KR20070049835A - Focus adjusting device for camera module and adujusting method therefore - Google Patents

Abstract

Disclosed are a focusing apparatus for a camera module and a method for adjusting the focus thereof. A socket to which the camera module is mounted, a display unit connected to the socket and displaying a screen captured by the camera module, a lens holder into which a lens of the camera module is inserted to adjust focus, a lens unit positioned on the lens holder; The focus adjustment method including a chart captured by the camera module through the lens unit and a light source unit for irradiating light to the chart does not require a large space, and the focus can be adjusted even if the focus of the high resolution camera module is adjusted. .

Camera Module, Chart, Focus Adjustment

Description

FOCUS ADJUSTING DEVICE FOR CAMERA MODULE AND ADUJUSTING METHOD THEREFORE}

1 is a perspective view illustrating a state in which a knob is inserted into a camera module mounted on a socket board in a conventional focusing method.

Figure 2 is a front view of the focus control device according to an embodiment of the present invention.

Figure 3 is a perspective view showing an exploded state of the focus control device according to an embodiment of the present invention.

4 shows a chart attached to the lower surface of the moving plate.

5 is a plan view of a chart used in the focusing device of the camera module.

6 is a view schematically illustrating a state in which a chart is incident on a camera module by projecting a first lens and a second lens;

<Description of Drawing>

11: knob 13: socket

15: light panel 17: holder

19: lens holder 21: socket

23: DAQ board 25: DAQ cable

27: cylinder 29: camera module

31: Chart 35: First Lens

37: second lens 39: camera lens

41: base 43: moving plate

45: holder bracket 47: adapter

51: shaft 53: screw

The present invention relates to a camera module focusing device and a focusing method.

The camera module mounted on a portable telephone or the like is composed of a lens and a solid-state imaging device such as a charged coupled device (CCD) or a complementary metal oxide semicomductor (CMOS) that receives light incident through the lens. The most important thing in such a camera module is to focus the lens. Generally, a camera module without an autofocus function focuses the lens and the solid state image pickup device when the camera module is assembled.

Referring to FIG. 1, a conventional method of focusing a camera module is to mount the camera module 12 on a socket board 13 and then insert a knob 11 into a lens (not shown) of the camera module 12. . Then, a chart (not shown) is attached to a ceiling of a booth and positioned so that the camera module 12 can capture the image. Then, the chart captured by the camera module 12 is used to display the chart. While observing the lens, turn the knob 11 to focus the lens.

However, in the conventional focusing method, after attaching a chart to a ceiling of a booth (not shown) or the like, the user can visually compare the actual chart with the chart captured by the camera module displayed by a computer monitor. Since the lens is focused to focus the lens, a large working space is required to attach the chart. For example, in order to focus the lens of a camera module having a 1.3 megabyte solid-state image pickup device, a booth is used in a focusing line based on 0.95M to 1.2M. And as the camera module gets higher resolution, the size of these booths increases, which requires a larger work space, which causes a problem of inefficient work.

The present invention is to provide a focusing device and a method of adjusting the camera module that does not require a large space.

In addition, the present invention provides a focus control apparatus and a method of adjusting the focus of the camera module that can be adjusted even if the focus of the high-resolution camera module.

Camera module focusing apparatus according to an aspect of the present invention, the socket to which the camera module is mounted, the display unit is connected to the socket and displays the image captured by the camera module, and the lens of the camera module is inserted to adjust the focus And a lens holder positioned on the lens holder, a chart captured by the camera module through the lens unit, and a light source unit for irradiating light to the chart.

Embodiments according to the present invention may have one or more of the following features. For example, the focusing apparatus further includes a base on which the socket is mounted, a shaft fixed to the base, and a moving plate inserted into the shaft and movable up and down relative to the socket, and the chart is fixed to the moving plate, The lens holder and the lens unit may be rotatably coupled to the moving plate.

An adapter may be provided between the movable plate and the lens holder, and the lens unit may be inserted into and fixed in the adapter. The moving plate can be driven by an air cylinder. The display unit may include a data collection device connected to the socket and a display device connected to the data collection device.

In addition, the lens unit may include a first lens and a second lens having the same optical axis as the first lens, and the light source unit may be a light panel positioned on the moving plate. The optical axes of the first lens and the second lens may coincide with the lenses of the camera module.

Camera focusing method according to an aspect of the present invention, after the mounting of the camera module in the socket to determine whether the foreign matter, and moving the lens holder to the camera module, the lens holder holding the lens of the camera module And applying power to the light source unit to cause the chart to be captured by the camera module through the lens unit, and adjusting the focus of the camera module by using a lens holder while viewing the chart captured by the camera module through the display unit. do.

Hereinafter, embodiments of a camera module focusing apparatus and a method for adjusting the focus thereof according to the present invention will be described in detail with reference to the accompanying drawings, and in the following description with reference to the accompanying drawings, the same or corresponding components are the same reference numerals. And duplicate description thereof will be omitted.

2 and 3, the focus control apparatus for a camera module according to an embodiment of the present invention includes a socket 21 on which a camera module is mounted, a base 41 on which the socket 21 is fixed, and a base 41. And a pair of shafts 51 provided on the top. The moving plate 43 is coupled to the shaft 51 so as to be movable in the vertical direction, and the moving plate 43 includes the lens holder 19, the lens unit, the holder 17, the chart 31, and the light source unit 15. Combined. In the focus adjusting apparatus according to the present embodiment, when the camera module 29 is inserted into the socket 21, the moving plate 43 moves downward so that the lens holder 19 moves the lens of the camera module 29 up and down. Direction to adjust the focus.

Base 41 is a flat plate having a rectangular shape, the socket 13 is fixed to the upper portion and a pair of shafts 51 are provided on one side thereof. The air cylinder 55 is located between the two shafts 51. The height of the base 41 can be adjusted by the height adjuster 57 mounted on the lower surface thereof. The height adjusting unit 57 may adjust the height of the base 41 by using a screw or the like and correct the inclination.

The socket 21 is equipped with a camera module 29 to operate the camera module 29, the activated camera module 29 captures the image of the chart 31 through the lens unit. After the focus adjustment of the camera module 29 is completed, the camera module 29 may be separated from the socket 21. The socket 21 is connected to a board (hereinafter, referred to as a “DAQ board”) 23 of a data acquisition system, and the chart captured by the camera module 29 includes the DAQ board 23 and The data is displayed on a computer monitor (not shown) through the DAQ cable 25.

The moving plate 43 is inserted into the shaft 51 and guides the movement of the moving plate 43 in the vertical direction. Therefore, the movable plate 43 and the light source unit 15, the chart 31, the holder 17, and the lens holder 19 coupled thereto are guided vertically by the shaft 51. The shape and number of the shaft 51 can be changed in various ways as necessary. For example, four shafts 51 may be provided at each corner of the base 41.

The moving plate 43 is inserted into the shaft 51 and moves in the vertical direction. The light source unit 15 is located at the upper part of the chart 31, the holder 15, the adapter 47 at which the lens part is located, and the holder bracket. 45 and the lens holder 19 are sequentially combined. The moving plate 43 can be moved up and down automatically by the air cylinder 55 provided in the upper part of the base 41. Of course, the moving plate 43 can also move up and down by hand. The center of the moving plate 43 is provided with a circular hole to expose the chart 31 to the outside.

4 to 5, the chart 31 attached to the lower surface of the moving plate 43 and exposed to the upper portion is attached with the actual chart (not shown) reduced and printed, and the light emitted from the light source unit 15 is charted. Incident on the camera module 29 through the lens 31 and the first lens 35 and the second lens 37. The chart 31 is fixed to the moving plate 43 and does not rotate. The user adjusts the focus of the camera module by comparing whether the chart 31 captured by the camera module 29 is the same as the actual chart, which will be described below.

The holder 17 is rotatably coupled to the lower surface of the chart 31, and is coupled by the adapter 33, the holder bracket 45, and the screw 53 as shown in FIGS. 2 to 3. The lens holder 19 is fixed to the lower portion of the holder bracket 45. Therefore, when the user rotates the holder 17, the adapter 33, the holder bracket 45 and the lens holder 19 is rotated in conjunction with this.

The upper portion of the adapter 47 is fixed to the lower surface of the holder 17 and the lower portion is fixed to the holder bracket 45 is inserted. The first lens 35 and the second lens 37 are mounted in the adapter 47. The adapter 47 rotates in conjunction with the rotation of the holder 17. The holder bracket 45 is inserted into the adapter 47 and then coupled to the holder 17 by a screw 53. The lens holder 19 is coupled to the lower portion of the holder bracket 45.

The lens holder 19 adjusts the focus by holding and holding a lens (not shown) of the camera module 29 to adjust the height in the vertical direction of the lens. The shape of the chart 31 picked up by the camera module 29 changes little by little by the rotation of the lens holder 19. When the focus of the lens is set, the shape of the chart 31 displayed by the display unit is actually the chart. The shape is the same as.

The light source 15 is a light panel positioned above the moving plate 43, and the light emitted from the light source 15 is used to control the chart 31, the first lens 35, and the second lens 37. Gina is incident on the lens of the camera module 29. The light source 15 may use a general light source such as an incandescent lamp as long as light can be irradiated to the chart 31.

Referring to FIG. 6, the first lens 35 and the second lens 37 have the same optical axis X and are disposed in the vertical direction. The first lens 35 and the second lens 37 coincide with the optical axes of the lens 30 of the camera module 29. The optical axis means an axis in which there is no optical variation even when the lens rotates about the rm axis. The first lens 35 and the second lens 37 are convex lenses, and the size of the chart 31 is reduced so that the first lens 35 and the second lens 37 enter the lens 30 of the camera module 29. Accordingly, the shape of the chart 31 is projected onto the first lens 35 and the second lens 37 by the light emitted from the light source 15, and then reduced and incident on the lens of the camera module 29. The DAQ board 23 displays the image on a computer monitor (not shown). Although the lens unit includes two lenses of the first lens 35 and the second lens 37 in the present embodiment, the present invention is not limited thereto, and the number and characteristics of the lenses may be variously changed as necessary. Of course.

Therefore, in the camera module focusing apparatus according to the present invention, since the chart 31 is reduced by the first lens 35 and the second lens 37 and is incident on the camera module 29, a large space such as a conventional booth. You do not need it. In addition, even if the resolution of the camera module increases, the focus adjusting apparatus of the present invention may adjust the focus by changing the number and characteristics of the lens.

Hereinafter, a method of adjusting a focus of a camera module according to an embodiment of the present invention will be described.

First, after mounting the camera module 29 in the socket 21, it is checked whether the foreign material is intervening in the camera module 29 while looking at the monitor of the display unit. Whether or not foreign matter is involved is determined by looking at the screen captured by the camera module 29 and displayed on a computer monitor or the like. If a foreign material is interposed between a lens or a solid state image pickup device, the appearance of the foreign material is always displayed, and thus the camera module becomes defective. Therefore, it is not necessary to adjust the focus.

If no foreign material is interposed in the camera module 29, the lens holder 19 is moved to the camera module 29 to insert the lens of the camera module 29 into the lens holder 19. In this case, in order to drive the moving plate 43 to which the lens holder 19 is coupled, the moving cylinder 43 and the lens holder 19 may be moved in the vertical direction by driving the air cylinder 55.

Thereafter, power is applied to the light source unit 15 so that the chart 31 is picked up by the camera module 29 through the first lens 35 and the second lens 37. The shape of the chart 31 is projected onto the camera module 29 by the light generated by the light source unit 15, wherein the shape of the chart 31 is formed by the first lens 35 and the second lens 37. It is reduced and is incident on the camera module 29.

Then, the operator adjusts the focus of the camera while looking at the chart 31 captured by the camera module 29 through the display unit. That is, when the holder 17 is rotated clockwise or counterclockwise, the adapter 47 and the first lens 35 and the second lens 37 provided therein, the holder bracket 45 and The lens holder 19 is rotated. At this time, the lens of the camera module 29 inserted into the lens holder 19 is rotated to move up and down to focus. The operator adjusts the focus while viewing the display of the shape of the chart 31 captured by the camera module 31 and comparing it with the actual chart. If the shape of the chart 31 and the actual chart 31 shown in the display are the same, the focus of the lens is set in the correct position. Therefore, the operator raises the lens holder 19 so that the lens of the camera module 29 and the lens holder are raised. After the 19 is removed, the camera module 29 is detached from the socket 21.

Although the embodiments of the present invention have been described above, various changes and modifications of the present invention should also be construed as falling within the scope of the present invention as long as the technical idea of the present invention is realized.

The present invention can provide a focusing device and a method of adjusting the camera module that does not require a large space.

In addition, the present invention can provide a focus control apparatus and a method of adjusting the focus of the camera module capable of adjusting the focus even if the focus of the high-resolution camera module.

Claims (9)

A socket to which the camera module is mounted; A display unit connected to the socket and displaying a screen captured by the camera module; A lens holder into which a lens of the camera module is inserted to adjust focus; A lens unit positioned on the lens holder; A chart captured by the camera module through the lens unit; Camera module focusing apparatus comprising a light source unit for irradiating light to the chart. The method of claim 1, The camera module focusing apparatus includes a base on which the socket is mounted; A shaft fixed to the base; And further provided with a movable plate inserted into the shaft and movable up and down with respect to the socket. The chart is fixed to the moving plate, And the lens holder and the lens unit are rotatably coupled to the moving plate. The method of claim 2, An adapter is provided between the moving plate and the lens holder. And the lens unit is inserted into the at least one adapter and fixed to the camera module. The method of claim 2, The moving plate is a camera module focusing device driven by the air cylinder. The method of claim 1, And the display unit includes a data collection device connected to the socket and a display device connected to the data collection device. The method of claim 1, And the lens unit comprises a first lens and a second lens having the same optical axis as the first lens. The method of claim 2, And the light source unit is a light panel positioned on the moving plate. The method of claim 6, And an optical axis of the first lens and the second lens coincident with the lens of the camera module. Mounting the camera module on the socket and checking whether or not the foreign object is involved; Moving a lens holder to the camera module to hold the lens of the camera module by the lens holder; Applying power to a light source unit to cause the chart to be captured by the camera module through a lens unit; And adjusting the focus of the camera module by using the lens holder while looking at the chart captured by the camera module through a display unit.

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