KR100733239B1 - Filter assembly for camera module - Google Patents

Abstract

A filter assembly for a camera module is provided to form a plurality of position guides by protruding a portion of an inside surface of a mounting groove of a housing toward a center. A filter assembly for a camera module includes a housing(110) and a glass filter(120). A through-hole(112) and a mounting groove(114) are formed on the housing. The filter assembly further includes a position guide(118) provided with an inclination surface inclined from a top of the position guide to a bottom of the mounting groove. The mounting groove is formed on one end of the housing to receive the glass filter. The position guide is protruded toward the center at a portion of the inner side of the mounting groove. In the filter assembly, the glass filter is received by the position guide with a minimum interface surface.

Description

Filter assembly for camera module

1 is a perspective view showing a filter assembly structure of a camera module according to a conventional example;

FIG. 2 is a perspective view illustrating a glass filter coupled to FIG. 1; FIG.

3 is a perspective view showing a filter assembly structure of a camera module according to an embodiment of the present invention;

4 is a perspective view showing a state in which the glass filter is coupled to FIG. And

5 is a cross-sectional view taken along the direction I-I of FIG. 4.

<Description of reference numerals for main parts of the drawings>

110: housing 112: through hole

114: mounting groove 116: space

118: position guide 118a: inclined surface

120: glass filter 130: lens

The present invention relates to a filter assembly structure of the camera module, and more particularly to a filter assembly structure of the camera module, characterized in that to prevent the generation of foreign matter by the external force between the housing and the glass filter.

Our eyes can only see visible light between 380 and 770 nm, a specific area of electromagnetic waves. In this wavelength range, the purple spreads from the purple to the red, and when they are combined, it becomes white light, and the human eye has three light receptor cells that are sensitive to blue, green, and red, and can distinguish many colors.

However, the photosensitive sensor (CCD) of the camera module used in video cameras and mobile phone cameras can see light in a wider wavelength range than the human eye, and recognizes even an infrared region of 770 nm or more that is invisible to the human. Therefore, if the video or mobile phone camera's photo-sensitive scene is exported as it is, a different color image is output. To prevent this phenomenon, an IR Cur Filter is installed inside the camera.

The key technology in making infrared cut filter is vacuum thin film deposition technology, which is made by alternately depositing two materials with different refractive indices on glass substrate to transmit visible region and reflect near infrared region.

1 is a perspective view illustrating a filter assembly structure of a camera module according to a conventional example, and FIG. 2 is a perspective view illustrating a glass filter coupled to FIG. 1.

As shown in FIG. 1 and FIG. 2, the filter assembly structure of the camera module according to the related art includes a housing 10 in which the glass filter 20 and the glass filter 20 are assembled.

The through hole 12 and the mounting groove 14 are formed in the housing 10.

First, a lens (not shown) is accommodated in the housing to correspond to one end of the through hole 12, a mounting groove 14 is formed to correspond to the other end of the through hole 12, and a center of the mounting groove 14 is provided. The through hole 12 formed to extend from the lens to serves as an optical path for light to move.

The mounting groove 14 has a rectangular shape, for example, the center of the bottom of the mounting groove 14 is connected to the through hole 12, and the bottom of the mounting hole 14 is a portion where the glass filter 20 is seated. .

Each corner of the mounting groove 14 is formed with a small circular space 16, which is the place where the adhesive is stored.

In other words, as shown in FIG. 2, the glass filter 20 is mounted in the mounting groove 14. First, an adhesive is applied around the bottom of the mounting groove 14. And the glass filter 20 is seated thereon. As the glass filter 20 is mounted, a force is applied to the adhesive, and the adhesive is pushed into the small circular space 16 at each corner by the force given by the glass filter 20.

In addition, the adhesive used in the related art is an ultraviolet curing adhesive. When the ultraviolet light is irradiated to the adhesive using an ultraviolet lamp, the adhesive is cured and the glass filter 20 is fixed to the mounting groove 14.

However, the filter assembly structure of the conventional camera module has a similar size in which the mounting groove and the glass filter are closely formed, so that fine glass filters or pieces of the housing are generated by external force, and the fine pieces of the glass filter or the housing are formed in the camera module. There was a problem that can fall on the lens of the module can cause a defect.

The present invention has been made in order to solve the above-mentioned problems of the prior art, by forming a position guide on the inner side of the mounting groove in order to reduce the contact surface of the mounting groove and the glass filter of the housing, the glass filter is mounted by the position guide By having a minimum contact surface with the inner surface of the, to provide a camera module that can prevent the generation of foreign matter, such as fine fragments of the glass filter or the housing by an external force.

To this end, the present invention includes a housing for receiving the lens, the through-hole is formed in a position facing the lens; And a glass filter formed at one end of the housing to correspond to the end of the through hole. In the camera module comprising a, one end of the housing is provided with a mounting groove in which the glass filter is seated, and further comprising a position guide protruding toward the center from a portion of the inner surface of the mounting groove, the glass filter by the position guide It provides a filter assembly structure of the camera module, characterized in that seated with a minimum contact surface.

In the present invention, the position guide is characterized in that it has an inclined surface inclined from the top of the position guide to the bottom of the mounting groove.

In addition, in the present invention, a plurality of position guides are formed along the inner surface of the mounting groove at equal intervals.

In the present invention, the adhesive is interposed between the bottom of the mounting groove and the bottom of the glass filter.

In addition, in the present invention, the through hole is characterized in that it is formed extending from the center of the mounting groove to the lens.

In addition, in the present invention, the through-hole is characterized in that it serves as a light path through which light passes.

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

3 is a perspective view showing a filter assembly structure of a camera module according to an embodiment of the present invention, Figure 4 is a perspective view showing a state in which the filter is coupled to FIG.

As shown in Figure 3 and 4, the filter assembly structure of the camera module according to the present invention consists of a housing 110, the glass filter 120 and the glass filter 120 is assembled.

The through hole 112 and the mounting groove 114 are formed in the housing 110.

First, a lens (not shown) is accommodated in the housing to correspond to one end of the through hole 112, a mounting groove 114 is formed to correspond to the other end of the through hole 112, and a center of the mounting groove 114 is provided. The through hole 112 formed to extend from the lens serves as an optical path for light to move.

The mounting groove 114 has a rectangular shape, for example, the center of the bottom surface of the mounting groove 114 is connected to the through hole 112, and the bottom surface of the periphery of the through hole 112 is a portion where the glass filter 120 is seated.

A position guide 118 is formed to hold the position of the glass filter 120 and to support the glass filter 120 to be seated. The position guide 118 is a mounting groove at a portion of the inner side of the mounting groove 114. Protruding toward the center of the 114, the position guide 118 is formed on each of the inner side.

In addition, the position guide may be formed in various ways depending on the shape of the mounting groove, and if the shape of the mounting groove is a polygon is formed on each of the inner side, if the mounting groove is circular shape at equal intervals along the inner surface. Multiple can be formed.

In addition, the position guide 118 has an inclined surface (see 118a of FIG. 5) inclined from the top of the position guide 118 to the bottom of the mounting groove 114, has a cross-sectional shape of a right triangle, the inclined surface (Fig. 5 End of the glass filter 120 is engaged with the bottom of the glass filter 120 to support the glass filter 120. In other words, the glass filter 120 is seated in accordance with the portion indicated by the dotted line in FIG. 3.

In addition, the size of the mounting groove 114 is larger than the size of the glass filter 120, but the glass filter 120 should not be large so as to be separated from the position guide 118. It is preferable that the mounting groove 114 is as large as the width of the position guide 118, and the width and size of the position guide 118 is such that the glass filter 120 is engaged with the end of the position guide 118 to the mounting groove 114. When mounted, it is preferable to have a width and size that can support the glass filter 120 well.

In addition, a free space having a width of the location guide 118, that is, a space 116 between the inner surface of the mounting groove 114 in which the location guide 118 is not formed and the glass filter 120 is a place where the adhesive is stored. to be.

In other words, as shown in FIG. 4, first, an adhesive is applied around the bottom of the mounting groove 114. And the glass filter 120 is seated thereon. At this time, the glass filter 120 is disposed and seated so as to be engaged with the end of the position guide 118 formed on each of the inner side surfaces of the mounting groove 120.

 As the glass filter 120 is mounted, a force is applied to the adhesive, and the adhesive is pushed into the peripheral space 116 of the mounting groove 114 where the position guide 118 is not formed by the force applied by the glass filter 120. It becomes.

In addition, the adhesive used in the present invention uses a so-called ultraviolet curing adhesive, the ultraviolet curing adhesive is a fast time for the photoreaction initiator in the adhesive to start the reaction when irradiated with ultraviolet light to the adhesive using an ultraviolet lamp to the liquid adhesive It is cured with a solid adhesive in the glass, and thus the glass filter 120 is fixedly seated in the mounting groove 114.

5 is a cross-sectional view taken along the direction I-I of FIG. 4.

As shown in FIG. 5, the center of the bottom of the mounting groove (see 114 of FIGS. 3 and 4) extends with the through hole 112, and the lens 130 is inserted into and coupled to one end of the through hole 112. On the inner side of the mounting groove (see 114 in FIGS. 3 and 4), a position guide 118 having an inclined surface 118a inclined from the top to the bottom of the mounting groove (see 114 in FIGS. 3 and 4) is formed. The end of the position guide 118 and the glass filter 120 are engaged with each other and are seated on the bottom of the mounting groove (see 114 of FIGS. 3 and 4).

In addition, the shape of the position guide 118 shown in cross section has the shape of a right triangle.

As shown here, the end of the position guide 118 and the side of the glass filter 120 is engaged, but the top of the position guide 118 and the side of the glass filter 120 is the width (d) of the position guide 118 Space 116 is formed.

As described above, the filter assembly structure of the camera module according to the present invention forms a position guide to protrude toward the center from a portion of the inner surface of the mounting groove of the housing, the position guide has an inclined surface, the end of the inclined surface and the glass By engaging the filters in engagement, it is possible to prevent the generation of fine pieces of the glass filter or the housing by the external force.

As such, the present invention forms a plurality of position guides protruding toward the center from a portion of the inner surface of the mounting groove of the housing, by which the glass filter has a minimum contact surface with the inner surface of the mounting groove, the conventional mounting Unlike the case where the groove and the glass filter are in close contact with each other, due to the minimum contact surface between the mounting groove and the glass filter, foreign substances such as fine fragments of the glass filter or the housing can be prevented by external force.

In the filter assembly structure of the camera module according to the present invention, the present invention forms a plurality of position guides so as to protrude toward the center from a portion of the inner surface of the mounting groove of the housing, and the glass filter is formed by the position guide and the inner surface of the mounting groove at least. By having a contact surface of the, unlike the case where the conventional mounting groove and the glass filter is in close contact with the minimum contact surface of the mounting groove and the glass filter, it is possible to prevent the generation of foreign substances such as fine fragments of the glass filter or the housing by the external force.

Claims (6)

A housing accommodating the lens and having a through hole formed at a position facing the lens; And a glass filter formed at one end of the housing to correspond to the end of the through hole. In the camera module comprising a, One end of the housing is provided with a mounting groove in which the glass filter is seated, and further comprising a position guide protruding toward the center from a portion of the inner surface of the mounting groove, And the glass filter is seated with the minimum contact surface by the position guide. The filter assembly structure of claim 1, wherein the position guide has an inclined surface inclined from an upper end of the position guide to a bottom surface of the mounting groove. The filter assembly structure of claim 2, wherein the plurality of position guides are formed along the inner surface of the mounting groove at equal intervals. The filter assembly structure of claim 1, wherein an adhesive is interposed between a bottom surface of the mounting groove and a bottom surface of the glass filter. The filter assembly structure of claim 1, wherein the through hole extends from the center of the mounting groove to the lens. The filter assembly structure of claim 1, wherein the through hole serves as a light path through which light passes.

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