The technical field relates to a lens module, and more particularly to a lens device with a shading structure.
In general, if a strong light with a poor angle enters into a lens during the use of a camera, the captured image will be of poor quality, or light spots will show up and the overall captured image will be hazy in a worst case scenario. Therefore, a hood is added and installed at the front of a conventional camera to reduce the loss of image quality caused by stray light during shooting and improve the color and saturation of the captured image.
In addition, a commercially available skin testing equipment uses a lens module to take a close-up shot of a skin to be tested, and then performs analysis based on the captured skin image to learn the physiological condition of the skin to be tested. In
With reference to
In view of the aforementioned drawback of the prior art, the discloser of this disclosure based on years of experience in the related industry to conduct extensive research and experiment, and finally provided a feasible solution as disclosed in this disclosure to overcome the drawback of the prior art.
Therefore, it is a primary object of this disclosure to provide a lens device with a shading structure, and its hood structure includes a shading section extending outwardly from a front edge of a lens barrel for blocking a light reflected from a reflector and preventing the light from entering into a lens barrel directly, so as to avoid the light with a poor angle from entering into the lens barrel to affect the quality of image
In an embodiment of this disclosure, the lens device with a shading structure comprises a control module, a light emitting module, lens module, a focusing lens, a reflector and a hood. The control module comprises a control circuit board and a photosensitive element installed on the control circuit board; the light emitting module comprises a light source circuit board and a light emitting element installed on the light source circuit board, and the light source circuit board is electrically coupled to the control circuit board; the lens module is configured to be corresponsive to the photosensitive element and installed on a side of the control circuit board, and the lens module comprises a lens barrel and a plurality of lenses installed in the lens barrel; the focusing lens is installed at a front end of the lens module; the reflector is installed between the lens module and the focusing lens and capable of reflecting a light emitted by the light emitting element and passing the light out of the focusing lens; the hood is coupled to lens barrel and has a shading section extending outwardly from a front edge of the lens bane and provided for blocking the light reflected by the reflector and prevent the light from entering into the lens barrel directly.
Compared with the prior art, the lens device of this disclosure has a hood structure wherein the shading section extends outwardly from the front edge of the lens barrel to block the light reflected by the reflector and prevent the light from entering into the lens barrel directly. In other words, such structure ensures that the light entering into the lens barrel is the light entering from the focusing lens instead of the light reflected from the reflector, so as to prevent any stray light (which is a light with a poor angle) from entering into the lens barrel and affecting the imaging result and to improve image quality and practicality of this disclosure.
The technical contents of this disclosure will become apparent with the detailed description of preferred embodiments accompanied with the illustration of related drawings as follows. It is intended that the embodiments and drawings disclosed herein are to be considered illustrative rather than restrictive.
With reference to
The control module 10 comprises a control circuit board 11 and a photosensitive element 12 installed onto the control circuit board 11.
The light emitting module 20 comprises a light source circuit board 21 and a light emitting element 22 installed onto the light source circuit board 21, and the light source circuit board 21 is electrically coupled to the control circuit board 11. In this embodiment, the light source circuit board 21 has a through hole 210 formed at the center thereof, and the light emitting element 22 comes with a plural quantity, and these light emitting elements 22 are disposed around the periphery of the through hole 210.
The lens module 30 is configured to be corresponsive to the photosensitive element 12 and installed on a side of the control circuit board 11. The lens module 30 comprises a lens barrel 31 and a plurality of lenses 32 installed in the lens barrel 31 (as shown in
In addition, the focusing lens 40 is installed at a front end of the lens module 30, and the reflector 50 is installed between the lens module 30 and the focusing lens 40. The reflector 50 is provided for reflecting the light emitted by the light emitting element 22 and passing the light out of the focusing lens 40.
In this embodiment, the hood 60 and the lens barrel 31 are integrally formed. In addition, the hood 60 is coupled to the lens barrel 31 and has a shading section 61 extending outwardly from a front edge of the lens barrel 31. In
It is noteworthy that the extending length of the shading section 61 can be adjusted according to actual requirements to prevent the light having a poor angle from entering into the lens barrel 31.
Specifically, the light source circuit board 21 has a plurality of screw holes 211, and the reflector 50 has a plurality of coupling holes 51 configured to be corresponsive to the screw holes 211 respectively. The reflector 50 is fixed onto the light source circuit board 21 by passing a plurality of screws 52 into the coupling holes 51 and the screw holes 211.
Specifically, the reflector 50 is substantially in a conical shape, and reflector 50 has a first opening 501 and a second opening 502 opposite to each other, and the first opening 501 abuts against the light source circuit board 21, and the second opening 502 is coupled to the focusing lens 40, and the reflector 60 has an outer contour gradually tapered in a direction from the first opening 501 to the second opening 502.
With reference to
In this embodiment, the casing 70 comprises a detection block 71 and a handle 72 coupled to the detection block 71. The detection block 71 has an opening 710 formed at a front end thereof, and the focusing lens 40 is installed onto the opening 710. Specifically, the detection block 71 comprises a carrying base 711 and a cover 712 for covering the carrying base 711. The carrying base 711 is coupled to the handle 72, and the cover 712 has the opening 710 and combines with the focusing lens 40.
With reference to
It is noteworthy that the length of the hood 60′ extending from the front edge of the lens barrel 31 to the outside can be adjusted according to actual requirements in order to prevent any unnecessary light from entering into the lens barrel 31.
While this disclosure has been described by means of specific embodiments, numerous modifications and variations could be made thereto by those skilled in the art without departing from the scope and spirit of this disclosure set forth in the claims.
Number | Date | Country | Kind |
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201911388004.0 | Dec 2019 | CN | national |