KR200328579Y1 - Inspection jig assembly for module - Google Patents

Abstract

Jig assembly for module inspection according to the present invention, the module inspection unit is located; A probe card mounting unit in contact with a pattern of a module positioned in the module inspection unit, and having a probe card mounted thereon to apply an electrical signal to the module; Probe card mounting unit driving means for moving the probe card mounting unit up, down, left, right and before and after; And a lens unit having a lens for forming an image processed by the module. According to the above configuration, there is an advantage that the performance of the module in the component stage can be easily inspected.

Description

Jig assembly for module inspection {Inspection jig assembly for module}

The present invention relates to a module inspection jig assembly that can test the performance of the module embedded in mobile phones, PDAs, smartphones, notebook computers and computers, more specifically, a module inspection jig that can inspect the module in the part state To an assembly.

Recently, mobile phones, PDAs, smart phones, laptops and computers have been developed to combine various functions. In particular, a separate digital camera is connected to the terminal to capture a desired image, and the development of technology supporting various functions such as image information transmission and image communication is active.

In addition, mobile communication terminals such as mobile phones and smart phones have a digital camera embedded in the main body of the terminal, and the direction of development is changing to a built-in digital camera that can be used anytime and anywhere. Accordingly, digital camera modules embedded in mobile communication terminals such as mobile phones have gradually become smaller.

1A is a diagram illustrating a conventional digital camera module unit for a mobile phone being miniaturized, and as illustrated in FIG. 1A, the digital camera module unit 10 for a mobile phone may include a printed circuit board having one or more chips mounted therein ( Miniature connector (40) to the module 20 formed by coupling with the injection exterior and the flexible printed circuit (FPC) 30 connected to the end of the pattern 26 of the module 20 Is combined. In addition, the upper part of the module 20, the digital camera lens component 24 is screwed.

Figure 1b is a schematic diagram showing a method for inspecting a conventional digital camera module unit for embedding a mobile phone. As shown in FIG. 1B, in order to check the performance of the digital camera module unit 10, the mini female connector of the digital camera module unit 10 is brought into contact with the male connector installed on the header board 50, and the header The result was confirmed using a monitor of the image processing controller 60 connected to the board 50.

In the conventional method of checking the performance of the digital camera module unit as described above, the inspection is performed in the finished state after the module unit is completed. Therefore, when the inspection resulted in a defect of the module unit product, it was not possible to know whether it was a defect of a part of the module unit, that is, a module, an FPC or a mini female connector. Therefore, there is a problem that the loss is increased by discarding the entire module unit where the defect is found. Therefore, there is a need for a device capable of inspecting product defects for each process step of a module unit, that is, for each component.

The present invention has been devised to solve the above problems, the object of the present invention is a jig assembly for inspecting the digital camera module that can individually check the performance of the digital camera module embedded in the mobile phone, PDA, notebook and computer at the component level. To provide.

Figure 1a is a schematic diagram showing a conventional built-in digital camera module unit for a mobile phone.

Figure 1b is a schematic diagram showing a method for inspecting a conventional built-in digital camera module unit for a mobile phone.

Figure 2 is a perspective view showing a jig assembly for inspection of the digital camera module according to the present invention.

Figure 3a is a schematic front view showing the main part of the jig assembly for inspection of the digital camera module according to the present invention.

Figure 3b is a schematic side view showing the main part of the jig assembly for inspection of the digital camera module according to the present invention.

Figure 3c is a schematic plan view showing the main part of the jig assembly for inspection of the digital camera module according to the present invention.

Explanation of symbols on the main parts of the drawings

100: jig assembly for module inspection 200: module inspection stage

210: module 220: guide part

240: air pressure alignment cylinder 242: select switch

244: solenoid valve 300: probe card mounting portion

310: probe card 312: needle

320: mounting base 330: fixing screw

342,344,346,442,444,446: Micrometer 400: Lens part

410: lens mounting bar 412: digital camera lens

420: color inspection plate

According to an aspect of the present invention to achieve the above object, a module inspection jig assembly that can individually inspect the performance of the module embedded in a mobile phone, PDA, notebook, computer, etc. at the component stage can be provided.

According to a preferred embodiment, the module inspection jig assembly is a module inspection unit in which the module is located, a probe card mounting unit in which a probe card for applying an electrical signal to the module in contact with the pattern of the module located in the module inspection unit, the And a lens unit including a probe card mounting unit driving means for moving the probe card mounting unit up, down, left, right, and front and back, and a digital camera lens for forming an image processed by the module. It is done.

According to the above configuration, it is possible to provide a module inspection-only jig assembly that can easily inspect the performance of the module in the state of the part without the FPC or connector, etc., thereby reducing the loss to reduce the productivity of the module unit There is an advantage to increase.

Hereinafter, a preferred embodiment of a digital camera module inspection jig assembly according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view showing a jig assembly for inspecting a digital camera module according to the present invention, Figure 3a is a schematic front view showing a jig assembly for inspecting a digital camera module according to the present invention, Figure 3b is a digital camera module inspection according to the present invention 3 is a schematic plan view showing a jig assembly for inspecting a digital camera module according to the present invention.

2 to 3C, the jig assembly 100 for inspecting the digital camera module according to the present invention is an electrical signal to the module inspecting unit in which the digital camera module 210 is located and the module 210 located in the module inspecting unit. Probe card mounting unit 300 is mounted to the probe card for applying the probe card mounting unit driving means for moving the probe card mounting unit 300 up, down, left, right and front and rear, by the module 210 The lens unit 400 includes a digital camera lens for forming an image to be processed, and lens unit driving means for moving the lens unit 400 up, down, left, right, and front and back.

The module inspection unit is composed of a module inspection stage 200 having a guide portion 220 so that the module 210 is positioned at right angles, the module inspection stage 200 is the module 210 is moved during the inspection It is provided with a vacuum suction surface (not shown) to prevent.

The module inspection stage 200 may be configured to be Shanghai-dong, for example, it may use an air pressure alignment cylinder 240. As shown in FIG. 2, the pneumatic alignment cylinder 240 includes a solenoid valve 244 controlled by the select switch 242. Reference numeral 246 denotes a tube through which air pressure is transmitted. Further, reference numeral 110 denotes a base portion of the jig assembly, and 230 denotes a table on which the module to be inspected is placed.

The probe card mounting unit 300 is mounted on both sides of the probe card 310 and fixed between the left and right mounts 320, and both sides of the probe card 310 between the mounting unit 320 is inserted into this state. It consists of fixing screws 330 for fixing.

The probe card mounting unit driving means may be composed of, for example, an adjusting screw member. In this embodiment, the micrometer 342 (see FIG. 3B) for moving the probe card mounting unit 300 up and down, that is, on the Z axis, is used. And a micrometer 344 for moving the probe card mounting unit 300 to the left and right, that is, on the X axis, and a micrometer 346 for moving the probe card mounting unit 300 to the front and back, that is, on the Y axis.

The lens unit 400 has a long rod shape and a color of an image implemented by the lens mounting bar 410 and the module 210 having the digital camera lens 412 for inspection at a position corresponding to the module 210. Consists of a color inspection plate 420 to confirm.

Thus, according to this configuration of the present invention, it is not necessary to screw the digital camera lens component to the module 210 in order to form an image processed by the module 210. As a result, the performance of the module 210 can be easily confirmed by using the inspection digital camera lens 412, thereby increasing inspection efficiency.

The color inspection plate 420 fixed to an upper portion of the same shaft as the lens mounting bar 410 is rotatable to the left and right sides of the lens mounting bar 410. Therefore, color inspection of the image implemented by the module can be selectively performed as necessary. The color inspection plate 420 may be replaced and used for each color to be inspected.

The lens unit driving means may use, for example, an adjustment screw member. In this embodiment, the micrometer 442 for moving the lens unit 400 up and down, that is, on the Z axis, and the lens unit 400 are moved. The micrometer 444 moves to the left and right, that is, on the X axis, and the micrometer 446 moves the lens unit 400 back and forth, that is, on the Y axis.

Hereinafter, a method of inspecting a digital camera module using a digital camera module inspection jig assembly according to the present invention will be described with reference to FIGS. 2 to 3C.

First, the digital camera module 210 to be inspected, which has been placed on the module table 230, is set in the guide unit 220 of the module inspection stage 200. At this time, the module inspection stage 200 at the position where the module 210 is set is made of a vacuum suction surface to prevent the module 210 from being moved during the inspection.

Next, the position of the probe card 310 is adjusted up, down, left, and right using the micrometers 342, 344, and 346, which are the driving means of the probe card mounting unit 300, and the select switch 242 of the solenoid valve 244 is adjusted to provide a module. By adjusting the vertical position of the test stage 200, the end of the needle 312 of the probe card 310 is in the center of the pattern 212 of the module 210.

Next, in order to form an image processed by the module 210, the up, down, left and right positions of the lens mounting bar 410 are adjusted by using the micrometers 442, 444, and 446, which are driving means of the lens unit 400. The inspection digital camera lens 412 is placed at a position corresponding to the module 210.

In this state, an electrical signal is applied using an electrical signal applying device (not shown) connected to the probe card 310 and the result is confirmed using a monitor of a conventional image controller (not shown). In other words, it checks the performance of the module by checking for abnormalities (staining, slanting, etc.) of the image displayed on the monitor.

According to the configuration of the present invention described above it is not necessary to screw the digital camera lens component to the module 210 to test the performance of the digital camera module can further improve the inspection efficiency.

Also, if necessary, the color inspection plate 420, which is fixed to the image side of the lens mounting bar 410 so as to rotate left and right, can be moved to the upper side of the inspection digital camera lens 412 to selectively perform color inspection. Can be. The color inspection plate 420 may be replaced and used for each color to be inspected. Accordingly, the color of the image implemented by the module 210 can also be simply checked.

After the inspection, the module stage 200 is moved downward using the air pressure alignment cylinder 240 to put down the inspected module 210 and then set the module to be inspected on the module stage 200 and the module stage 200. Can be inspected by moving upwards again. At this time, since the previous probe card mounting unit 300 and the lens unit 400 are already set, there is no need to adjust them separately, such that the pattern 212 of the module 210 and the needle 312 of the probe card 310 come into contact with each other. It is only necessary to move the module stage 200 upward. Therefore, according to the configuration of the present invention can further improve the inspection efficiency.

Although described above with reference to a preferred embodiment of the present invention, those of ordinary skill in the art variously devised the present invention without departing from the spirit and scope of the present invention described in the utility model registration claims below It will be appreciated that modifications and variations can be made.

That is, the above description has been made in relation to the digital camera module, but the present invention can be widely applied for various module inspection for electrically processing an image formed through a lens.

As described above, according to the present invention, it is possible to provide a module inspection-only jig assembly which can easily check the performance of the module embedded in a mobile phone, PDA, notebook, computer, etc. in a short time at the component stage, and thus the module unit The effect of increasing the production efficiency can be achieved.

In addition, according to the above configuration in the present invention, it is possible to achieve the effect of further improving the module inspection efficiency.

Claims (6)

In the jig assembly for module inspection, A module inspection unit in which the module is located; A probe card mounting unit in contact with a pattern of a module positioned in the module inspection unit, and having a probe card mounted thereon to apply an electrical signal to the module; Probe card mounting unit driving means for moving the probe card mounting unit up, down, left, right and before and after; And Jig assembly for module inspection, characterized in that it comprises a lens unit having a lens for forming an image processed by the module. According to claim 1, wherein the probe card mounting portion driving means, A first micrometer for moving the probe card mounting portion up and down, that is, on the Z axis; A second micrometer for moving the probe card mounting portion to the left and right, that is, on the X axis; Jig assembly for module inspection characterized in that it comprises a third micrometer for moving the probe card mounting portion back and forth, that is, on the Y axis. According to claim 1 or 2, wherein the module inspection unit jig assembly for module inspection, characterized in that the vacuum suction surface for preventing the movement of the module during the inspection. The jig assembly for a module inspection according to claim 1 or 2, wherein the module inspection unit is configured to adjust vertical movement by an air pressure alignment cylinder. The method of claim 1, wherein the lens unit It consists of a lens mounting bar having a digital camera lens for inspection at a position corresponding to the module in a long rod shape, Lens unit driving means for moving the lens unit up, down, left, right and before and after; And Jig assembly for module inspection, characterized in that it further comprises a color inspection plate for inspecting the color of the image implemented by the module. The method of claim 5, wherein the driving means of the lens unit, A first micrometer for moving the lens part up and down, that is, on the Z axis; A second micrometer for moving the lens unit to the left and right, that is, on the X axis; Jig assembly for module inspection, characterized in that consisting of a third micrometer for moving the lens portion back and forth, that is, on the Y axis.