TW201007154A - Device for detecting flare in lens module and method for the same - Google Patents

Abstract

A device for detecting flare in lens module, includes a base, an optical magnifying unit, a curved glide orbit and a light source. The base includes a supporting plate. The supporting plate includes a through hole in the middle for housing a lens module to be detected. The optical magnifying unit is fixed on the base and configured for detecting flare in the lens module. The optical axis of the optical magnifying unit and the center axis of the through hole are aligned. The curved glide orbit is disposed opposite to the base and an imaginary center of the glide orbit is overlap with an imaginary center of the through hole. The light source is disposed on the curved glide orbit. The light source is slidable along the curved glide orbit. The present invention also provides a method for detecting flare in lens module.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a glare detecting device and a detecting method, and more particularly to a lens module glare detecting device and a detecting method thereof. [Prior Art] In recent years, with the development of optical products, the application range of lens modules has continued to expand, such as digital cameras and electronic products with camera functions. ^Electricity, the product 'especially consumer electronics' has a trend of being lighter and thinner, and the corresponding lens modules are becoming smaller and smaller. The precision requirements are also increasing. Since the camera module is oriented in a light, thin and short direction, the camera module is still compressed. Therefore, the number and size of the mechanical components inside the camera module are relatively compressed and reduced, so that the mechanism originally used to block glare or eliminate glare is caused. Parts cannot be placed, making glare easily visible in the lens. In order to avoid the glare caused by the reflection or refraction of the light between the parts to reduce the image quality, it must be considered in the design of the lens module mechanism, and the glare of the lens module is detected after the design is completed. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a lens module glare detecting device capable of detecting glare in a lens module and a detecting method thereof. A lens fishing glare level measuring device, the glare situation in the material mirror group (4), comprising: a base, the base comprises a carrying platform, the central part of the carrying platform has a receiving through hole, the receiving pass The hole is used for accommodating a to-be-detected mirror _ group; an optical amplifying unit, the optical amplifying unit 201007154 is fixed above the pedestal, and the optical axis of the optical amplifying unit and the center line of the accommodating through hole are in a In a straight line, the optical amplifying unit is configured to observe the lens module; a circular arc-shaped sliding rail is disposed opposite to the base and the center of the circular arc-shaped sliding rail and the bearing platform are The center of the through hole is coincident; and a light source is disposed on the sliding handle, and the light source is slidable along the sliding rail. A glare detecting method for detecting glare in a ❹ lens module by using a lens module glare detecting device as described above, the glare detecting method comprising the steps of: placing the glare detecting device in a dark room or using a black mask Providing a lens module to be inspected, and placing the lens module in a receiving through hole of the carrying platform; using the light source to illuminate the lens module, and using the optical amplifying unit to observe the lens module The glare is formed; the light source is moved at different angles on the circular arc track, and the glare generating position in the lens module is observed using the optical amplifying unit. Compared with the prior art, the lens module glare detecting device package of the present invention includes an optical amplifying unit, a base and a light source disposed on the sliding rail, and the lens module to be detected is placed on the carrying platform of the base. The optical amplifying unit is used to observe the glare in the lens module to generate the mud, and the light source is moved at different angles on the month to observe the glare generating position. According to the observation results, the inspector can judge the position of the glare and timely correct the mechanism design of the mirror module according to the detection result, and quickly correct the lens mold design defect in the development stage, improve the efficiency of developing the lens module, and reduce the production cost. [Embodiment] The present invention will be further described in detail below with reference to the accompanying drawings. 201007154 Please refer to FIG. 1 to FIG. 2, which are schematic diagrams of a glare detecting device 100 and a lens module 200 to be detected according to an embodiment of the present invention. The glare detecting device 100 is for detecting a glare situation in the lens module 200. The glare detecting apparatus 100 sequentially includes an optical amplifying unit 12, a susceptor 14, and a circular arc-shaped slider 16 along the optical axis/direction. The base 14 includes a carrier platform 142. The carrying platform 142 has a fixed rod 144 thereon. The center of the carrying platform 142 has a receiving through hole 1422. The receiving through hole 1422 is configured to receive the lens module 200 to be inspected, or the receiving through hole 1422 can be used to accommodate a lens carrying platform 18. The lens carrying platform 18 is disposed in the receiving through hole 1422 of the carrying platform 142. The lens carrying platform 18 has a circular through hole 182 at the center thereof for carrying the lens module 200 to be detected. The advantage of this arrangement is that when detecting lens modules of different outer diameters, it is only necessary to replace the lens carrier 18 having circular through holes 182 of different sizes. That is, the glare detecting apparatus 100 may include a plurality of lens bearing φ stages 18, and the circular through holes 182 of the plurality of lens carrying stages 18 have different aperture sizes to accommodate the lens module 200 for accommodating different outer diameters. . A convex ring (not shown) is disposed on the inner side of the aperture of the receiving through hole 1422, and the convex ring is used for fixing the lens module 200 to be detected or for fixing the lens carrier 18 (if used). Correspondingly, a convex ring 1822 is disposed inside the aperture of the circular through hole 182 of the lens carrier 18, and the convex ring 1822 is used for fixing the lens module 200 to be detected, as shown in FIG. It should be noted that the bottom surface of the convex ring 1822 is preferably surface atomized to roughen its surface to prevent its glare from affecting the detection of the glare detecting device 200. The fixing rod 144 is disposed on the end surface of the carrying platform 142, and the fixing rod 144 and the end surface of the carrying platform 142 are adhered to each other. The optical amplifying unit 12 is fixed to the fixing rod 144, and the optical center axis of the optical amplifying unit 12 and the center line of the receiving through hole 1422 are in a straight line, both along the optical axis/direction. The optical amplifying unit 12 includes an observation unit 121 through which an operator can observe the light in the lens module 200 through the optical amplifying unit 12 with the eye facing the observation unit 121. The optical amplifying unit 12 is disposed opposite the carrying platform 142. The optical observation range is aligned with the receiving through hole 1422 of the carrying platform 142. In this embodiment, the optical amplifying unit 12 is an optical magnifying glass, which may also be an optical amplifier or other optical amplifying device. The optical amplifying unit 12 can also be fixed above the susceptor 14 by other means. For example, the optical amplifying unit 12 is directly fixed on the pedestal 14 or the optical amplifying unit 12 is not in contact with the pedestal 14 but is an optical amplifying unit 12 . The suspension is mounted above the base 14. The circular arc-shaped slide rail 16 is disposed opposite to the base 14 , and the center of the circular arc-shaped slide rail 16 coincides with the center of the receiving through-hole 1422 of the carrying platform 142 to be an optical axis/upper point. The slider 16 is provided with a light source 162 that is slidable along the slider 16. The source 162 is a point source or a parallel line source. The light source 162 is aligned with the through hole 1422 of the middle of the carrying platform 142. When the glare detecting device 100 is used, the light source 162 can be moved at different angles on the circular arc-shaped slide rail 16, and the glare generating position in the lens module 200 can be observed using the optical amplifying unit 12. In the embodiment, the arc-shaped sliding handle 16 has a semi-circular arc shape, and may also be a quarter arc or a circular arc of other sizes. 201007154 The glare detecting method for detecting the glare in the lens module 200 by using the singular glare detecting δ, and the glare detecting method includes the following steps: placing the glare detecting device 100 in a dark room or obscuring with a black mask Providing a to-be-detected lens module 200, the lens module 2 to be inspected is placed in the receiving through hole 1422 of the carrying platform 142; the light source 162 is irradiated to the lens module 2〇〇, and the The optical amplifying unit 12 observes the glare formation in the lens module 200; and moves the s-light source 162 on the arc-shaped slide rail 16 at different angles, and observes the lens module 2 using the optical amplification element 12 The glare in the ridge is generated in the embodiment, and the lens module 2 is placed in the lens carrier 18 and fixed in the receiving through hole 1422 of the carrying platform 142. Therefore, the glare detecting method further includes placing the lens module 200 in the circular through hole 182 of the lens carrying table 18, and then placing the lens carrying table 18 in the receiving through hole 1422 of the carrying platform 142.镜头 Compared with the prior art, the lens module glare detecting device of the present invention comprises an optical amplifying unit, a base and a light source disposed on the sliding track, and a mounting platform for placing the lens module to be detected on the base In the above, an optical amplifying unit is used to observe the glare generation in the lens module, and the light source is moved at different angles on the sliding handle to observe the glare generating position. According to the observation results, the inspector can judge the position of the glare and correct the mechanism design of the lens module according to the detection result, and quickly correct the design defects of the lens module in the development stage, improve the efficiency of developing the lens module, and reduce the production cost. In summary, the present invention has indeed met the requirements of the invention patent, and the patent application is filed according to law 201007154. However, the above description is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the patent application of the present invention. Equivalent modifications or variations made by persons skilled in the art in light of the present invention are intended to be included within the scope of the following claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective exploded view of a glare detecting device and a lens module according to an embodiment of the present invention; FIG. 2 is a schematic diagram of a combination of a glare detecting device and a lens module according to an embodiment of the present invention; 3 is a perspective cross-sectional view of the lens carrier of the glare detecting device of FIG. 1. [Major component symbol description] Glare detecting device 100 Lens module 200 Optical amplifying unit 12 Base 14 Circular arc sliding 16 Loading platform 142 Fixing rod 144 Housing through hole 1422 Lens carrier 18 Circular through hole 182 Convex ring 1822 Observation unit 121 light source 162 11

Claims (1)

201007154 X. Patent application scope: • ι A lens module glare detection device for detecting the glare '-light condition' in the lens module includes: a base, the base includes a carrying platform, and the carrying platform The center has a receiving through hole for receiving a lens module to be detected; an optical amplifying unit, the optical amplifying unit is fixed above the base, and the optical axis of the optical amplifying unit is The center line of the receiving through hole is in a straight line, the optical amplifying unit is configured to observe the lens module; a circular arc sliding rail is disposed opposite to the base, and the circular arc shape The center of the sliding handle coincides with the center of the receiving through hole of the carrying platform; and a light source, the light source is disposed on the sliding rail, and the light source can slide along the sliding rail. 2. The lens module glare detecting device according to claim 1, further comprising a lens carrying platform disposed in the receiving through hole of the carrying platform, the lens carrying platform The center has a circular through hole for carrying the lens module. 3. The lens module glare detecting device according to claim 2, wherein the number of the lens carrying table is plural, and the aperture of the circular through hole of the plurality of lens carrying platforms is not Adapt to the lens module used to accommodate different outer diameters. The lens module glare detecting device according to claim 1, wherein the inside of the aperture of the receiving through hole is provided with a convex ring for fixing the lens module. 12 201007154 * ^ As for the lens model (4) light detecting device described in the 2nd item, the inside of the aperture of the circular hole is provided with a convex ring for fixing the lens module. 6. The lens module glare detecting device of claim 4, wherein the surface of the bottom surface of the convex ring is surface atomized to form a rough surface. 7. For example, apply for a patent (4)! The lens module glare detecting device according to the item, wherein the light source is a point light source or a parallel line light source. 8. The lens module glare detecting device according to claim 1, wherein the s-light source is aligned with the receiving through hole in the center of the carrying platform. 9 . A glare detecting method for detecting glare in a lens module by using a lens module glare detecting device according to any one of the claims of the first aspect of the invention, the glare detecting method comprising the steps of: locating the glare detecting device Providing a lens module to be inspected in a dark room or a black mask; and placing the lens module in a receiving through hole of the carrying platform; causing the light source to illuminate the lens module and using the optical The magnifying unit observes the glare formation in the lens module; moves the light source on the arc-shaped sliding rail by different angles' and uses the optical amplifying unit to observe the glare generating position in the lens module. 10. The glare detecting method of claim 9, further comprising: placing the lens module in a circular through hole of a lens carrier' and then placing the lens carrier on the carrying platform Placed in the through hole. 13