KR101788322B1 - Camera module - Google Patents

Abstract

The present invention relates to a camera module having a structure in which a spring can be fixed as a simple structure in a space between a housing and a shield cover. The camera module includes a shield cover forming an outer surface, a space accommodated in the inner circumference of the shield cover, A moving part arranged to be movable in an inner space of the housing, a horizontal supporting part supported on the outer circumferential side of the housing, an elastic part elastically supporting the movement of the moving part on the inner circumferential side, And a spring formed of a side support portion bent in a vertical direction, and an outer surface of the side support portion is supported on an inner wall of the shield cover. Therefore, there is an advantage that the side support portion can be firmly engaged while ensuring a working space of the spring as a simple structure.

Description

Camera module {CAMERA MODULE}

The present invention relates to a camera module, and more particularly, to a camera module having a structure in which a spring can be fixed as a simple structure in a space between a housing and a shield cover.

Generally, a digital camera module takes an image by using an image sensor such as a CCD or CMOS instead of a film.

A camera module using an image sensor is used in various fields such as a mobile device capable of taking pictures because of its small volume and excellent performance, a monitor camera, and a surveillance camera mounted on a car.

In particular, camera modules used in mobile devices are becoming increasingly multifunctional, smaller, and lighter.

A camera module used in a recent mobile device basically has functions such as auto focusing and optical image stabilization. In order to reduce the size of a lens and improve optical performance, a camera module The devices must also meet the demand for miniaturization.

A driving device such as a voice coil motor is used for the autofocus function, and a function of automatically focusing is performed by moving a lens or a sensor in a vertical direction within a predetermined space. In addition, a device for vibrating or moving the lens or the sensor in a predetermined direction is provided for shake correction.

In such a camera module, a spring is used to provide a restoring force during the movement of the lens.

1 is a side sectional view showing a state in which a spring of a camera module is disposed.

The camera module includes a base 100 disposed at a bottom portion thereof, a housing 110 disposed at an upper side of the base, a moving portion 200 for moving inside the housing 110 and accommodating a lens (not shown) And a shield cover 120 that forms an outer appearance.

The moving part 200 moves by the electromagnetic interaction between the magnet 111 and the coil 112 and the upper part and / or the lower part of the moving part 200 is elastically supported by a spring.

The spring is generally divided into an upper spring 140 and a lower spring 130 that support the upper and lower sides of the moving part 200, respectively, and are formed into a cut and bent plate shape.

The outer circumferential side of the upper spring 140 is supported on the upper end side of the housing 110 on the lower surface and supports the upper end portion of the moving part 200 on the inner circumferential side.

Since the upper spring 140 is fixed to the housing 130 to provide an elastic restoring force against the relative movement of the moving part 200, it is preferable that the coupling at the support part on the outer circumferential side is rigid.

Therefore, a spacer 150 is interposed between the upper surface of the upper spring 140 and the upper end of the shield cover 120.

The spacer 150 can securely support the outer circumferential side of the upper spring 140 at the upper and lower surfaces and form a space for securing the inner circumferential working space where the moving part 200 is supported .

However, since a separate member is formed for disposing the spacer 150 and the coupling is further required after the upper spring 140 is coupled, there is a problem that economical efficiency and production efficiency are lowered.

In addition, the demand for miniaturization and lightening of the camera module used in the mobile device necessitates simplification of cost reduction light structure.

Accordingly, it is an object of the present invention to provide a camera module having a structure that can effectively support and operate a spring while removing spacers.

A camera module according to the present invention includes a shield cover forming an outer surface, a housing accommodated in an inner circumferential side of the shield cover and having a space formed in a central portion thereof, a lens coupled to the center portion, And a spring including a horizontal support portion supported on the housing at the outer peripheral side, an elastic portion elastically supporting the movement of the movable portion on the inner peripheral side, and a side support portion bent in the vertical direction at the rim, The camera module is supported on the inner wall of the shield cover. Therefore, there is an advantage that the side support portion can be firmly engaged while ensuring a working space of the spring as a simple structure.

The camera module according to the present invention is characterized in that the spring has a bottom supported by a horizontal support portion at an upper end of the housing and an upper end of the side support portion is supported at a lower side of the shield cover. Therefore, the upper, lower and outer surfaces of the spring can be firmly supported by the shield cover and the housing.

In addition, the camera module according to the present invention provides a camera module in which the upper end of the side support portion is folded once again to the inner circumferential side so that the outer peripheral side end face is formed in a 'C' shape. Therefore, the binding force of the support portion of the spring is further strengthened.

Further, the camera module according to the present invention provides the camera module in which the spring is made of a single plate material. Therefore, since both the elastic portion horizontal support portion and the side support portion are formed by bending and cutting a single plate, it is structurally simple and ensures operational reliability.

In the camera module according to the present invention, the spring is coupled to the shield cover by bonding or spot welding. Therefore, the binding force of the support portion of the spring is further strengthened.

The camera module according to the present invention configured as described above can be firmly coupled with a simple structure by securing the operating space of the spring as a simple structure by the side support portion so that the material can be saved and the production process can be further simplified, There is an effect to be improved.

1 is a front sectional view of a general camera module.
2 is a plan view and side view of a spring of a camera module according to the present invention;
3 is a front sectional view of a camera module according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a camera module according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing a spring according to the present invention, wherein a left side view is a plan view of a spring and a right side view shows a right side view.

The spring is described as an upper spring (140 in FIG. 2) supporting the upper end of the moving part (200 in FIG. 2), but it should be noted that the upper spring to be described below may be applied to the lower spring (130 in FIG. 2) .

The upper spring 140 is formed in a single plate shape that is bent and cut along the plane.

Further, the inner circumferential portion of the upper spring 140 is formed with a circular opening to support the moving portion (200 in Fig. 2).

Preferably, the outer circumferential side of the upper spring 140 is supported by the upper end of the housing, and the outer circumferential side of the upper spring 140 coincides with the outer circumferential shape of the housing such that the outer circumferential side thereof is in close contact with the inner circumferential surface of the shield cover 120 (see FIG. Although the outer shape of the upper spring 140 is rectangular in FIG. 2, it may be formed in various shapes depending on the shape of the housing and the shield cover.

Accordingly, the upper spring 140 is supported on the upper end side of the housing on the outer circumferential side, and elastically supports the movement of the movable portion while supporting the outer circumferential upper end of the movable portion (200 in Fig.

The upper spring 140 is mounted on the outer circumferential side of the upper spring 140 when the housing receives the moving part in the inner space and the upper spring 140 is disposed on the upper side. 1 in Fig. 1) is arranged as described above.

The outer side of the upper spring 140 is bent in the vertical direction so as to replace the upper spacer according to the concept of the present invention. More specifically, the upper spring 140 has the side supporting portion 141 bent upward from the rim I have.

More specifically, the upper spring 140 shown in FIG. 2 includes an elastic portion 143 elastically deformed so as to support the movable portion on the inner circumference side, a horizontal support portion 142 on the outer circumference side supported by the upper end portion of the housing, And a side support portion 141 that is bent upward at an end of the support portion 142, that is, a rim.

2) is supported by the inner wall surface of the shield cover (120 in FIG. 2), and the upper end of the side support portion 141 is supported by the shield cover (120 in Fig. 2).

On the other hand, the upper spring 140 is bent once from the outer circumferential side to form a side support portion 141 of 'B' shape. The upper side spring 140 is bent once again at the upper end side of the side support portion 141, Of course.

According to this concept, the outer surface of the side support portion 141 is supported on the inner wall of the shield cover, and the upper surface of the once bent portion can be supported on the lower surface of the shield cover.

According to the concept that the upper spring 140 is vertically bent at the rim as described above, the outer circumferential side of the upper spring 140 has a predetermined thickness by the side support 141, and the upper spacer described in the prior art is omitted .

3 is a front sectional view showing a camera module in which the upper spring 140 is disposed according to the concept of the present invention.

The camera module includes a base 100, a lower spring 130, a housing (not shown), and an upper spring 140. The inner side of the lower spring 130 and the upper spring 140 are connected to a moving part 200 at the upper and lower ends thereof.

The moving part 200 has a substantially cylindrical inner peripheral surface, and fixes the lens to the center part. The lens is preferably a kind of barrel, and comprises a lens portion (210 in Fig. 3) having a plurality of lenses arranged in the axial direction and having a cylindrical shape, and the lens portion is inserted into the inner circumference of the moving portion 200 Lt; / RTI >

The fixing portion includes a housing 110 in which the moving unit 200 is spaced apart from the inner circumferential surface by a predetermined distance, and a base 100 coupled with the lower side of the housing.

A balloon (not shown), which is a buffer member for suppressing noise and vibration, acts as a buffer when the moving unit 200 is adjacent to the base 100, an IR filter (not shown) for increasing the resolution of the sensor, An image sensor (not shown) for converting an optical signal into an electrical signal and a PCB (not shown) for inputting and outputting a control signal may be combined.

The moving unit 200 is disposed in a hollow inner space of the housing 110 and focuses the sensed image while moving in the vertical direction and moves in a horizontal direction with respect to the center axis of the lens, And to compensate for the shaking by changing the direction of the road.

Therefore, in order to control the movement in the width direction and the height direction as described above, a driving unit that generates a mechanical force by electromagnetic interaction is provided.

The driving unit includes a magnet 111 and a plurality of coils 112 corresponding to the magnet 111. A coil and a magnet are disposed in the housing 110 and the moving part 200 for electromagnetic interaction with the driving part. Although the coil 112 is disposed in the housing and the magnet 111 is disposed in the moving part 200 in the figure, it is needless to say that the coil 111 and the magnet 111 may be disposed in different positions.

The upper side spring 140 has a predetermined thickness when viewed from the front side and the side surface because the upper side spring 140 has the side supporting part 141 bent upward to the outer side and the outer surface of the side supporting part 141 is covered with the shield cover 120 As shown in Fig.

The upper end of the side support 141 is supported on the upper side of the shield cover 120 and the upper side of the bent portion is bent once again from the upper end to the inner side of the side support 141, It may be supported on the upper surface.

Since the outer periphery of the upper spring 140 is supported by the housing at the horizontal support portion 142 and is supported by the shield cover 120 at the side support portion 141 as described above, But also has an advantage that it can be firmly supported by a simple structure.

On the other hand, a portion where the outer surface of the side support portion 141 and the inner wall of the shield cover 120 are in contact with each other can be strengthened by bonding or welding. The welding is preferably performed by spot welding.

In the drawings of the present invention, only the upper spring is shown bent from the outer side to the upper side so that the side support can be formed. However, it is needless to say that the side spring may also be formed on the lower spring.

The upper spring and the lower spring are formed of a single plate. However, it is needless to say that the upper spring and the lower spring may be formed of a plurality of members, respectively. It should be noted that the present invention may be variously carried out.

In the foregoing, the present invention has been described in detail based on the embodiments and the accompanying drawings. However, the scope of the present invention is not limited by the above embodiments and drawings, and the scope of the present invention will be limited only by the content of the following claims.

100 ... base 111 ... magnet
112 ... coil 120 ... shield cover
130 ... lower spring 140 ... upper spring
141 ... side support portion 142 ... horizontal support portion
143 ... elastic part 200 ... moving part

Claims (8)

A shield cover including a top plate and a wall extending downward from the top plate;
A housing disposed inside the shield cover;
A moving part disposed inside the housing;
A coil disposed on an outer surface of the moving portion;
A magnet disposed in the housing in correspondence with the coil; And
And an upper spring disposed on the inside of the shield cover and provided on the upper side of the moving section and coupled to the moving section and the housing,
The upper-
An elastic part disposed in the moving part;
A first support portion located on the outer side of the elastic portion and disposed on the upper portion of the housing; And
And a second support portion extending upward from the first support portion and having an outer side surface contacting the inner side surface of the wall and engaging with the shield cover.
The method according to claim 1,
And the upper end of the second support portion contacts the inner surface of the upper plate.
The method according to claim 1,
Wherein the second support portion extends upwardly from the first support portion to secure the elastic operation space of the upper spring by supporting the shield cover.
The method according to claim 1,
Wherein the upper spring further includes a third support portion extending inward from an upper end of the second support portion, and an upper surface of the third support portion contacts an inner surface of the upper plate.
5. The method of claim 4,
And the third support portion is bent and extended inward from the upper end of the second support portion.
The method according to claim 1,
And a contact portion between the second support portion and the wall is joined by bonding or spot welding.
The method according to claim 1,
And the second support portion is located at a rim of the upper spring and is bent vertically.
A lens portion;
An image sensor for converting an optical signal; And
And a voice coil motor coupled to the lens unit,
The voice coil motor includes:
A shield cover including a top plate and a wall extending downward from the top plate;
A housing disposed inside the shield cover;
A moving part disposed inside the housing;
A coil disposed on an outer surface of the moving portion;
A magnet disposed in the housing in correspondence with the coil; And
And an upper spring disposed on the inside of the shield cover and provided on the upper side of the moving section and coupled to the moving section and the housing,
The upper-
An elastic part disposed in the moving part;
A first support portion located on the outer side of the elastic portion and disposed on the upper portion of the housing; And
And a second support portion extending upward from the first support portion and having an outer surface in contact with an inner surface of the wall and engaging with the shield cover,
And the lens unit is coupled to the moving unit.

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