KR100857296B1 - Camera module - Google Patents

Abstract

The present invention is mounted on the upper surface of the PCB on which the image sensor is mounted, the camera housing having a predetermined space therein; A lens holder accommodating and installed along a space provided in the camera housing and having at least one lens installed therein; It is a structure that is elastically supported by a spring installed in the space provided in the camera housing is coupled to the lower end of the lens holder and includes a rotary spacer for adjusting the distance between the lens and the image sensor while being rotated in response to the pressing operation of the lens holder. Since the distance between the lens and the image sensor is adjusted according to the pressing of the lens holder is provided to provide a camera module that improves the ease of use of the camera.

Camera Module, Camera Housing, Lens Holder, Rotary Spacer, Image Sensor

Description

Camera module

1 is a cross-sectional view showing the structure of a conventional general camera module.

Figure 2 is a perspective view showing the appearance of a camera module with a macro lever according to the prior art.

3 is an exploded perspective view showing the configuration of a camera module according to the present invention.

4A and 4B are cross-sectional views showing the internal structure and operating state of the camera module according to the present invention.

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

A-Camera Module 10-Lens Housing

11-space 14-image sensor

15-Induction guide 16-Slide groove

17-support protrusion 20-lens holder

21-First Lens Holder 22-Second Lens Holder

23-Lens 24-First guided slope

30-Rotary Spacer 31-Spring

32-2nd Guidance Slope 33-Extruded

The present invention relates to a camera module.

In general, a camera module mounted on various mobile devices includes a lens unit 110, a camera housing 120, an IR filter 130, an image sensor 140, and a printed circuit board 150 as illustrated in FIG. 1. And an optical image of the subject is received by the lens unit 110 and transmitted to the IR filter 130, the IR filter 130 blocks the infrared rays from the received optical image and then irradiated with the image sensor 140 The image sensor 140 has a structure in which the irradiated optical image is converted into an electrical signal and output.

In addition, the lens unit 110 may obtain the sharpest image through focusing by adjusting the distance from the image sensor 140, but most camera modules applied to the mobile device have a fixed focus structure. There was a limit to getting a clear image.

Meanwhile, as shown in FIG. 2, a camera module that includes a macro lever 150 having a predetermined structure outside the camera module and that can adjust focus through the movement of the macro lever 150 is also proposed.

However, the conventional camera module equipped with the macro lever 150 has to adjust the focus while manually rotating the macro lever 150 according to the distance to the subject while looking at the screen displayed on the display unit in various mobile devices Therefore, there is a problem that the use is very inconvenient.

Accordingly, the present invention has been made to solve the conventional problems, the object of the present invention is to adjust the distance between the lens and the image sensor according to the pressing of the lens holder constituting the camera module, thereby making it easier to use the camera. To provide a camera module that can be.

Such, the present invention is mounted on the upper surface of the PCB on which the image sensor is mounted, the camera housing formed inside a predetermined space; A lens holder accommodating and installed along a space provided in the camera housing and having at least one lens installed therein; It is a structure that is elastically supported by a spring installed in the space provided in the camera housing is coupled to the lower end of the lens holder and includes a rotary spacer for adjusting the distance between the lens and the image sensor while being rotated in response to the pressing operation of the lens holder. It is configured by.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings such that those skilled in the art may easily implement the present invention.

3 is an exploded perspective view showing the configuration of a camera module according to the present invention, Figures 4a and 4b is a cross-sectional view showing the internal structure and operating state of the camera module according to the present invention.

As shown in FIGS. 3 and 4, the camera module A according to the present invention is largely composed of a camera housing 10, a lens holder 20, and a rotation spacer 30.

The camera housing 10 is a cylindrical shape having a predetermined space portion 11 therein, and a filter member 12 for filtering light incident from the lens holder 20 to be described later is installed on a lower inner circumferential surface of the PCB 13. It is mounted on the upper surface.

In addition, one end of the PCB 13 is mounted with the image sensor 14 in the mounting portion of the camera housing 10, the other end is provided with a connector (not shown) that can be easily connected to other electronic components such as mobile devices. .

The image sensor 14 has an image area on the upper surface of which an image passing through the lens 23 of the lens holder 20 is formed, and is electrically connected to the PCB 13 to convert the formed image into an electrical signal and transmit the converted image. It is a sensor member.

On the other hand, a predetermined appearance of the induction part 15 for controlling the appearance movement state of the lens holder 20 is formed on the upper inner peripheral surface of the camera housing (10).

The sunken induction part 15 is formed between a plurality of slide grooves 16 formed by processing around the upper inner circumferential surface of the camera housing 10 and between the slide grooves 16 and the slide grooves 16 and the ends of which rotate later. It consists of a support protrusion 17 is provided with an inclined jaw (16a) for guiding the rotation of the spacer 30.

At this time, the inclined jaw (16a) is preferably made to form a state connected like a blade portion of the tooth.

The slide grooves 16 are arranged along the inner circumferential surface of the camera housing 10 at equal intervals, and four of the slide grooves 16 facing each other are used for the rising of the lens holder 20. The other four slide grooves 16 are used for lowering when the lens holder 20 comes out. To this end, the first engaging jaw 16b is provided at the inner ends of the four slide grooves 16 facing each other, and the second engaging jaw 17a is formed at the outer ends of the other four slide grooves 16.

The lens holder 20 is formed in a cylindrical shape so as to be accommodated in the space 11 provided in the camera housing 10, and a certain portion penetrates through the center of the upper surface so that at least one lens 23 is disposed therein. It is installed so as to receive the light of the subject.

In this case, the light passing through the lens 23 is filtered by the filter member 12 provided in the camera housing 10 and transmitted to the image sensor 14.

In addition, a first guide inclination portion 24 is formed around the outer peripheral surface of the lens holder 20 in the form of teeth so as to guide the rotating spacer 30 to be described later away from the slide groove 16. A plurality of fixed ribs 25 are formed in the slide groove 16 provided in the housing 10.

Meanwhile, the lens holder 20 has a structure in which a height is adjustable from the first holder 21 by installing a first holder 21 coupled to the camera housing 10 and a lens 23 therein. It is separated into a second holder 22 is coupled to.

That is, in order to enable finer adjustments when adjusting the focus with the image sensor 14 as the lens holder 20 emerges, the spiral portion 21a is formed on the inner circumferential surface of the first holder 21, and the second holder is provided. On the outer circumferential surface of (22), it becomes possible by forming a screw portion 22a corresponding to the spiral portion 21a of the first holder 21 and screwing it.

The rotary spacer 30 is a part for adjusting the appearance of the lens holder 20 and is elastically supported by the spring 31 installed inside the camera housing 10. Repetitive appearance of the lens holder 20 is enabled while rotating in response to the pressing operation of (20).

Such a rotation spacer 30 has a predetermined portion penetrated at the center thereof so that light through the lens holder 20 can be transmitted to the image sensor 14, and a peripheral portion of the rotary spacer 30 provided around the lower end of the lens holder 20. A second induction inclination part 32 corresponding to one induction inclination part 24 is provided, and the periphery thereof is elevated along the slide groove 16 together with the fixed rib 25 provided in the lens holder 20. Or a molten rib 33 which is caught by the second catching jaw 17a is formed.

Accordingly, when the user presses the lens holder 20 of the camera module A, the fixed rib 25 of the lens holder 20 is vertically lowered along the slide groove 16 of the camera housing 10. At the same time, the projection rib 33 provided in the rotating spacer 30 is also lowered vertically along the slide groove 16 of the camera housing 10.

In this way, when the projecting rib 33 of the rotary spacer 30 lowered by the lens holder 20 leaves the inclined jaw 16a provided at the end of the slide groove 16, By the operation, the projection rib 33 slides and the rotation spacer 30 is rotated. At the same time, the projection rib 33 is moved to the inclined jaw 16a connected to the slide groove 16, and the inclined jaw 16a. When the projection rib 33 of the rotary spacer 30 is stopped by the second catching jaw 17a at the sliding position in the lens holder 20, the lens holder 20 continues to be pressed.

In this state, when the user presses the lens holder 20 again, the molten rib 33 hanging on the second catching jaw 17a is applied to the first induction tilting part 24 of the lens holder 20 which moves vertically. When the vertical movement by the second locking jaw (17a) is separated from the first guide inclined portion 24 and the gripping ribs 33 and is rotated while being guided to the slide groove 16 connected to the inclined jaw (16a). In this case, since the lens holder 20 is vertically raised to be exposed to the outside, the distance between the lens 23 of the lens holder 20 and the image sensor 14 can be easily adjusted. Therefore, macro shooting and remote shooting can be easily implemented.

As mentioned above, although this invention was demonstrated in detail using the preferable embodiment, the scope of the present invention is not limited to a specific embodiment, Comprising: It should be interpreted by the attached Claim. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

As described above, according to the camera module according to the present invention, since the distance between the lens and the image sensor is adjusted as the lens holder is pressed, the convenience of using the camera is improved.

Claims (4)

A camera housing mounted on an upper surface of the PCB on which the image sensor is mounted, and having a predetermined space portion formed therein, and a sunken induction portion formed around the upper inner circumferential surface of the space portion; A lens holder having one or more lenses installed therein in a structure capable of being sunk along a space provided in the camera housing, and having a first guide inclined portion having a sawtooth shape along its periphery and a plurality of fixed ribs around the periphery thereof; The second induction inclination portion corresponding to the first induction inclination portion provided in the lens holder and a plurality of projecting ribs are provided around the periphery of the structure that is elastically supported by a spring installed in the space provided in the camera housing. And a rotation spacer configured to adjust a distance between the lens and the image sensor while being rotated in response to a pressing operation of a lens holder. A camera housing mounted on an upper surface of the PCB on which the image sensor is mounted and having a predetermined space formed therein; A lens holder including a first holder installed in the camera housing and a second holder coupled to the first holder with a height adjustable structure and having a lens installed therein; The rotating spacer is coupled to the lower end of the lens holder in a structure that is elastically supported by a spring installed in the space provided in the camera housing, while rotating the rotation spacer to adjust the distance between the lens and the image sensor according to the pressing operation of the lens holder. Camera module configured to include. The method of claim 2, The first holder and the second holder is coupled to the camera module by a screw fastening method. delete

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