TWM579270U - Lens test device - Google Patents
Lens test device Download PDFInfo
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- TWM579270U TWM579270U TW107216930U TW107216930U TWM579270U TW M579270 U TWM579270 U TW M579270U TW 107216930 U TW107216930 U TW 107216930U TW 107216930 U TW107216930 U TW 107216930U TW M579270 U TWM579270 U TW M579270U
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Abstract
本創作係提供一種鏡頭檢測裝置,係包括:一光源模組及一待測鏡頭及一影像感測模組,其中該光源模組設置有一測試圖案件且產生光源通過並產生有一測試圖案光源,該測試圖案件具有複數個測試圖案,而該具有複數個測試圖案之測試圖案光源係通過所述待測鏡頭且由所述待測鏡頭放大射出至所述影像感測模組,藉此,該鏡頭檢測裝置可經由該單一影像感測模組進行小型待測鏡頭進行檢測,該影像感測模組所呈現之複數測試圖案來判斷該待測鏡頭之光學品質,進而達到可降低檢測成本與節省檢測空間之功效。 The present invention provides a lens detecting device, comprising: a light source module, a light to be tested, and an image sensing module, wherein the light source module is provided with a test pattern member and generates a light source to pass through and generates a test pattern light source. The test pattern member has a plurality of test patterns, and the test pattern light source having the plurality of test patterns passes through the lens to be tested and is enlarged and emitted by the lens to be tested to the image sensing module, thereby The lens detecting device can detect the small test lens through the single image sensing module, and the plurality of test patterns presented by the image sensing module determine the optical quality of the lens to be tested, thereby reducing the detection cost and saving Detect the effectiveness of the space.
Description
本創作係有關於一種鏡頭檢測裝置,尤指一種可降低檢測成本與節省檢測空間之鏡頭檢測裝置。 The present invention relates to a lens detecting device, and more particularly to a lens detecting device capable of reducing the detection cost and saving the detection space.
按,隨著攝像技術之持續發展,鏡頭模組已大量的被使用,其鏡頭模組之應用範圍越來越大,已被廣泛的應用到各攝像裝置中,而攝像裝置也包括相當多的種類,例如數位相機或具照相功能之行動裝置,而鏡頭模組也是各攝像裝置可擷取影像最主要之元件,但鏡頭模組品質之優劣則是直接影像到數位影像之顯示品質,因此,鏡頭模組於出廠前均需經過檢測,以確定製造完成的鏡頭模組符合原設計之規範且保證其出廠良率,而習知鏡頭模組檢測主要是使用以一個光源模組產生光源且由測試圖案件送出,該測試圖案件具有一測試圖案,然後再以複數個感測鏡頭去測試該待測鏡頭模組各位置之光學品質,而複數個感測鏡頭則是需同時設置於一移動平台上,但其測試方式會造成許多問題產生,首先就是其多個感測鏡頭所耗費之檢測成本高,並且其多個感測鏡頭需精準排列於移動平台上,更且若其待測鏡頭為小型之鏡頭時,其係呈現小視角之射出光源,便無法以多個感測鏡頭進行檢測,因其小型之待測鏡頭所透出之測試圖案並無法同時呈現於各感測鏡頭上,若要將其小型待測鏡頭之測試圖案同時呈 現於各感測鏡頭上時,則需要拉長其待測鏡頭與檢測鏡頭間之距離,但在距離加大之情況下,其移動平台所需要之空間與檢測鏡頭數量也相對增加,會有檢測成本與檢測空間提高之問題產生,也因此,習知並沒有針對小型之待測鏡頭進行檢測之檢測裝置。 According to the continuous development of the camera technology, the lens module has been widely used, and the application range of the lens module is getting larger and larger, and has been widely applied to various camera devices, and the camera device also includes quite a lot of Types, such as digital cameras or mobile devices with camera functions, and the lens module is also the most important component for capturing images, but the quality of the lens module is the display quality of direct images to digital images. The lens module must be tested before leaving the factory to determine that the manufactured lens module meets the original design specifications and guarantees its factory yield. The conventional lens module detection mainly uses a light source module to generate the light source. The test pattern member is sent out, the test pattern member has a test pattern, and then the optical quality of each position of the lens module to be tested is tested by using a plurality of sensing lenses, and the plurality of sensing lenses are simultaneously set to be moved. On the platform, but its testing method will cause many problems. The first is that the cost of detecting multiple sensing lenses is high, and its multiple sensing The head needs to be precisely arranged on the mobile platform, and if the lens to be tested is a small lens, the light source that emits a small angle of view can not be detected by multiple sensing lenses, because of the small lens to be tested. The test pattern that is revealed cannot be presented on each sensing lens at the same time, and the test pattern of the small test lens is simultaneously presented. When it is used on each sensing lens, it needs to lengthen the distance between the lens to be tested and the detecting lens. However, when the distance is increased, the space required for the moving platform and the number of detecting lenses are relatively increased. The problem of increased detection cost and detection space arises, and therefore, there is no known detection device for detecting a small lens to be tested.
故,如何將上述缺失問題加以改進,乃為本案創作人所欲解決之技術困難點之所在。 Therefore, how to improve the above-mentioned missing problems is the technical difficulty point that the creators of this case want to solve.
爰此,為有效解決上述之問題,本創作之主要目的在提供一種可降低檢測成本與節省檢測空間之鏡頭檢測裝置。 Therefore, in order to effectively solve the above problems, the main purpose of the present invention is to provide a lens detecting device which can reduce the detection cost and save the detection space.
為達上述目的,本創作係提供一種鏡頭檢測裝置,係包括:一光源模組及一待測鏡頭及一影像感測模組,其中該光源模組於上方一側邊位置處設置有一測試圖案件,該測試圖案件上具有複數個測試圖案,而該光源模組會產生有光源,該光源會通過所述測試圖案件,並由該測試圖案件產生有一測試圖案光源,並該測試圖案光源中會具有所述複數個測試圖案,另該待測鏡頭係設置於所述測試圖案件上方位置處,並該待測鏡頭之全角視角與半角視角分別為6至16度與3至8度,而該測試圖案光源係通過所述待測鏡頭且由所述待測鏡頭放大射出,另該影像感測模組係設置於所述待測鏡頭相對該測試圖案件另一側位置處,並該影像感測模組與該待測鏡頭間具有一待測距離,且該影像感測模組之寬度大於所述放大測試圖案光源所呈現之寬度,而其經由待測鏡頭所放大之測試圖案光源係射至所述影像感測模組,藉此,該鏡頭檢測裝置可經由該單一影像感測模組進行小型待測鏡頭進行檢測,該影像感測模組所呈現之複數測試圖案來判 斷該待測鏡頭之光學品質,進而達到可降低檢測成本與節省檢測空間之功效。 In order to achieve the above objective, the present invention provides a lens detecting device, comprising: a light source module, a to-be-tested lens and an image sensing module, wherein the light source module is provided with a test chart at a position on the upper side In the case, the test pattern member has a plurality of test patterns, and the light source module generates a light source, the light source passes through the test pattern member, and a test pattern light source is generated from the test pattern member, and the test pattern light source is generated. The plurality of test patterns are provided, and the lens to be tested is disposed at a position above the test pattern member, and the full-angle angle of view and the half angle angle of the lens to be tested are 6 to 16 degrees and 3 to 8 degrees, respectively. The test pattern light source passes through the lens to be tested and is enlarged and emitted by the lens to be tested, and the image sensing module is disposed at a position of the other side of the test pattern relative to the test lens, and The image sensing module and the lens to be tested have a distance to be measured, and the width of the image sensing module is greater than the width of the light source of the enlarged test pattern, and the image is placed through the lens to be tested. The test pattern light source is incident on the image sensing module, wherein the lens detecting device can perform detection on the small to-be-tested lens through the single image sensing module, and the plurality of tests are performed by the image sensing module Pattern to judge The optical quality of the lens to be tested is broken, thereby achieving the effect of reducing the detection cost and saving the detection space.
1‧‧‧鏡頭檢測裝置 1‧‧‧Lens detection device
2‧‧‧光源模組 2‧‧‧Light source module
21‧‧‧光纖固定座 21‧‧‧Fiber holder
22‧‧‧光纖線組 22‧‧‧Fiber optic cable set
23‧‧‧測試圖案件 23‧‧‧Test pattern pieces
231‧‧‧測試圖案光源 231‧‧‧Test pattern light source
232‧‧‧測試圖案 232‧‧‧ test pattern
3‧‧‧待測鏡頭 3‧‧‧Densor to be tested
31‧‧‧待測距離 31‧‧‧Down distance
4‧‧‧影像感測模組 4‧‧‧Image Sensing Module
第1圖係本創作較佳實施例之示意圖。 BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic illustration of a preferred embodiment of the present invention.
第2圖係本創作較佳實施例之局部實施示意圖。 Figure 2 is a partial schematic view of a preferred embodiment of the present invention.
第3圖係本創作較佳實施例之實施示意圖。 Figure 3 is a schematic diagram of the implementation of the preferred embodiment of the present invention.
請參閱第1圖及第2圖及第3圖所示,係為本創作較佳實施例之示意圖及局部實施示意圖及實施示意圖,由圖中可清楚看出,其中所述鏡頭檢測裝置1係包括有一光源模組2及一待測鏡頭3及一影像感測模組4,其中該光源模組2係具有一光纖固定座21及一光纖線組22,該光纖線組22係通過且組設於該光纖固定座21上,另該光源模組2上設置一測試圖案件23,該測試圖案件23上具有複數個測試圖案232,其測試圖案232於本實施例中係以五個十字圖案為實施方式,但其測試圖案232之數量與圖形並不因此侷限,而該光源模組2之光纖線組22係可產生有光源,且其光源係通過所述測試圖案件23,並其通過所述測試圖案件23之光源係為一測試圖案光源231,該測試圖案光源231上也形成有所述複數測試圖案232,另該待測鏡頭3係設置於所述測試圖案件23上方位置處,即為該待測鏡頭3係設置於所述測試圖案件23相對該光源模組2另一側位置處,而該通過所述測試圖案件23之測試圖案光源231係直接通過所述待測鏡頭3,並該測試圖案光源231通過 所述待測鏡頭3時,該待測鏡頭3會將該測試圖案光源231放大且射出,而該待測鏡頭3所射出之測試圖案光源231全角視角範圍為6至10度,而半角視角範圍為3至5度,又其中由所述待測鏡頭3所射出之測試圖案光源231係照射至所述影像感測模組4,該影像感測模組4係設置於所述待測鏡頭3相對該測試圖案件23另一側位置處,且該影像感測模組4口徑距離為40mm至60mm之間,並該影像感測模組4之寬度大於所述放大測試圖案光源231所呈現之寬度,另該影像感測模組4與該待測鏡頭3間具有一待測距離31,該待測距離31為20mm至100mm之間,藉此,該鏡頭檢測裝置1可經由該單一影像感測模組4來對全角視角範圍為6至16度、半角視角範圍為3至8度之小型待測鏡頭3進行檢測,且該影像感測模組4可經由該測試圖案光源231中之複數測試圖案232來判斷該待測鏡頭3進行光學品質之檢測,進而達到可降低需要設置多組影像感測模組4之檢測成本與節省檢測空間之功效。 Please refer to FIG. 1 and FIG. 2 and FIG. 3, which are schematic diagrams and partial implementation diagrams and implementation diagrams of a preferred embodiment of the present invention. It can be clearly seen from the drawings, wherein the lens detecting device 1 is The light source module 2 includes a fiber optic holder 21 and a fiber optic cable group 22, and the fiber optic cable group 22 passes through and is assembled. The test pattern member 23 is provided with a test pattern member 23, and the test pattern member 23 has a plurality of test patterns 232, and the test pattern 232 is five crosses in this embodiment. The pattern is an embodiment, but the number and pattern of the test patterns 232 are not limited thereto, and the fiber optic line group 22 of the light source module 2 can generate a light source, and the light source passes through the test pattern member 23, and The light source passing through the test pattern member 23 is a test pattern light source 231. The test pattern light source 231 is also formed with the plurality of test patterns 232, and the test lens 3 is disposed above the test pattern member 23. Where is the 3 lens of the lens to be tested The test pattern member 23 is disposed at a position opposite to the other side of the light source module 2, and the test pattern light source 231 passing through the test pattern member 23 directly passes through the lens 3 to be tested, and the test pattern light source 231 by When the lens 3 to be tested is to be tested, the test pattern light source 231 is enlarged and emitted, and the test pattern light source 231 emitted from the lens 3 to be tested has a full-angle viewing angle ranging from 6 to 10 degrees, and the half angle viewing angle range. The test pattern light source 231 emitted from the lens 3 to be tested is irradiated to the image sensing module 4, and the image sensing module 4 is disposed on the lens 3 to be tested. The image sensing module 4 has a width greater than 40 mm to 60 mm, and the image sensing module 4 has a width greater than that of the enlarged test pattern light source 231. Width, another image sensing module 4 and the lens 3 to be tested have a distance 31 to be measured, the distance 31 to be measured is between 20 mm and 100 mm, whereby the lens detecting device 1 can pass the single image sense The measuring module 4 detects the small to-be-measured lens 3 with a full-angle viewing angle ranging from 6 to 16 degrees and a half-angle viewing angle ranging from 3 to 8 degrees, and the image sensing module 4 can pass through the plurality of the test pattern light sources 231 Testing the pattern 232 to determine the optical quality of the lens 3 to be tested, and further The utility model can reduce the detection cost of the multiple sets of image sensing modules 4 and save the detection space.
需陳明者,以上所述僅為本案之較佳實施例,並非用以限制本創作,若依本創作之構想所作之改變,在不脫離本創作精神範圍內,例如:對於構形或佈置型態加以變換,對於各種變化,修飾與應用,所產生等效作用,均應包含於本案之權利範圍內,合予陳明。 It should be noted that the above is only the preferred embodiment of the present case and is not intended to limit the creation. If the changes made in accordance with the concept of the creation are within the scope of the spirit of the creation, for example, for the configuration or arrangement The type is transformed, and the equivalent effect of various changes, modifications and applications shall be included in the scope of the case and shall be combined with Chen Ming.
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TW107216930U TWM579270U (en) | 2018-12-13 | 2018-12-13 | Lens test device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2022161756A1 (en) | 2021-02-01 | 2022-08-04 | Trioptics Gmbh | Device and method for measuring an optical property of an optical system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2022161756A1 (en) | 2021-02-01 | 2022-08-04 | Trioptics Gmbh | Device and method for measuring an optical property of an optical system |
DE102021102246A1 (en) | 2021-02-01 | 2022-08-04 | Trioptics Gmbh | Device and method for measuring an optical property of an optical system |
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