KR20120092970A - Camera module - Google Patents

Abstract

PURPOSE: A camera module is provided to increase the productivity of a camera module and to securely secure an operation space of a spring in a simple structure by a side supporting unit. CONSTITUTION: A housing is accepted in an internal side of a shield cover. A lens is combined with a center part of a moving unit(200). The moving unit is arranged an internal side of the housing. A horizontal supporting unit(142) of a spring is supported to the housing. An elastic unit(143) of the spring elastically supports the movement of the moving unit. A side supporting unit(141) of the spring is bent in a vertical direction.

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 the spring can be fixed as a simple structure in the space between the housing and the shield cover.

In general, a digital camera module uses an image sensor such as a CCD or a CMOS to take an image instead of a film.

The camera module using the image sensor is used in various fields such as a mobile device capable of taking pictures due to its small size and excellent performance, a camera for a monitor or a surveillance camera mounted in an automobile.

In particular, camera modules used in mobile devices are becoming more versatile, smaller and lighter.

Recently, the camera module used in the mobile device is basically equipped with functions such as auto focusing or optical image stabilizing, and due to the miniaturization of the lens and the improvement of optical performance, Devices must also meet the demand for miniaturization.

A driving device such as a voice coil motor is used for the auto focus function, and performs a function of automatically focusing by moving a lens or a sensor in a vertical direction in a predetermined space. In addition, a device for vibrating or moving the lens or sensor in a predetermined direction is provided for the 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 cross-sectional view showing a state in which the spring of the camera module is disposed.

The camera module includes a base 100 disposed at a bottom, a housing 110 disposed on an upper side of the base, and a moving part 200 moving in an inner circumferential side of the housing 110 and accommodating a lens (not shown) therein. And a shield cover 120 forming an appearance.

The moving part 200 moves by the electromagnetic interaction between the magnet 111 and the coil 112, and the upper and / or lower side 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 supporting the upper side and the lower side of the moving part 200, and have 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 at the lower surface, and supports the upper end 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 with respect to the relative movement of the moving part 200, it is preferable that the coupling at the support portion on the outer circumferential side is made firm.

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

The spacer 150 serves to firmly support the outer circumferential side of the upper spring 140 at the upper and lower surfaces thereof, and to form a space to secure the working space at the inner circumferential side where the moving part 200 is supported. Will be

By the way, a separate member is manufactured for the arrangement of the spacer 150, the coupling process is required after the upper spring 140 is coupled, there is a problem that the economic efficiency and production efficiency is lowered.

In addition, the necessity of cost-saving light structural simplification is raised due to the request for miniaturization and lightening of the camera module utilized in the mobile device.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention to provide a camera module having a structure that can ensure the effective support and operation of the spring while removing the spacer.

The camera module according to the present invention includes a shield that forms an outer surface, a housing accommodated in an inner circumferential side of the shield cover and a space is formed in a center, and a lens is coupled to a center and disposed to be movable in an inner space of the housing. And a spring including a horizontal support part supported by the housing at the outer circumferential side, an elastic part elastically supporting the movement of the moving part at the inner circumferential side, and a side support part bent in a vertical direction at an edge thereof, and an outer surface of the side support part. The camera module is supported on the inner wall of the shield cover. Therefore, there is an advantage that can be firmly coupled while ensuring the operating space of the spring as a simple structure by the side support.

In addition, the camera module according to the present invention, the spring, the lower surface of the horizontal support portion is supported at the upper end of the housing, the upper surface of the shield cover provides a camera module is supported the upper end of the side support. Thus, 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, the spring, the upper end of the side support portion is bent once again to the inner circumferential side to provide a camera module consisting of a 'c' shape of the outer circumferential side. Thus, the coupling force of the supporting portion of the spring is further strengthened.

In addition, the camera module according to the present invention, the spring provides a camera module consisting of a single plate. Therefore, since both the horizontal portion and the side portion of the elastic portion are formed by bending and cutting a single sheet, structurally simple and operation reliability is ensured.

In addition, the camera module according to the present invention, the spring, the side support portion provides a camera module coupled to the shield cover by bonding or spot welding. Thus, the coupling force of the supporting portion of the spring is further strengthened.

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

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

Hereinafter, with reference to the accompanying drawings will be described in detail a camera module in a preferred embodiment of the present invention.

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

Although the spring is described as an upper spring (140 in FIG. 2) supporting the upper end of the moving part (200 in FIG. 2), 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 has a single plate shape that is bent and cut along.

In addition, a circular opening is formed in the inner circumferential portion of the upper spring 140 to support the moving part (200 of FIG. 2).

The outer circumferential side lower surface of the upper spring 140 is supported by the upper end of the housing, and the housing and the outer circumferential shape thereof are preferably matched such that the outer circumferential side is in close contact with the inner circumferential surface of the shield cover (120 of FIG. 2). However, although the outer circumferential shape of the upper spring 140 is made in a square shape in FIG. 2, it may be made in various shapes according to the shape of the housing and the shield cover.

Therefore, 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 moving part while supporting the outer circumferential side upper end of the movable part (200 in FIG. 2) on the inner circumferential side.

In the prior art, the assembly process of the upper spring 140, when the housing accommodates the moving portion in the inner space and the upper spring 140 is disposed on the upper side, the upper spacer (upper) on the upper side of the outer peripheral side of the upper spring 140 ( 150 is arranged as described above.

According to the concept of the present invention, the outer circumferential side of the upper spring 140 is bent in the vertical direction so as to replace the upper spacer, and more specifically, the upper spring 140 has the side support part 141 bent upward from the rim. To have.

Looking at the upper spring 140 shown in Figure 2 in more detail, the elastic portion 143 is elastically deformed to support the moving portion on the inner circumferential side, the horizontal support portion 142 and the horizontal support portion on the outer peripheral side supported by the upper end of the housing End portion 142, that is, the side support portion 141 bent upward from the rim.

The lower surface of the horizontal support portion 142 is supported on the upper surface of the housing, the outer surface of the side support portion 141 is supported on the inner wall surface of the shield cover (120 of FIG. 2), the upper end of the side support portion 141 is a shield cover ( It is supported by the upper lower surface of 120 of FIG.

On the other hand, the upper spring 140 is bent once at the outer circumference side to form a 'b' shaped side support 141, which is bent once again at the upper end side of the side support 141 'c' shaped Of course it can also be achieved.

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

According to the concept that the upper spring 140 is bent vertically 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. Can be.

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 has a base 100, a lower spring 130, a housing (not shown), and an upper spring 140 disposed from the lower side, and the inner circumferential sides of the lower spring 130 and the upper spring 140 are respectively moved parts ( The upper and lower ends of the 200 are elastically supported.

The moving part 200 has an inner circumferential surface having a substantially cylindrical shape, and fixes the lens at the center thereof. The lens is preferably a kind of barrel, and a plurality of central parts of the lens are arranged in the axial direction and formed of a lens part (210 of FIG. 3) formed in a cylindrical shape, and the lens part is inserted into the inner circumference of the moving part 200. Combined in such a way.

The fixing part includes a housing 110 in which the moving part 200 is disposed at predetermined intervals on an inner circumferential surface thereof, and a base 100 coupled to the lower side of the housing.

The base 100 is a buffer member for suppressing noise and vibration by acting as a buffer when the moving part 200 is adjacent, an IR filter (not shown) to increase the resolution of the sensor, An image sensor (not shown) for converting an optical signal into an electrical signal and a PCB (not shown) through which a control signal is input and output may be combined.

The moving part 200 is disposed in the hollow inner space of the housing 110 to focus the sensed image while moving in the vertical direction, and moves in a horizontal direction with respect to the central axis of the lens while moving in accordance with the entire device. By changing the furnace, it plays a role of compensating for shaking.

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

The driving unit includes a magnet 111 and a plurality of coils 112 corresponding to the magnet 111. Coils and magnets are disposed in the housing 110 and the moving part 200 for electromagnetic interaction by the driving part. In the drawing, although the coil 112 is disposed in the housing and the magnet 111 is disposed in the moving part 200, it is a matter of course that the position of the coil 112 may be changed.

As described above, the upper spring 140 has a side support portion 141 bent upward to the outer circumferential side to have a predetermined thickness when viewed from the front and side, and the outer surface of the side support portion 141 is shielded cover 120 It is in close contact with the inner wall of).

In addition, the upper end of the side support portion 141 is supported on the upper lower surface of the shield cover 120, the upper surface of the bent portion is bent once again to the inner circumferential side from the upper end of the side support portion 141 of the shield cover 120 It may be supported on the upper lower surface as described above.

As described above, since the outer circumferential side of the upper spring 140 is supported by the housing in the horizontal support part 142 and by the shield cover 120 in the side support part 141, the elastic operating space of the upper spring 140 is secured. Of course, it has the advantage that it can be firmly supported by a simple structure.

On the other hand, the contact portion of the outer surface of the side support portion 141 and the inner wall of the shield cover 120 may be to strengthen the adhesive force by bonding or welding. Preferably, the welding is made by spot welding.

In the drawings of the present invention, only the example in which the upper spring is bent from the outer circumference side to the upper side so that the side support portion can be formed, but the side support portion may also be formed in the lower spring, of course.

In addition, although the case where the upper spring and the lower spring are made of one plate has been described, it may be formed of a plurality of members, respectively, if necessary, the planar shape in consideration of the shape of the moving part, the housing and the shield cover It should be noted that various changes may be made.

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
Side support 142 Horizontal support
143 ... elastic part 200 ... moving part

Claims (5)

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 moving unit coupled to a lens at a central portion thereof and disposed to be movable in an inner space of the housing; And
And a spring including a horizontal support part supported by the housing at the outer circumference side, an elastic part elastically supporting the movement of the moving part at the inner circumferential side, and a side support part bent in a vertical direction at an edge thereof.
The outer surface of the side support portion is supported on the inner wall of the shield cover camera module.
The method of claim 1,
The spring has a lower surface of the horizontal support portion is supported by the upper end of the housing, the upper side of the side support portion of the camera module is supported on the camera module.
The method according to claim 1 or 2,
Wherein the spring, the upper end of the side support portion is bent to the inner circumferential side once again the outer circumferential side cross-section of the camera module made of ''.
The method of claim 1,
The spring is a camera module consisting of a single plate.
The method of claim 1,
The spring has a camera module, the side support is coupled to the shield cover by bonding or spot welding.

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