KR20090037684A - Lens unit of the camera module - Google Patents

Abstract

The present invention relates to a lens unit provided in a camera module, comprising: at least one rectangular lens having a body having a rectangular cross section and having a lens surface on at least one surface of the body; A lens barrel having a cavity having a predetermined size having a rectangular cross section so that the rectangular lens is inserted, and having an opening through which light is incident on at least one surface of the rectangular lens; And an adhesive for fixing the square lens to the lens barrel, wherein the lens barrel includes a flow path in which the adhesive is filled on an inner surface corresponding to the square lens.

According to the present invention, the flare phenomenon can be prevented to improve the optical performance, the process can be simplified, the work productivity can be improved, and the lens flow can be prevented to maintain the optical focus.

Description

Lens unit of the camera module {LENS UNIT OF THE CAMERA MODULE}

The present invention relates to a lens unit of a camera module.

Currently, many cell phone companies are developing and producing cell phones with built-in camera modules. The built-in camera module mounted in the mobile phone has been developed in various forms according to its components and packaging method.

As the camera module used in such a mobile phone is required to be complex, multifunctional, and miniaturized, its structure is gradually getting smaller. In addition to such miniaturization, high precision is required.

In addition, such a camera module is required to be sensitive to the optical performance of the lens and its tolerances. However, such a sensitive optical performance tolerance is a big obstacle in increasing the mass production yield of a mobile camera module.

Currently, the lens of a mobile camera module uses a wafer type plastic lens in consideration of its mass productivity. Such wafer type plastic lenses typically use a lens receiving part with a spacer interposed therebetween to maintain a gap between the lenses. It is mounted on the camera module.

1 shows a lens unit 1 of a typical camera module.

In general, the camera module includes a lens accommodating part 10 in which lenses 22 and 24 are disposed in an inner space, and an entrance hole is formed in the center of the upper surface of the lens accommodating part, and the lens accommodating part 10 of the lens accommodating part 10 is formed. A male screw portion is formed on an outer circumferential surface thereof, and a press-fit ring 30 for fixing the lenses 22 and 24 is inserted into a lower end of the lens 24.

Although not shown in the drawings, a housing coupled to the lens accommodation portion 10 generally includes an internal hole formed on an inner circumferential surface of a female screw portion coupled to a male screw portion of the lens accommodation portion 10, and the lens includes a lens ( 22 and 24, an IR filter for filtering the light passing through.

In addition, an image sensor having an image forming region in which an image of a subject passing through the lenses 22 and 24 is formed is electrically connected to one end of the substrate, and a connector is connected to the other end of the substrate to be electrically connected to the display means. And an opening portion formed at one end of the substrate to expose the image forming region of the image sensor to the outside.

The camera module having such a configuration inserts and stacks a plurality of lenses 22 and 24 in the inner hole of the lens accommodating part 10, and arranges spacers 25 to maintain a gap between the lenses 22 and 24. In order to fix the stacked lenses 22 and 24, the press fitting ring 30 is inserted into the lower portion of the lens 24, and then the adhesive is applied to fix the lens accommodation portion 10. Configured.

Such a conventional camera module generates an indentation ring and / or a tilt of the lens when the indentation ring is inserted to fix the position of the lens so that the optical axis is distorted or foreign matter falls into the barrel. There was a problem that the degradation of the performance and the crack of the lens barrel occurs when the dispersion of the outer diameter of the press-fit ring occurs.

In addition, since the press-fit ring for fixing the position of the lens must be inserted and fixed, the assembly work is very cumbersome, the productivity of the work is improved, and the thickness of the press-ring ring limits the slimming of the lens unit. Due to the gap between the left and right flow occurs because the lens is not fixed there was a problem that the focus is shifted.

The present invention has been made to solve the above problems, the object of which is to prevent the flare occurring in the camera module to improve the optical performance, improve the work productivity, the camera module can be made ultra slim It is to provide a lens unit.

The present invention is provided with at least one rectangular lens having a body of a rectangular cross-section, and at least one surface of the body having a lens surface to achieve the above object; A lens barrel having a cavity having a predetermined size having a rectangular cross section so that the rectangular lens is inserted, and having an opening through which light is incident on at least one surface of the rectangular lens; And an adhesive for fixing the square lens to the lens barrel, wherein the lens barrel provides a lens unit of the camera module having a flow path in which the adhesive is filled on an inner surface corresponding to the square lens.

Preferably, a cutout is formed at an edge of an insertion hole of the cavity into which the square lens is inserted.

Preferably, the flow path is provided in the optical axis direction at a position corresponding to an edge parallel to the optical axis direction of the rectangular lens.

Preferably, the adhesive is filled with a gap formed between the rectangular lens and the inner surface of the lens barrel and the flow path by a predetermined vacuum suction force provided in the opening.

Preferably, the rectangular lens is aligned in the optical axis direction with the lens barrel by a vacuum suction force of a predetermined size provided in the opening.

Preferably, the adhesive is applied to cover the rear edge of the rectangular lens far from the opening, and the applied adhesive forms an inclined surface toward the inner surface of the lens barrel from the rear edge of the rectangular lens and enters from the opening. Do not interfere with the path of light coming in.

According to the present invention having the configuration described above, by fixing the lens to the lens barrel with an adhesive having an inclined surface, it is possible to improve the optical performance by preventing the flare phenomenon, the process is simplified by fixing the lens to the lens barrel only with the adhesive Accordingly, work productivity may also be improved, and an adhesive may be filled between the lens and the lens barrel to prevent lens flow and maintain an optical focus.

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

Figure 2 (a) is a longitudinal sectional view showing a lens unit of the camera module according to the invention, Figure 2 (b) is a lens unit of the camera module cut along the line AA of Figure 2 (a) Figure is a cross-sectional view.

The lens unit of the camera module according to the present invention comprises a square lens 110, the lens barrel 120 and the adhesive 130.

The rectangular lens 110 is a lens structure of a wafer scale having a body 112 and a lens surface 114 on at least one surface of the body 112.

The body 112 of the rectangular lens 110 is formed of a rectangular flat cross section, and at least one surface of the body forms a lens surface 114 that refracts a diverging path of light.

The rectangular lens 110 may include a plurality of lens surfaces on a wafer (not shown), and may be provided by dicing them.

The lens barrel 120 has a cavity 122 having a predetermined size having a square flat cross section so that the square lens 110 is inserted, and an opening 124 through which light is incident to pass through the square lens 110 on one surface thereof. ).

The cavity 122 is provided with a circumference larger than the circumference of the square lens 110 so that the square lens 110 can be easily inserted into the cavity 122. The cavity 122 has a predetermined size between the square lens 110 and the lens barrel 120. A gap of can be formed.

In addition, a cutout 128 may be provided at an insertion hole of the cavity 122 into which the square lens 110 is inserted.

An adhesive 130 may be provided around the rectangular lens 110 so as to position and fix the rectangular lens 110 inserted into the lens barrel 120 to the lens barrel 120. .

In this case, the lens barrel 120 may include a flow path 126 in which the adhesive 130 is filled on the inner surface corresponding to the outer surface of the rectangular lens 110.

The flow path 126 may be provided in the optical axis direction O along the edge 116 at a position corresponding to the edge 116 parallel to the optical axis direction O of the rectangular lens 110.

The outer circumferential surface of the lens barrel 120 may be provided with a male screw portion 121 to be screwed with the housing not shown.

The adhesive 130 may be provided to fill a gap formed between the square lens 110 and the lens barrel 120 and cover the rear edge of the square lens 110 far from the opening 124.

In this case, the adhesive 130 may include an inclined surface 132 that is inclined at an angle toward the inner surface of the lens barrel 120 from the rear edge of the square lens 110.

The inclined surface 132 is to prevent the light penetrating the opening 124 from interfering with the optical path passing through the rectangular lens 110 to the image sensor not shown.

3 (a) to 3 (c) show the assembling procedure of the lens unit according to the present invention, and having a cavity 122 having a predetermined size therein, and having an opening 124 at one side of the cavity 122. ) Is provided, the lens barrel 120 having a male screw portion 121 is prepared on the outer peripheral surface.

The square lens 110 is inserted into the cavity 122 of the lens barrel 120 thus prepared.

In this case, the inner circumference of the lens barrel 120 is larger than the outer circumference of the square lens 110, and the cutout portion 128 is formed at the corner of the lens insertion hole of the cavity 122 to form the square lens 110. The insertion of can be made easily.

The rectangular lens 110 is aligned with the optical axis O by a predetermined size of vacuum suction force P provided from the opening 124. When the adhesive 130 is applied, the rectangular lens 110 is aligned with the rectangular lens 110. The adhesive 130 is filled in the gap formed between the lens barrel 120 and the flow path 126 to firmly fix the position of the square lens 110.

In addition, the adhesive 130 is provided such that the inclined surface 132 has a predetermined angle in a region corresponding to the image sensor (not shown) provided when the lens barrel 120 is assembled to the camera module. The incident light passing through the opening 124 may pass through the rectangular lens 110 and reach the image sensor so that the incident path does not interfere with the flare phenomenon.

In addition, the process is simplified by fixing the position using only the adhesive 130 immediately after inserting the square lens 110 into the lens barrel 120, the thickness occupied by the press-fit ring used for fixing the position of the lens By being excluded, it may be advantageous to slim the product.

Although the present invention as described above has been shown and described with respect to specific embodiments, those skilled in the art can vary the present invention without departing from the spirit and scope of the invention as set forth in the claims below. It will be clear that it can be modified and changed.

1 is a cross-sectional view illustrating a lens unit of a general camera module.

Figure 2 (a) is a longitudinal sectional view showing a lens unit of the camera module according to the present invention.

Figure 2 (b) is a cross-sectional view showing a lens unit of the camera module according to the present invention.

3 (a) to 3 (c) are process drawings for assembling the lens unit of the camera module according to the present invention.

** Description of the symbols for the main parts of the drawings **

110: square lens 120: lens barrel

126: Euro 130: adhesive

Claims (6)

At least one square lens having a body having a rectangular cross section and having a lens surface on at least one surface of the body; A lens barrel having a cavity having a predetermined size having a rectangular cross section so that the rectangular lens is inserted, and having an opening through which light is incident on at least one surface of the rectangular lens; And And an adhesive for fixing the square lens to the lens barrel. The lens barrel of claim 1, wherein the lens barrel has a flow path for filling the adhesive on the inner surface corresponding to the rectangular lens. The lens unit of claim 1, wherein a cutout is formed at an edge of an insertion hole of the cavity into which the square lens is inserted. The lens unit of claim 1, wherein the flow path is disposed at an optical axis direction at a position corresponding to an edge parallel to the optical axis direction of the rectangular lens. The camera module of claim 1, wherein the adhesive is filled in a gap formed between the rectangular lens and the inner surface of the lens barrel and the flow path by a predetermined vacuum suction force provided in the opening. Lens unit. The lens unit of claim 1, wherein the rectangular lens is aligned in the optical axis direction with the lens barrel by a vacuum suction force of a predetermined size provided in the opening. The method of claim 1, wherein the adhesive is applied to cover the rear edge of the rectangular lens far from the opening, the applied adhesive is inclined toward the inner surface of the lens barrel from the rear edge of the rectangular lens. The lens unit of the camera module, characterized in that not to interfere with the path of the light incident from the opening.

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