KR20090116909A - Camera module focus test apparatus - Google Patents

Abstract

PURPOSE: A camera module inspecting and focus adjusting device is provided to efficiently accurately process a series of camera module inspecting processes by one process. CONSTITUTION: A camera module inspecting and focus adjusting device includes a base(10), a socket frame(40), a socket board(41,42), a collet unit(20), a rotation axis, and a rotation plate(31). The base comprises the first, second and third driving units. The socket frame is rotated by the first driving unit. The socket board is on both sides of the socket frame. The socket board is elevated by the second driving unit and mounted on a camera module.

Description

Camera module focus test apparatus

The present invention relates to an apparatus for inspecting a camera module, and more particularly, a base having one driving part, two driving parts, and three driving parts therein; A socket frame provided on an upper side of the base and rotated by one driving unit; A socket board provided at both sides of the socket frame and lifted by two driving units and mounted with the camera module; A collet part provided at an upper part of the base and positioned vertically of the socket board and rotated by four driving parts provided at an upper part of the base; A rotating shaft provided on an upper portion of the base and connected to one side of a third driving part; A rotating plate coupled to an upper portion of the rotating shaft and rotated by a third driving unit and interposing a lens and an illumination unit; A chart portion provided on an upper portion of the rotating plate; It relates to a camera module inspection and focus adjustment device comprising a two chart portion fixed to the upper portion of the connecting member extending vertically from one side of the base to be parallel to the upper portion of the base.

There are two types of camera module, FF type and AF type. FF type (Fixed Focus Type) is a fixed module with one focal length, and AF type (Auto Focus Type) has a fixed fixed focal length, but the actuator configured in the lens part by applying current or voltage to the lens part. This module can be used to change the focal length. AF type camera module is composed of a lens system with a plurality of lenses and an actuator such as a voice coil motor (VCM) is provided, and the optical focal length is adjusted by changing the relative distance by moving each lens. It is composed.

Recently, mobile phones equipped with cameras have emerged, and still pictures and videos can be taken by the mobile phones. Currently, camera performance is gradually improving for high resolution and high quality shooting.

The camera module mounted on the mobile phone also goes through this operation check. Specifically, the open / short test, the resistance value measurement of the power supply line, the current consumption test, the input / output leakage current test, and the like, it is determined whether or not the defect.

In addition, the camera module must perform fixed focusing adjustment, image inspection, and AF driving inspection to determine the depth of tightening by precisely rotating the lens unit to match a specific fixed focal length with the sensor unit and the housing unit before shipping. The focusing is a process of inspecting the fixed focus of the lens, and the image inspection is a process of inspecting the output image of the camera module for defects or defects of unit pixels or scratches or particles in the sensor. It is a process to check whether there is a malfunction of the auto focus function implemented by operating the driving unit such as VCM which the camera module itself has.

However, in the related art, in order to perform the fixed focus adjustment, the image inspection, and the auto focus driving inspection on the camera module, there has been the inconvenience of using different devices.

In addition, in order to perform fixed focus adjustment with respect to the camera module, the lens unit of the camera module to be inspected has a collet part of a focusing chart part (including a focusing chart having an image and a reduced optical system for forming a virtual distance) for a fixed focus test. There is a problem that this driving mechanism becomes very complicated because the fixed focus test should be carried out by lowering and moving up and down relatively large and bulky focusing chart.

In addition, when the collet part of the focusing chart part is excessively lowered, there is a problem that the lens part of the camera module is often broken.

In addition, in the case of the AF type camera module, there is a problem that it is difficult to accurately measure the focus by the contact pressure of the collet in the lens unit during the fixed focus adjustment operation according to the actuator configuration.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to efficiently process a series of camera module inspection processes such as fixed focusing adjustment, image inspection, and AF driving inspection with a single device more efficiently. It is to provide a camera module inspection and focusing device to enable the.

An object of the present invention as described above is provided by the lifting board 2, the socket board is mounted to the camera module; A collet part provided at an upper part of the base and positioned vertically of the socket board and rotated by a four driving part provided at an upper part of the base; A rotating shaft provided on an upper portion of the base and connected to one side of a third driving part; A rotating plate coupled to an upper portion of the rotating shaft and rotated by a third driving unit and interposing a lens and an illumination unit; A chart portion provided on an upper portion of the rotating plate; It is achieved by a camera module inspection apparatus comprising a; 2 chart portion fixed to the upper portion of the connecting member extending vertically from one side of the base to be parallel to the upper portion of the base.

On the other hand, in the present invention, the first drive unit is composed of a motor connected to the rotary shaft is configured to rotate the socket frame by coupling the rotary shaft to the center of the socket frame; The second driving unit includes a motor, a ball screw provided in the vicinity of the motor, a pulley provided at each side of the motor and the ball screw to transmit the rotational force of the motor to the ball screw, a belt connecting the pulley, and Consists of the lifting part provided on the other side of the ball screw to combine the lifting part with the socket board located on the upper part of the socket frame to lift the socket board, the three driving parts are composed of a motor coupled to the rotating shaft located on the upper portion of the base And a four driving part comprising a motor provided on the upper part of the base, a pulley connected to one side of the motor, and a belt connecting the outer circumferential surface of the pulley and the collet part. It is characterized by a rotating configuration.

In addition, the present invention is the function of inspecting the image module of the camera module by irradiating the light by rotating the rotating plate to the three drive unit to match the vertical position of the camera module and the lighting unit; After rotating the rotary plate with the three driving units so that the vertical position of the camera module and the lens and the second chart unit coincide, '① the camera module captures the second chart unit, receives and analyzes the photographed data, and then the camera module has an optimal fixed focus state. Or raise the socket board with the 2nd driving part to be combined with the collet part, adjust the camera module by driving the collet part with the 4th driving part, and then lower the socket board with the 2nd driving part to prevent contact pressure from being applied to the lens part of the module. Performing fixed focus adjustment of the camera module by repeating the process of performing accurate focus measurement until the camera module is in an optimal focus state; When the camera module is in an optimal focus state, a function of rotating the rotary plate with the three driving units to coincide with the vertical position of the camera module and the first chart unit and then performing an auto focus driving test; It is characterized by comprising a.

The present invention has the effect of performing a fixed focus adjustment, image inspection, auto focus drive inspection for the AF-type camera module as a single device.

In addition, the present invention has the effect of performing a fixed focus test through a simpler driving mechanism by fixing the focusing chart portion to raise and lower the camera module.

In addition, the present invention has an effect to prevent the focus measurement is inaccurate or damaged due to the contact of the lens portion of the camera module by the collet portion of the focusing chart portion.

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

The present invention relates to an apparatus for inspecting and focusing a camera module, and more particularly, to a camera module inspection and focus adjustment which enables fixed focus adjustment, image inspection, and auto focus drive inspection of a camera module in one device. Device.

The camera module (CCM: COMPACT CAMERA MOUDULE) is compact and is applied to various IT devices such as camera phones, PDAs, smartphones, portable mobile communication devices, and toy cameras. According to taste, the market of a device equipped with a small camera module is gradually increasing.

Such a camera module is manufactured using an image sensor such as a CCD or a CMOS as a main component, and collects an image of an object through the image sensor and stores it as data in a memory in the device, and the stored data is stored in the LCD or PC in the device. The image is displayed through a display medium such as a monitor.

A typical camera module is typically produced by a method such as COB (CHIP ON BOARD), COF (CHIP ON FLEXIBLE), a brief look at the typical structure of the COB method with reference to the drawings shown below as follows. .

1 is an exploded perspective view of a COB type camera module, Figure 2 is a cross-sectional view schematically showing a COB type camera module, Figure 3 is a perspective view showing a connector external COB type camera module, a general camera module is an image of a CCD or CMOS The printed circuit board 105 on which the sensor 104 is mounted by wire bonding is coupled to the lower portion of the plastic housing 200, and the cylindrical body 102 is lowered to the barrel 103 extending above the housing 200. Is produced by the extension of the lens barrel 100 is coupled.

The camera module is coupled to the housing 200 and the lens barrel 100 by screwing the female threaded portion 103a formed on the inner circumferential surface of the barrel 103 and the male threaded portion 102a formed on the outer circumferential surface of the cylindrical body 102.

In this case, the IR filter 106 is disposed between the upper surface of the printed board 105, that is, the lens 101 mounted on the lower end of the lens barrel 100 and the image sensor 104 attached to the lower surface of the printed board 105. By being combined, the infrared rays of excessive long wavelength flowing into the image sensor 104 are blocked.

The camera module assembled as described above is focused on the surface of the image sensor 104 by inverting the image while the light flowing from a specific object passes through the lens 101, and is coupled to the upper end of the housing 200 by screwing. While rotating the lens barrel 100, the adhesive is injected between the housing 200 and the clearance of the lens barrel 100 at the point where the optimal focus is achieved, and the housing 200 and the lens barrel 100 are adhesively fixed to the final camera module. The product is produced.

The camera module having the structure as described above rotates the lens barrel 100 on which the lens 101 corresponding to the image sensor 104 mounted on the bottom surface of the housing 200 is mounted to the left and right of the image sensor 104. In order to determine the correct focus of the lens 101 in the light receiving area of the camera, the operator visually checks the image captured by the image sensor 104 and the image sensor 104 until the captured image is clear. The distance between the lens 101 is adjusted, and the adhesive fixing of the housing 200 and the lens barrel 100 is fixed so that the position of the lens is fixed when the image captured by the image sensor 104 is maximized. Will be done.

In addition, a control factor in which the second chart part 50 is positioned on the lens barrel 100 coupled to the upper part of the housing 200 and the image of the second chart part 50 is captured by the image sensor 104. The contrast value is extracted and the focus adjustment is performed by comparing the extracted contrast value. Reference numeral 300 is a connector.

Hereinafter, the configuration of the camera module inspection apparatus that enables the fixed focus adjustment of the camera module, the image inspection, the auto focusing (AF) inspection as a single device, and through this the fixed focus adjustment of the camera module, the image inspection and The auto focus drive test method will be described in detail.

The camera module inspection apparatus includes a base 10 having a first driving unit 71, a second driving unit 72, and a third driving unit 73 therein, and is provided on one side of the upper portion of the base 10 and mounted on the first driving unit 71. A socket frame 40 rotated by the socket frame, socket boards 41 and 42 provided on both sides of the socket frame 40 and lifted by the second driving unit 72, and on which the camera module is mounted, and the base 10. And a collet part 20 which is provided at an upper portion of the socket board 41 and is rotated by a four driving part 74 provided at an upper portion of the base 10, and is provided on an upper portion of the base 10. The rotating shaft 73a connected to one side of the three driving unit 73 and the upper side of the rotating shaft 73a are rotated by the three driving unit 73 and the rotating plate 31 via the lens 32 and the lighting unit 33. ), The chart portion 60 provided on the upper portion of the rotating plate 31, and vertically open from one side of the base 10 to be parallel to the upper portion of the base 10 It is configured to include a second chart portion 50 is fixed to the upper portion of the connection member (11).

Here, the first driving unit 71 is composed of a motor (71a) connected to a rotating shaft (not shown) is a configuration to rotate the socket frame 40 by coupling the rotating shaft to the center of the socket frame 40, the second driving unit 72 Is a motor 72d, a ball screw 72e provided in the vicinity of the motor 72d, and a motor 72d and a ball screw 72e to transfer the rotational force of the motor 72d to the ball screw 72e. Pulleys 72a and 72b provided on one side of the belt 72, a belt 72c connecting the pulleys 72a and 72b, and a lifting unit 72f provided on the other side of the ball screw 72e. And elevating the socket board 41 positioned on the upper portion of the socket frame 40 by the elevating portion 72f, and the three driving portions 73 are constituted by the motor 73b to move the motor 73b to the base 10. Combination with the rotary shaft (73a) located in the upper portion of the rotating plate 31 is configured to rotate, the four driving unit 74 is connected to one side of the motor and the motor provided on the base 10; Consists of a belt (74a) connecting the outer circumferential surface of the pulley, the pulley and the collet portion 20, is configured to rotate the collet portion 20 by rotation of the motor.

In addition, the present invention is to rotate the rotating plate 31 with the three driving unit 73 so that the vertical position of the camera module and the lighting unit 33 matches, and then irradiate the illumination to check the image defect of the camera module, and the camera The rotating plate 31 is rotated by the third driving unit 73 so that the vertical positions of the module, the lens 32 and the second chart unit 50 coincide with each other. After receiving and analyzing the focus state, if the camera module is not the optimal focus state, the socket board 41 is raised to the second driving unit 72 to be coupled with the collet unit 20, and the collet unit with the four driving unit 74 ( 20) by adjusting the camera module and then lowering the socket board 41 by the second driving unit 72 to prevent the contact pressure from being applied to the lens part of the camera module. Until you get to the optimal focus state. Function to perform fixed focus adjustment of the camera module, and when the camera module is in an optimal focus state, the rotary plate 31 is rotated by the third driving unit 73 so that the vertical position of the camera module and the chart part 60 coincide with each other. It is preferable to further provide an analysis means connected to the camera module to perform the function of performing the auto focus drive test.

The base 10 serves to support the camera module inspection apparatus according to the present invention to be entirely horizontal, and at the same time, transmits the rotational force to the socket boards 41 and 42 and the rotation board 31 for mounting the camera module thereon. The upper portion of the rotating shaft (73a) provided on the upper portion of the base 10 to rotate, the four driving portion 74 for rotating the collet portion 20 and the connecting member 11 vertically extending from one side of the base (10) The second chart 50 is fixed in parallel with the upper portion of the base 10.

The collet part 20 is fixed to the upper part of the base 10 to form a virtual distance of the camera module for photographing the second chart part 50, and is coupled to the camera module by the two driving parts 72 to the camera. Adjust the optimal focusing position of the lens 101 of the module.

As shown in FIG. 7, the collet part 20 is provided with a plurality of convex and concave lenses mounted on the case, and a pulley 20g is rotatably installed at the lower part of the case, so that the belt 74a of the four driving part 74 is rotated. Rotated in connection with the), the lower portion of the pulley (20g) is provided with a collet (20c) coupled to the camera module and the departure prevention portion (20b) for preventing the collet (20c) is separated.

Meanwhile, the rotating plate 31 rotated by the rotating shaft 73a is coupled to the upper portion of the rotating shaft 73a and rotated by the three driving units 73, and is configured through the lens 32 and the lighting unit 33, and at the upper portion 1. A chart unit 60 is provided.

Therefore, the lens 32, the lighting unit 33, and the chart unit 60 are rotated in conjunction with the rotating plate 31 by the rotating plate 31 rotated by the three driving units 73. In addition, when the first chart part 60 is positioned on the vertical line with the collet part 20, the rotating plate 31 of the lower side of the first chart part 60 is visible so that the first chart part 60 is visible from the collet part 20. The face is an open structure.

The socket frame 40 is coupled to a rotation shaft (not shown) of the first driving unit 71 and is rotated so that the socket boards 41 and 42 are provided on both sides of the upper part, and the socket boards 41 and 42 are two driving units. Holes are formed so as to be elevated by 72. Therefore, the elevating portion 72f (for example, the pin) of the two driving portion 72 penetrates the hole of the socket frame 40 and eventually is inserted into the hole formed in the lower portion of the socket board 41 to elevate the socket board 41. Let's do it. The analyzing means may be a terminal, connected to the camera module and the camera module inspection device to control the driving of the 1,2,3,4 driving units (71,72,73,74), the image inspection of the camera module and the automatic focus driving inspection. And analyzing the photographing information of the camera module for fixed focus adjustment.

Camera Module Auto Feed Process

First, the camera module is automatically or manually mounted on the socket board 42 positioned toward the operation unit 91 as shown in FIG. 4 among the socket boards 41 and 42. Next, by driving the driving unit 71, the socket frame 40 is rotated 180 ° so that the socket board 42 on which the camera module is mounted is vertically aligned with the collet part.

After the camera module performs a series of processes by the camera inspection apparatus according to the present invention, that is, fixed focus adjustment, automatic focus driving inspection, and image inspection, the first driving unit 71 rotates the socket frame 40 by 180 ° again. Manually or automatically take out the inspected camera module. At this time, the other driving board 41 manually or automatically rotates another camera module to the other socket board 41 before the first driving unit 71 rotates the socket frame 40 by 180 ° to take out the completed camera module. Mount it.

On the other hand, the first drive unit 71 to repeat this process contributes to the continuous inspection of the camera module.

Image inspection of the camera module

When the camera module is controlled, the collet part 20 and the camera module are positioned on the same vertical line by the first driving part 71 in the process of automatically supplying the camera module, the third driving part 73 rotates the rotating plate 31 to rotate the rotating plate 31. The lighting unit 33 provided at 31 is positioned on the same vertical line as the camera module and the collet unit 20. Next, the lighting unit 33 is operated to irradiate the camera module with light, and to check whether the camera module has an image defect.

Fixed focus adjustment of camera module

When the image inspection of the camera module is completed, the third driving unit 73 rotates the rotating plate 31 to position the lens 32 provided on the rotating plate 31 on the same vertical line as the camera module and the collet unit 20. At this time, since the second chart part 50 is positioned on the same vertical line as the lens 32, the camera module, and the collet part 20, whether the photographed image is clear after capturing the second chart part 50 with the camera module. If it is determined that it is clear, it is completed. If it is not clear, the second drive unit 72 is driven to raise the socket board 41 on which the camera module, which is the controlled object, is mounted, to be coupled with the collet part 20.

Next, when the pulley 20g of the collet part 20 is rotated by driving the four driving part 74, the camera module, which is an adjustable body, is adjusted. When the camera module is adjusted by the four driving unit 74, the second driving unit 72 is driven again to lower the socket board 41 and photograph the second chart unit 50 again with the camera module. If this process is repeated, the fixed focus adjustment of the camera module is completed.

Of camera module AF (Auto focus) driving test

When the focusing test of the camera module is completed, the driving unit 73 is driven to position the lighting unit 33 on the vertical line with the camera module, and the image inspection is performed again. When the image inspection is completed, the driving unit 3 is driven 1 The chart 60 is positioned on the vertical line between the camera module and the collet 20 and the auto focus driving test is completed through the first chart 60.

Although the present invention has been described in connection with the preferred embodiment, those skilled in the art will be able to easily make various changes and modifications without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation, and the true scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the equivalent scope are included in the present invention. Should be interpreted as.

1 to 3 is a view showing an example of a conventional camera module,

4 is a view showing a camera module inspection apparatus according to an embodiment of the present invention,

5 is a view showing the upper part of the base in the camera module inspection apparatus of FIG.

6 is a side cross-sectional view of the camera module inspection apparatus according to an embodiment of the present invention,

7 is a cross-sectional view showing in detail the collet of the configuration of the camera module inspection apparatus.

<Description of Symbols for Major Parts of Drawings>

10: base 20: collet portion

31: rotating plate 32: lens

33: lighting unit 40: socket frame

41, 42: Socket board 50: 2 chart parts

60: 1 chart part 71: 1 drive part

72: 2 driving part 73: 3 driving part

74: four-drive section

Claims (3)

In the inspection and focusing device of the camera module, A base 10 having one driving unit 71, two driving units 72, and three driving units 73 therein; A socket frame 40 provided at an upper side of the base 10 and rotated by one driving unit 71; Socket boards 41 and 42 provided on both sides of the socket frame 40 and being elevated by two driving units 72 and mounted with the camera module; A collet part 20 provided on an upper portion of the base 10 and positioned vertically of the socket board 41 and rotated by a four driving part 74 provided on an upper portion of the base 10; A rotating shaft 73a provided at an upper portion of the base 10 and connected to one side of the three driving units 73; A rotating plate 31 coupled to an upper portion of the rotating shaft 73a and rotated by the three driving units 73 and interposed between the lens 32 and the lighting unit 33; A chart part 60 provided on an upper portion of the rotating plate 31; A second chart portion 50 fixed to an upper portion of the connection member 11 extending vertically from one side of the base 10 so as to be parallel to the upper portion of the base 10; Camera module inspection and focus adjustment device comprising a. The method of claim 1, The first driving unit 71 is composed of a motor (71a) connected to the rotating shaft is configured to rotate the socket frame 40 by coupling the rotating shaft to the center of the socket frame (40); The second driving unit 72 includes a motor 72d, a ball screw 72e provided in the vicinity of the motor 72d, and a motor 72d to transfer the rotational force of the motor 72d to the ball screw 72e. Pulleys 72a and 72b provided at one side of the ball screw 72e, a belt 72c connecting the pulleys 72a and 72b, and a lifting unit provided at the other side of the ball screw 72e ( 72f) is configured to elevate the socket board 41 located in the upper portion of the socket frame 40 by the lifting unit 72f, The three driving unit 73 is composed of a motor 73b is configured to rotate the rotary plate 31 by combining the motor 73b with the rotary shaft 73a located above the base 10, The four driving unit 74 is composed of a motor provided on the upper portion of the base 10, a pulley connected to one side of the motor, and a belt 74a connecting the outer circumferential surface of the pulley and the collet portion 20, the motor Camera module inspection and focus adjustment device, characterized in that the configuration to rotate the collet portion 20 by the rotation of. The method of claim 1, A function of inspecting whether there is an image defect of the camera module by rotating the rotating plate 31 with the three driving units 73 so that the vertical positions of the camera module and the lighting unit 33 coincide with each other; The rotating plate 31 is rotated by the third driving unit 73 so that the vertical positions of the camera module, the lens 32 and the second chart unit 50 coincide with each other, and then photographs and photographs the second chart unit 50 using the ① camera module. After receiving and analyzing the data, if the camera module is not in the optimal fixed focus state, the socket board 41 is raised by the second driving unit 72 to be combined with the collet unit 20, and the collet unit by the four driving unit 74. Drive module 20 to adjust the camera module, and then lower the socket board 41 with the second driving unit 72 so that contact pressure is not applied to the lens part of the module to perform accurate focus measurement. Performing fixed focus adjustment of the camera module by repeating until the optimum focus state is achieved; When the camera module is in an optimal focus state, rotating the rotary plate 31 with the third driving unit 73 so that the vertical positions of the camera module and the first chart unit 60 coincide with each other and performing an auto focus driving test; Camera module inspection and focusing device, characterized in that further comprising an analysis means connected to the camera module to perform.

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