upper surface of the magnet 300 and the lower surface of the rib 410 are adhered, the adhesive 414 is additionally injected through the opening of the reinforcing adhesive groove 413. , at this time, the adhesive 414 may overflow to fill the empty space of the first adhesive groove 411 .

7(a) to 7(c) and 8, in the camera module according to the fifth embodiment of the present invention, both ends of the channel of the reinforcing adhesive groove 413 are opened to the side of the rib 410. It is also possible to form one or a plurality of reinforcing adhesive grooves 413 so that both ends of each channel are opened to the side surfaces of the ribs 410 . In addition, as shown in Figure 7 (b), the channel-shaped reinforcing adhesive groove 413 is opened to the side of the rib 410, it is also possible to form a plurality of the openings. Adhesive 414 is applied to the first adhesive groove 411 so that the rib 410 and the magnet 300 are adhered, and then the adhesive 414 is additionally injected through the opening of the reinforcing adhesive groove 413 to inject the rib 410 ) and the magnet 300 are reinforced to strengthen the adhesion. And when the adhesive 414 is injected into one opening of the reinforcing adhesive groove 413, the adhesive 414 fills the channel and the adhesive 414 can be visually confirmed through the other opening, so the adhesive injector is the adhesive 414. It is possible to inject by calculating the amount of

On the other hand, as shown in FIGS. 7(b), 7(d), and 7(f), the first adhesive groove 411 concavely forms a step on the lower surface of the rib 410, and the first adhesive groove ( A reinforcing adhesive groove 413 may be formed in 411 . When the first adhesive groove 411 is not filled with the adhesive while the upper surface of the magnet 300 and the lower surface of the rib 410 are adhered, the adhesive 414 is additionally injected through the opening of the reinforcing adhesive groove 413. , at this time, the adhesive 414 may overflow to fill the empty space of the first adhesive groove 411 .

What has been described above is merely an embodiment for implementing the camera module according to the present invention, and the present invention is not limited to the above embodiment, and the present invention is provided without departing from the gist of the present invention as claimed in the following claims. Anyone with ordinary knowledge in the technical field to which it belongs will say that the technical spirit of the present invention exists to the extent that it can be implemented with various modifications.

100: base 110: pillar
120: wiring board 200: bobbin
210: AF coil 220: OIS coil
300: magnet 400: housing
410: rib 411: first adhesive groove
412: second adhesive groove 413: reinforcement adhesive groove
414: adhesive 420: magnet receiving part
430: OIS spring 440: first elastic member
450: second elastic member 500: cover can

Claims (20)

Base;
a housing including a hole disposed on the base;
a bobbin disposed inside the housing;
a first coil disposed on the bobbin;
a magnet disposed on the housing and facing the first coil; and
and a substrate disposed on the base and including a second coil facing the magnet,
the housing includes a first sidewall, a second sidewall, and a rib disposed between the first sidewall and the second sidewall;
The magnet is disposed on the rib, the upper surface of the magnet faces the lower surface of the rib,
A first groove in which an adhesive is accommodated is formed in the lower surface of the rib;
A length of the first groove in a diagonal direction from the first sidewall to the second sidewall is shorter than a length of the lower surface of the rib in the diagonal direction. According to claim 1,
The first groove is opened in the direction of the hole of the housing. According to claim 1,
The first groove includes a plurality of grooves spaced apart from each other. 4. The method of claim 3,
and a second groove formed on the lower surface of the rib;
The second groove extends in the diagonal direction. 5. The method of claim 4,
A length of the second groove in the diagonal direction is longer than a length of the first groove in the diagonal direction. 5. The method of claim 4,
The first groove crosses the second groove. According to claim 1,
The first groove extends in a direction perpendicular to the diagonal direction. 4. The method of claim 3,
The plurality of grooves includes a first groove portion, a second groove portion, and a third groove portion disposed between the first groove portion and the second groove portion,
A lens driving device in which a length of the first groove and a length of the second groove are longer than a length of the third groove in a direction perpendicular to the diagonal direction. 9. The method of claim 8,
The first groove portion and the second groove portion cross the third groove portion. 5. The method of claim 4,
The second groove includes two circular grooves and a linear groove connected to the two circular grooves. 5. The method of claim 4,
The first groove is a lens driving device disposed in the second groove. 5. The method of claim 4,
The first groove is a lens driving device spaced apart from the second groove. 5. The method of claim 4,
A portion of the first groove is connected to a portion of the second groove. According to claim 1,
In a direction perpendicular to the diagonal direction, a length of the first groove is shorter than a length of the lower surface of the rib. 15. The method of claim 14,
The first groove forms a concave step in the lower surface of the rib. 16. The method of claim 15,
The magnet includes an outer surface disposed opposite to the inner surface of the magnet,
An upper surface, a first side, a second side, and the outer surface of the magnet are fixed to the housing. printed circuit board;
an image sensor disposed on the printed circuit board; and
A camera module comprising the lens driving device of any one of claims 1 to 16, which is disposed on the printed circuit board. main body;
The camera module of claim 17 disposed on the main body; and
and a display disposed on the main body and displaying a picture taken by the camera module. Base;
a housing including a hole disposed on the base;
a bobbin disposed inside the housing;
a first coil disposed on the bobbin;
a magnet disposed on the housing and facing the first coil; and
and a substrate disposed on the base and including a second coil facing the magnet,
the housing includes a first sidewall, a second sidewall, and a rib disposed between the first sidewall and the second sidewall;
The magnet is disposed on the rib, the upper surface of the magnet faces the lower surface of the rib,
A groove for accommodating an adhesive is formed on the lower surface of the rib;
The groove includes a first groove extending in a first direction and a second groove extending in a second direction perpendicular to the first direction. Base;
a housing including a hole disposed on the base;
a bobbin disposed inside the housing;
a first coil disposed on the bobbin;
a magnet disposed on the housing and facing the first coil; and
and a substrate disposed on the base and including a second coil facing the magnet.

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