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指向式色彩定位镜- 简中 & PCT4
雷诺有限公司 110 台北市信义区庄敬路246号7楼
Patented & Patent Pending Technology for camera/video recorders RAYNAULD™ DIRECTIVITY COLOR CALIBRATION FILTER 雷诺指向式色彩定位镜 What is “RAYNAULD™ Directivity Color Calibration Filter”? (DCC Filter)“RAYNAULD™ Directivity Color Calibration Filter” is a newly invented external camera optical filter, which allows the most demanding professional photographers to capture a scene’s “Absolute Color” or “Visual Color” using the camera’s manual white balance system to achieve the highest photographic color accuracy in all lighting condition. This dramatically reduces the steps and the time required in post-processing for color enhancements. It helps to remove the doubt and uncertainness on photo color accuracy.  This also benefits general photography public by shooting the near-to-perfect color photos or videos at profession levels anytime anywhere! “RAYNAULD™ Directivity Color Calibration Filter” is a most advanced optical filter for calibrating the camera color system on site. It is used to pin-point calibrate the camera gray system against various scenes with exact accurate compensation value before the shooting. As a result, we have a high-precision and rich in detail photo with well-structured rich colors. Despite its complex physic and optical theory, the DCC Filter has an elegant and simple design. It is easy to use with and works with remarkable results.“RAYNAULD™ Directivity Color Calibration Filter” is used to limit the range of photographic field to proceed with the color compensation towards the camera gray card system. In return, it achieves the highest color accuracy and an unprecedented life color reproduction of photos.  It does not only achieve the simple white color balance to restore the photos to the standard color temperature (e.g. 6500K or 5500K) afterwards. By doing so, all the colors in the photo will be twisted to inaccurate color when the rendered white color is forced to the standard white color!Under different lighting conditions, the absolute standard white color is rendered into different color gradation of white as being affected by ambient lights. The “RAYNAULD™ Directivity Color Calibration Filter” is very effective to achieve the most accurate color reproduction under this shooting scene.  Based on its design, DCC Filter works very well with either JPG or RAW form on all brands of cameras.Features of RAYNAULD Directivity Color Calibration Filter Purposes and users of RAYNAULD™ DCC Filter What is the main function of RAYNAULD™ DCC Filter? How to use RAYNAULD™ Directivity Color Calibration Filter ? FAQ☉ What is RAYNAULD™ Directivity Color Calibration Filterr? ☉ What is the working theory behind? ☉ What is the “ Visual Color”photo? ☉ What is the “Absolute Color” of object? ☉ What does the Full-Color Balance mean? ☉ How to take Visual Color photo with the Filter? ☉ What's wrong with Gray Card or White Card? ☉ What's wrong with the white balance lens cap? ☉ What's wrong with my camera AWB? ☉ Why should I use RAYNAULD™ DCC Filter for? ☉ What is the “Photo with Mirror Image Quality”? ☉What kinds of camera/videorec can use the DCC Filter ☉ Does RAYNAULD™ DCC Filter work with a camera flash? ================================================================================ BARREL-BASED WHITE BALANCE FILTER(a.k.a. DIRECTIVITY COLOR CALIBRATION FILTER)DCC FILTER BACKGROUND OF THE INVENTION1.    Field of the Invention:The present invention relates to image pick-up technology, and more particularly, to a barrel-based white balance filter, which comprises an opaque barrel, and a white balance component axially adjustably mounted in the opaque barrel. The invention uses the opaque barrel to isolate the color temperature beyond the viewing scene, and allows adjustment of the proportion of the amount of the color temperature of the main light source using the light transmissive property of the white balance filter of the white balance unit, achieving the effect of increasing or reducing the average color temperature like the functioning of the eyelid to adjust the intraocular pressure subject to the brightness of the main light source so that the color is closer to the human eye visual sense and personal preferencesDescription of the Related Art:White a balance filter plate (7) or white balance lens cap (6) with a filter (61) may be used with a camera (2). During application, as illustrated in FIGS. 13, 14 and 15, the balance filter plate (7) or white balance lens cap (6) is attached to the camera lens (21) of the camera (2), and then the shutter is pressed to run the manual white balance mode, getting the average white balance value of the viewing scene. This average white balance value is used as a single color temperature for photographing.Red, blue and green are three most basic colors that can be combined to make a useful range of colors. For human applications, these three primary colors are usually used, since human color vision is trichromatic. Only the values of these three primary colors are equal to each other, R = B = G, the correct white can be presented in the human vision. If white is accurately corrected or displayed, all other colors of photos or videos can be presented correctly in the human vision.The manual white balance mode of a camera is to accurately measure the average color temperature of the viewing scene for use as a color temperature reference value so that accurate colors can be exhibited in the artworks, greatly reducing further software color temperature revising works. Because the colors of photos or videos having an incorrect color temperature are inconsistent with the scene of the photography site, the high-precision human visual system can easily senses the differences, all camera artworks in incorrect color are failed artworks to all people.Each single picture of photos, videos, or live videos is presented in the human vision based on a single color temperature. The human vision can instantly senses any change or error of the color temperature. Therefore, getting the color temperature value of the scene is one of the most important works of the success of the artwork.However, attaching a conventional white balance filter plate (7) or white balance lens cap (6) for a manual white balance operation cannot accurately get the color temperature and colors of the photography scene due to poor overall design of the white balance filter plate (7) or white balance lens cap (6). When facing the white balance filter plate (7) or white balance lens cap (6) toward the viewing scene, all the surrounding lights and colors non-selectively fall upon the filter to make an incorrect average color temperature value.Actually, every color of a physical object has its particular color temperature value under every light source. When changing the shooting direction of the camera during photographing, the composition of the photograph range and color ratio are relatively changed, and the average color temperature value of each picture is also changed. So, only focus on the area of the scene to be photographed can get the most precise average white balance value.In an outdoor operation, the scene taken by the camera (2) depends upon the view angle and distance of the focus of the camera lens (21). Photographing has its scene range. During application of the white balance filter plate (7) or white balance lens cap (6), unnecessary ambient light beyond the viewed range will be received, such as sunlight, reflected light from the blue sky and white clouds can fall upon the white balance filter plate (7) or white balance lens cap (6) to mix with the incident light from the viewing scene, causing the camera (2) to get an incorrect average color temperature value for photographing. Based on this incorrect average color temperature value, a color shift problem will occur in the photos or videos thus obtained.During an indoor photography operation, all the outdoor or indoor main light source and other ambient and reflected light rays and colors from all directions will fall upon the white balance filter plate (7) or the filter (61) of the white balance lens cap (6) and enter the color temperature sensing range of the light transmissive structure thereof, giving an incorrect average white balance value to the manual white balance system, resulting in photo color distortion.In addition to general photography purposes, getting the accurate colors of objects is also very important in scientific research, color management, typography or recording works, for example, to obtain a reference color of an object at different locations or under different light source environments for color calibration to achieve consistency.SUMMARY OF THE INVENTIONThe present invention has been accomplished under the circumstances in view. It is therefore the main object of the present invention to provide a measure capable of getting the correct average white balance in a simple, rapid and low-cost manner. A barrel-based white balance filter of the present invention comprises a white balance unit that comprises a barrel and a white balance component axially adjustably mounted in the barrel. The barrel is prepared from an opaque material and attachable to a camera lens of a camera directly or by means of an engagement thread thereof. The white balance component is a milky white or gray filter having a milky white or gray annular rim axially extended from the periphery thereof, and mounted in the barrel and axially movable relative to the barrel between an extended position and a fully received position. Thus, adjusting the position of the white balance component relative to the opaque barrel causes change in the received color light gradually. When the white balance component is moved to the position where the annular rim suspends outside the opaque barrel, the amount of ambient color light received by the milky white or gray filter is greatly increased, and the surrounding color light beyond the viewing scene that falls upon the annular rim is guided into the milky white or gray filter to regulate the color temperature value.Further, when the white balance component is in the fully received position, the milky white or gray annular rim is completely received in the barrel and protected by the opaque barrel against the radiation of vivid light or reflected light during a manual white balance operation, enabling a manual white balance system of the camera using the barrel-based white balance filter to measure the average white balance value of the viewing scene accurately.Further, by means of the high precision white balance filter, the barrel-based white balance filter of the present invention can accurately measure the color temperature value accurately from a far distance for adjusting the color balance and color density, achieving perfect color temperature setting in JPG or RAW files so that the user can instantly upload perfect color photos for sharing.Further, the design of the barrel of the barrel-based white balance filter facilitates convenient use. When using the manual white balance mode, the barrel-based white balance filter can be directly attached to the camera lens, preventing intake of vivid light and color beyond the viewing range to affect color temperature measuring accuracy.RIEF DESCRIPTION OF THE DRAWINGSFIG. 1 is an exploded view of a barrel-based white balance filter in accordance with a first embodiment of the present invention.FIG. 2 illustrates the barrel-based white balance filter of the first embodiment of the present invention attached to the camera lens of a camera.FIG. 3 is a schematic sectional applied view of the first embodiment of the present invention, illustrating the white balance filter adjusted relative to the opaque barrel.FIG. 4 is an exploded view of an alternate form of the first embodiment of the present invention, illustrating the opaque barrel provided with an engagement thread for engagement with an engagement groove around the periphery of a front end of a camera lens of a camera.FIG. 5 is a sectional installed view of an alternate form of the first embodiment of the present invention, illustrating the use of a flat glass type white balance filter.FIG. 6 is a sectional installed view of a barrel-based white balance filter with a telescopic barrel in accordance with a second embodiment of the present invention.FIG. 7 corresponds to FIG. 6, illustrating the telescopic barrel of the barrel-based white balance filter fastened to a camera lens of a camera.FIG. 8 corresponds to FIG. 7, illustrating the telescopic barrel in the received status.FIG. 9 is an elevational view of a barrel-based white balance filter fastened to a smart phone in accordance with a third embodiment of the present invention.FIG. 10 illustrates the barrel-based white balance filter of the third embodiment of the present invention fastened to a tablet computer.FIG. 11 illustrates a detachable type barrel-based white balance filter used in a camera in accordance with a fourth embodiment of the present invention.FIG. 12 illustrates the detachable type barrel-based white balance filter of the fourth embodiment of the present invention equipped with a wireless circuit and a battery and mounted at a camera tripod for wireless communication with a camera or smart phone.FIG. 13 illustrates a white balance device for use with a camera according to the prior art.FIG. 14 corresponds to FIG. 13, illustrating the white balance device attached to the camera lens of the camera.FIG. 15 illustrates the use of another prior art design of white balance device with a camera.DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTReferring to FIG. 1, 2 and 3, a barrel-based white balance filter in accordance with a first embodiment of the present invention is shown. The barrel-based white balance filter comprises a white balance unit (1) that comprises a barrel (11) and a white balance component axially adjustably mounted in the barrel (11). The barrel (11) is made from an opaque material, and configured to be directly pres-fitted onto the lens (21) of a camera (2). Alternatively, the barrel (11) can be configured to provide an engagement thread (113) for engagement with an engagement groove (211) around the periphery of the front end of the camera (2) (see FIG. 4). The white balance component is a milky white or gray filter (12) having an annular rim (121) axially extended from the periphery thereof and insertable into the bore (111) in the barrel (11) for allowing adjustment of the position of the milky white or gray filter (12) relative to the barrel (11) in axial direction. When pushed the milky white or gray filter (12) to the position where the annular rim (121) is completely received in the bore (111) of the barrel (11), the milky white or gray filter (12) is received in and shielded by the opaque barrel (11). Thus, during the operation of the camera (2) under the manual white balance mode, the milky white or gray filter (12) is well protective by the opaque barrel (11) against the radiation of vivid light or reflective light, and thus, the manual white balance system of the camera (2) can measure the average white balance value of the viewing area accurately. Further, the milky white or gray filter (12) can be configured having a six-star sword head protrusion at the center to assist focusing of the lens (21). Further, the closer the position of the milky white or gray filter (12) to the core (111) of the barrel (11) is, the larger the amount of color light received will be. Adjusting the position of the milky white or gray filter (12) relative to the barrel (11) causes change in the received color light gradually. When the white-balance filter (1) is moved axially toward the outside of the bore (111) of the barrel (11) to have the annular rim (121) suspend outside the bore (111) of the barrel (11), the amount of ambient color light received by the milky white or gray filter (12) is greatly increased, and the surrounding color light beyond the scene of the viewing window that falls upon the annular rim (121) outside the bore (111) of the barrel (11) is guided into the milky white or gray filter (12) to regulate the color temperature value. Further, stop flanges (122)(112) are respectively provided at the rear side of the milky white or gray filter (12) and the orifice of the bore (111) of the barrel (11) for stopping against each other to prohibit the milky white or gray filter (12) from falling out of the barrel (11). Further, the milky white or gray filter (12) can be made a flat glass filter mounted in the bore (111) of the barrel (11) for receiving the color light of the scene viewed through the viewing window of the camera (2), obtaining an accurate average white balance value (see FIG. 5).Referring to FIGS. 6, 7 and 8, a barrel-based white balance filter in accordance with a second embodiment of the present invention is shown. In this second embodiment, the barrel (13) is a telescopic design, comprising a plurality of barrel components (131) that slide one inside another. The milky white or gray filter (12) with the annular rim (121) is slidably coupled to the front side of the barrel (13). Thus, the barrel-based white balance filter can be adjusted axially to extend or shorten the length for carrying or storage conveniently. Further, stop flanges (132)(133)(122)(123) are respectively provided at opposing front and rear sides of each of the barrel components (131) and the milky white or gray filter (12) to prohibit the barrel components (131) and the milky white or gray filter (12) from disconnection.Referring to FIGS. 9 and 10, a barrel-based white balance filter in accordance with a third embodiment of the present invention is shown. The white balance unit (1) formed of the barrel (11) and the milky white or gray filter (12) having an annular rim (121) is mountable at the front side of a camera lens (31)(41) of a smart phone (3) or tablet computer (4). When using the smart phone (3) or table computer (4) to take pictures under the manual white balance mode, the milky white or gray filter (12) is well protected by the barrel (11) against the radiation of vivid light or reflective light, enabling the manual white balance system of the smart phone (3) or tablet computer (4) to measure the average white balance value of the scene viewed. Further, the barrel-based white balance filter of this third embodiment comprises a fastening device (5) for securing the barrel (11) of the white balance unit (1) to the front side of the camera lens (31)(41) of the smart phone (3) or tablet computer (4).Referring to FIG. 11, a barrel-based white balance filter in accordance with a fourth embodiment of the present invention is shown. This fourth embodiment is used in a detachable white balance color temperature measurement device (8). The detachable white balance color temperature measurement device (8) comprises a color temperature sensor (81) mounted in an outer shell thereof, and a plug (811) disposed outside the outer shell for transmitting power supply and signals. The plug (811) can be plugged into a mating jack (221) at the camera body (22) or camera lens (21) of a camera (2), vivid camera, smart phone (3) or tablet computer (4). The white balance unit (1) formed of a barrel (11) and a milky white or gray filter (12) having an annular rim (121) is mounted in the front side of the detachable white balance color temperature measurement device (8). When using the camera (2), video camera, smart phone (3) or table computer (4) to take pictures under the manual white balance mode, the milky white or gray filter (12) is well protected by the barrel (11) against the radiation of vivid light or reflective light, and the color temperature sensor (81) senses the color temperature, enabling the manual white balance system of the camera (2), video camera, smart phone (3) or tablet computer (4) to measure the average white balance value of the scene viewed.Further, a wireless circuit (82) and a battery (83) can be mounted in the detachable white balance color temperature measurement device (8). During application, the detachable white balance color temperature measurement device (8) is mounted on a tripod (84) for measuring the average white balance (color temperature) value of the scene and transmitting the measured average white balance (color temperature) value to a CPU (Central Processing Unit) of a camera (2), video camera, smart phone (3) or tablet computer (4) for processing through a white balance arithmetic process to get an accurate white valance (color temperature) value (see FIG. 12).In conclusion, the invention provides a barrel-based white balance filter comprising a white balance unit that comprises an opaque barrel and a white balance component axially adjustably mounted in the opaque barrel. The invention uses the opaque barrel to isolate the color temperature beyond the camera scene, and allows adjustment of the proportion of the amount of the color temperature of the main light source using the light transmissive property of the white balance filter of the white balance unit, achieving the effect of increasing or reducing the average color temperature like the functioning of the eyelid to adjust the intraocular pressure subject to the brightness of the main light source so that the color is closer to the human eye visual sense and personal preferencesAlthough particular embodiments of the invention have been described in detail for purposes of illustration, various modifications and enhancements may be made without departing from the spirit and scope of the invention. Accordingly, the invention is not to be limited except as by the appended claims. What the invention claimed is:1. A barrel-based white balance filter, comprising a white balance unit, said white balance unit comprising a barrel and a white balance component axially adjustably mounted in said barrel, wherein:said barrel is prepared from an opaque material and attachable to a camera lens of a camera directly or by means of an engagement thread thereof; the white balance component is a milky white or gray filter having a milky white or gray annular rim axially extended from the periphery thereof, and mounted in said barrel and axially movable relative to said barrel between an extended position and a fully received position, said milky white or gray annular rim being completely received in said barrel and protected by said opaque barrel against the radiation of vivid light or reflected light during a manual white balance operation when said white balance component is in said fully received position, enabling a manual white balance system of the camera using the barrel-based white balance filter to measure the average white balance value of the viewing scene accurately.2. The barrel-based white balance filter as claimed in claim 1, wherein said milky white or gray filter comprises a six-star sword head protrusion located at the center thereof to assist camera lens focusing.3. The barrel-based white balance filter as claimed in claim 1, wherein said barrel comprises a stop flange located at an orifice thereof; said milky white or gray filter comprises a stop flange located at a rear side thereof stoppable against the stop flange at the orifice of said barrel to prohibit said milky white or gray filter from falling out of said barrel.4. The barrel-based white balance filter as claimed in claim 1, wherein said milky white or gray filter is a flat glass filter mounted in said barrel for enabling said white balance component to measure the average white balance value of the color light within the viewing area.5. A barrel-based white balance filter, comprising a white balance unit, said white balance unit comprising a barrel and a white balance component axially adjustably mounted in said barrel, wherein:said barrel is a telescopic barrel prepared from an opaque material, comprising a plurality of barrel components coupled to one another and axially slidable relative to one another and attachable to a camera lens of a camera directly or by means of an engagement thread thereof; said white balance component is a milky white or gray filter having a milky white or gray annular rim axially extended from the periphery thereof, and axially slidably coupled to said telescopic barrel; said barrel components and said milky white or gray filter each comprise two stop flanges respectively located at opposing front and rear sides thereof and adapted to prohibit said barrel components and said milky white or gray filter from falling out of one another.6. The barrel-based white balance filter as claimed in claim 1, wherein said white balance unit further comprises a fastening device for securing said barrel to a front side of a camera lens of a camera, video camera, smart phone or tablet computer so that when the camera, video camera, smart phone or tablet computer runs a manual white balance mode, said milky white or gray annular rim is protected by said opaque barrel against the radiation of vivid light or reflected light during a manual white balance operation, enabling a manual white balance system of the camera, video camera, smart phone or tablet to measure the average white balance value of the viewing scene accurately.7. The barrel-based white balance filter as claimed in claim 1, wherein said white balance unit further comprises an outer shell holding said barrel therein, and a color temperature sensor mounted in said outer shell, and a plug electrically connected to said color temperature sensor and extended out of said outer shell and electrically detachably connectable to a jack at a camera body or camera lens of a camera, video camera, smart phone or tablet computer for transmitting power supply and signals so that when the camera, video camera, smart phone or tablet computer runs a manual white balance mode, said milky white or gray annular rim is protected by said opaque barrel against the radiation of vivid light or reflected light during a manual white balance operation, enabling a manual white balance system of the camera, video camera, smart phone or tablet to measure the average white balance value of the viewing scene accurately. ABSTRACT OF THE DISCLOSUREA barrel-based white balance filter includes an opaque barrel attachable to a camera lens of a camera and a white balance component in the form of a milky white or gray filter having a milky white or gray annular rim and axially adjustably mounted in the opaque barrel so that the milky white or gray annular rim is protected by the opaque barrel against the radiation of vivid light or reflected light during a manual white balance operation when the white balance component is completely received in the opaque outer barrel, enabling the manual white balance system of the camera to measure the average white balance value of the viewing scene accurately. For any inquiry, please contact: sales@raynauld.com Patent Pending PCT/CN2014/000209  March 7, 2014CHINA PATENT NO. ZL 2014 2 0104131.XTAIWAN PATENT NO. M481554 https://www.raynauld.com.tw/cn/hot_100430.html Directivity Color Calibration Filter - English 2023-08-27 2024-08-27
雷诺有限公司 110 台北市信义区庄敬路246号7楼 https://www.raynauld.com.tw/cn/hot_100430.html
雷诺有限公司 110 台北市信义区庄敬路246号7楼 https://www.raynauld.com.tw/cn/hot_100430.html
https://schema.org/EventMovedOnline https://schema.org/OfflineEventAttendanceMode
2023-08-27 http://schema.org/InStock TWD 0 https://www.raynauld.com.tw/cn/hot_100430.html

相关连结:https://www.dropbox.com/sh/kn5ntlz5rw6m4uu/AACfK1xs1FloNIa-P ...

Patented ^Patent Pending Technology for camera/video recorders


RAYNAULD™雷诺指向式色彩定位镜
RAYNAULD™ Directivity Color Calibration Filter



什么是「RAYNAULD™ 雷诺指向式色彩定位镜」?  (Directivity Color Calibration Filter, DCC Filter)


「RAYNAULD™雷诺指向式色彩定位镜」是多年在实验室研究,于2014年提出发明专利申请而开发出来的套筒结构指向式摄相机专用的色彩定位光学滤镜,与摄相机的手动白平衡搭配使用,可以让要求最高的专业摄影师一次性就可以拍出与现场色彩一致的视觉色彩或物体的绝对色彩的相片、影片,大幅提高其摄影色彩效果精准度、视觉艺术创造的顺畅性,更可以减少其后期彩色校正步骤、时间和对色彩精准度的疑惑不确定感。对一般摄影爱好者而言,「RAYNAULD™雷诺指向式色彩定位镜」可以让他们随时随地轻易一次性地拍出专业级色彩精准又令人激赏的精彩照片或影片。

基本上,「RAYNAULD™雷诺指向式色彩定位镜」是针对目前摄相机的白平衡失准色偏现象,所开发出来的一种全新最先进的摄相机现场色彩定位校正专业工具,,在拍摄前把相机的色彩系统针对不同的场景进行高精准色彩定位校正,自然就能拍出张张色彩精准无偏差、细节丰富、层次分明而令人自傲激赏的好相片。在其复杂的物理、光学理论下,其产品造型高雅设计简单、使用简单方便,却效果明确令人赞叹。

「RAYNAULD™雷诺指向式色彩定位镜」是针对摄影场景的限定范围进行独立光学色彩过滤、校正个别相机内建灰卡功能的色温补偿值,得到前所未有的超高精准环境色彩还原! 而不是只作标准色温(如6500K,5000K色温)的简单后期白平衡还原而已。把现场已受光染的非绝对白色以后制方式调整为标准6500K光源下的白色时,会造成现场的所有色彩全变为有偏色的错误色彩!

绝对标准白色在不同的光源环境下,会呈现已受环境光源影响而被渲染成不同色阶程度的白色,只有利用指向式色彩定位镜才能直接得到这样环境最精准的光学色彩还原效果。除了得到JPG、RAW最完整色彩数据外,利用指向式色彩定位镜所拍摄的像片原稿已是色彩最精准的RAW参考值了,可以让后期艺术创造工作更轻松更能得心应手。 雷诺指向式色彩定位镜的弹性设计令它可适用于不同大小的镜头和不同厂牌的高级单眼相机



「RAYNAULD™雷诺指向式色彩定位镜」特点

「RAYNAULD™雷诺指向式色彩定位镜」的主要功能是什么呢?

「RAYNAULD™雷诺指向式色彩定位镜」使用对象和目的

「RAYNAULD™雷诺指向式色彩定位镜」使用方法

 

FAQ  常问问题

☉ 什么是「RAYNAULD™雷诺指向式色彩定位镜」?

☉「RAYNAULD™雷诺指向式色彩定位镜」的使用方法?

☉ 「RAYNAULD™雷诺指向式色彩定位镜」的工作原理是什么?

☉ 什么是「视觉色彩」? 如何拍出符合现场环境视觉色彩的相片?

☉ 什么是物体的「绝对色彩」? 如何取得?

☉ 相片的「视觉色彩」或「绝对色彩」有什么差异不同吗?

☉ 什么是全色彩平衡呢?

☉ 如何调设「RAYNAULD™雷诺指向式色彩定位镜」以符合我的相机或镜头来拍出符合环境视觉色彩的相片呢?

☉ 为什么利用一般的镜头白平衡盖或白平衡镜片不能取得准确的环境色彩呢?

☉ 为什么所有的「标准白卡」与「标准灰卡」不能取得准确的环境色彩呢?

☉ 为什么目前所有高级摄相机的自动白平衡AWB 经常会拍出有色彩偏差的相片呢?

☉ 为什么我已拍的RAW格式相片可以很轻易调整校正相片色调还需要使用「RAYNAULD™雷诺指向式色彩定位镜」呢?

☉ 什么摄相机可以使用「RAYNAULD™雷诺指向式色彩定位镜」呢?

☉ 「RAYNAULD™雷诺指向式色彩定位镜」可以配合机顶闪光灯或离机闪光灯吗?

☉ 「雷诺指向式色彩定位镜」有两面,该用那一面对着镜头前玉呢?

☉ 「雷诺指向式色彩定位镜」可以搭配使用变焦镜头吗?

☉ 「雷诺指向式色彩定位镜」可以配合使用其它光学滤镜吗?


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                                        说   明   书   摘   要

本实用新型有关一种套筒指向式白平衡滤镜,其包括一外筒体及一设于外筒体内可呈轴向位移调整的白平衡元件,其中该外筒体为不透光材料制成,其可直接套接于镜头上,或凭借卡齿与卡槽套组于镜头前方,其中的白平衡元件为一乳白色或灰色滤镜,并在滤镜周缘形成一也呈乳白色或灰色延伸的环缘部,并使白平衡元件可套组进入前述外筒体内,并可在外筒体内呈轴向位移调整,当使白平衡元件推移使其滤镜包括环缘部完全隐入外筒体内时,将使白平衡元件的滤镜仅接收视窗所见场景范围内的色光,以得到准确白平衡数值。


 
权    利    要    求    书

1.一种套筒指向式白平衡滤镜,其包括一外筒体及一设于外筒体内可呈轴向位移调整的白平衡元件所构成的白平衡单元,其特征在于:
该外筒体为不透光材料制成,其能够直接套接于摄像机镜头上,或凭借卡齿与镜头前缘的卡槽套组于镜头前方,该白平衡元件为一乳白色或灰色滤镜,并在滤镜周缘形成一也呈乳白色或灰色延伸的环缘部,该白平衡元件套组进入前述外筒体内孔,并能够在外筒体内孔呈轴向位移调整。

2.如权利要求1所述套筒指向式白平衡滤镜,其特征在于:在滤镜中央设有一个准焦的射标式六星剑头突出物。

3.如权利要求1所述套筒指向式白平衡滤镜,其特征在于:在滤镜后方及外筒体内孔孔口处分别设有相对应的挡止缘。

4.如权利要求1所述套筒指向式白平衡滤镜,其特征在于:在外筒体内孔仅设一乳白色或灰色滤镜。

5.一种套筒指向式白平衡滤镜,其包括一可收缩外筒体及一设于可收缩外筒体前端的白平衡元件,其特征在于:
该可收缩外筒体由至少一个内径依序渐缩的套接筒相互套组而成,可收缩外筒体为不透光材料制成,其能够直接套接于摄像机镜头上,或凭借卡齿与镜头前缘的卡槽套组于镜头前方,该白平衡元件为一乳白色或灰色滤镜,并在滤镜周缘形成一也呈乳白色或灰色延伸的环缘部,白平衡元件组套于该可收缩外筒体前端,进而使白平衡元件与该可收缩外筒体可收缩或拉长,每一套接筒的内孔前后缘及滤镜前后端外缘均分别设有挡止缘,使相互卡接不脱离。

6.如权利要求1所述套筒指向式白平衡滤镜,其特征在于:该由外筒体及具环缘部的滤镜所构成的白平衡单元置于或以固定元件固定于摄影机、智能手机及平板电脑的照相镜头前。

7.如权利要求1所述套筒指向式白平衡滤镜,其特征在于:还包括一分离式白平衡测色温装置,该分离式白平衡测色温装置是在一外壳内设有色温感应元件,并在外壳上设有供电源及信号传导的插接脚,凭借插接脚或连接线以将其插组连接于摄像机的机身或镜头及摄影机、智能手机及平板电脑的插接孔,将该由外筒体及具环缘部的滤镜所构成的白平衡单元,置于分离式白平衡测色温装置前方。
 
说    明    书

套筒指向式白平衡滤镜

技术领域

本实用新型涉及一种套筒指向式白平衡滤镜,尤指一种包括一外筒体及一设于外筒体内可呈轴向位移调整的白平衡元件,凭借调整白平衡元件于外筒体内的深度位置,而使白平衡元件仅接收场景范围内的色光以得到准确白平衡数值,或同时接收场景范围外的色光(色温),进而达可微调白平衡元件接收外部色温的状态,进而凭借微调功能而可得到可以微调主光源色温比率以符合眼感和个人视觉喜好的色温值。

背景技术

目前的平板式白平衡滤镜片7及具滤镜61的白平衡镜头盖6的使用方式,如图13、图14及图15所示,是对着摄影区域把它们放置在摄像机2镜头21前,再以按快门进行手动白平衡,以求取摄影现场的白平衡平均值,用该值作为摄影的单一色温值,以进行摄影工作。

白色是一切颜色的基本,是由红(Red)、蓝(Blue)、绿(Green)组合而成,只有在三基色色值彼此相同时,R=B=G,才能把白色正确显示出来在人类的视觉,白色校正或显示正确了,相片、影片的其他所有颜色才能正确显示在人的视觉。

摄像机2的手动白平衡目的,在正确取得摄像场景的平均色温值,以其为拍摄的色温标准值而将正确色彩表现在其作品上,可以大幅度减少其在事后以软体修正不正确色温值的作品,因为色温值不正确的相片、影片的色彩与摄影现场不一致,人类高精密视觉系统能轻易分别其中的差异,色彩表现不正确的摄像作品对所有的人而言都是失败的作。

相片、影片或现场视频传送的每一幅画面都是以单一色温作为色彩的根据表现在人类的视觉,色温稍有改变或不正确时,人类视觉立刻可以感觉画面上色彩的变化,所以进行摄像得到拍摄场景的精准色温值是作品成败最重要的工作之一。

然而利用外置白平衡滤镜片7、白平衡镜头盖6进行手动白平衡动作,却不能取得拍摄场景正确的色温值和色彩,其原因出自外置白平衡滤镜片7、镜头盖的整体设计不良所致,当面对摄像场景时,摄像机外的所有光线和颜色全都毫无选择性投射在滤镜片上而组合成不正确的平均色温值。

实质物体上的每一种颜色在每一种光源下有其独特的色温值,而摄像时每转动其方向时,其摄像构图的包括范围的构成颜色比例各自不同,而每一摄像构图的平均色温值也各自不同,所以只有针对摄像构图的范围才能得到最精准白平衡平均数值。
以户外为例,摄像机2的取景根据镜头21的焦距的视角和距离,而构图取景拍摄,经常是有其范围性,然而平板白平衡滤镜片7、白平衡镜头盖6却接收到摄像构图范围以外的不必要的光线,如阳光、天空蓝光白云的反射光线在白平衡滤镜片7或白平衡镜头盖6的滤镜61上,而在白平衡滤镜片7或白平衡镜头盖6的滤镜61上构成不正确的构图范围的不正确平均色温值,让作手动白平衡运算的摄像机2得到与其摄像范围内不正确的色温值去进行摄像动作,其拍摄出来的相片、影片的色温色彩表现自然会有色偏现象了。

而在室内摄影时,室内或室外主体光源、环境反射光线和颜色自四面八方投射在白平衡滤镜片7或白平衡镜头盖6的滤镜61上,经由白平衡滤镜片7或白平衡镜头盖6的滤镜61本体组织的透光结构而进入色温检测范围,如此给手动白平衡系统测得不正确的白平衡平均数值,而造成相片色彩失真的现象,除了一般摄影用途,取得物品的准确色彩,在某些科学研究、色彩管理、排版印刷或纪录是非常重要的,比如在不同的光源环境或地点获取物品的标准颜色,作色彩比较校正以取得一致性,因此,如何以简单、快速及成本低来取得正确的白平衡平均数值是为本实用新型的主要目的。

实用新型内容

本实用新型的主要目的凭借外筒体可以直接套在镜头上,把白平衡滤镜放在不透光外筒体之内,利用套筒的遮盖作用,使白平衡滤镜作手动白平衡时,可以避免不必要的强烈光源或反射光直接照射在白平衡滤镜上,使得摄像机手动白平衡系统可以测得取景区域更准确白平衡平均值。

本实用新型的次一目的主要凭借高精准白平衡滤镜,可远距离准确测量色温值,以调整色彩平衡与色彩密度,对于JPG或RAW档色温值一次就完美设定,毋须后制调整,立刻就可把色彩完美的相片上传发表分享。

本实用新型的另一目的在凭借外筒体的设计,使用方便,只在作手动白平衡时套在镜头使用就可以,可避免取景范围以外的强光和颜色所带来色温测量失准现象。
为实现上述目的,本实用新型采用的技术方案是:

一种套筒指向式白平衡滤镜,其包括一外筒体及一设于外筒体内可呈轴向位移调整的白平衡元件所构成的白平衡单元,其特征在于:

该外筒体为不透光材料制成,其能够直接套接于摄像机镜头上,或凭借卡齿与镜头前缘的卡槽套组于镜头前方,该白平衡元件为一乳白色或灰色滤镜,并在滤镜周缘形成一也呈乳白色或灰色延伸的环缘部,该白平衡元件套组进入前述外筒体内孔,并能够在外筒体内孔呈轴向位移调整。

其中:在滤镜中央设有一个准焦的射标式六星剑头突出物。

其中:在滤镜后方及外筒体内孔孔口处分别设有相对应的挡止缘。

其中:在外筒体内孔仅设一乳白色或灰色滤镜。

为实现上述目的,本实用新型采用的技术方案是:

一种套筒指向式白平衡滤镜,其包括一可收缩外筒体及一设于可收缩外筒体前端的白平衡元件,其特征在于:

该可收缩外筒体由至少一个内径依序渐缩的套接筒相互套组而成,可收缩外筒体为不透光材料制成,其能够直接套接于摄像机镜头上,或凭借卡齿与镜头前缘的卡槽套组于镜头前方,该白平衡元件为一乳白色或灰色滤镜,并在滤镜周缘形成一也呈乳白色或灰色延伸的环缘部,白平衡元件组套于该可收缩外筒体前端,进而使白平衡元件与该可收缩外筒体可收缩或拉长,每一套接筒的内孔前后缘及滤镜前后端外缘均分别设有挡止缘,使相互卡接不脱离。

其中:该由外筒体及具环缘部的滤镜所构成的白平衡单元置于或以固定元件固定于摄影机、智能手机及平板电脑的照相镜头前。

其中:还包括一分离式白平衡测色温装置,该分离式白平衡测色温装置是在一外壳内设有色温感应元件,并在外壳上设有供电源及信号传导的插接脚,凭借插接脚或连接线以将其插组连接于摄像机的机身或镜头及摄影机、智能手机及平板电脑的插接孔,将该由外筒体及具环缘部的滤镜所构成的白平衡单元,置于分离式白平衡测色温装置前方。

与现有技术相比较,采用上述技术方案的本实用新型具有的优点在于:当使白平衡元件推移使其滤镜包括环缘部完全隐入外筒体内时,将使白平衡元件的滤镜仅接收视窗所见场景范围内的色光,以得到准确白平衡数值,且白平衡元件的位置越接近外筒体的内孔口,所接收外部的色光量则越多,并渐进产生变化,当将白平衡元件轴向推移至外筒体内孔口并使其延伸的环缘部露出外筒体内孔口外,此时除滤镜接受外部环境色光量增加外,其露出外筒体内孔口外的环缘部也同时接收视窗场景以外的四周色光,并将所接收的色光凭借导光作用将光源传导至滤镜,进而改变进入滤镜的外部环境光源色温,进而达可得到准确白平衡数值或以微调方式得到不同色温值的目的。

附图说明

图1是本实用新型试举其中一较佳实施例的立体分解图;

图2是本实用新型与摄像机结合时的实施例组合立体图;

图3是本实用新型可使滤镜于外筒体内孔呈轴向位移调整的实施例剖示图;

图4是本实用新型于外筒体与摄像机镜头分别设有可相互卡组衔接的卡齿与卡槽的实施例立体分解图;

图5是本实用新型于外筒体内设有一滤镜的实施例剖示图;

图6是本实用新型将白平衡元件组合于一可收缩外筒体前端的实施例立体分解图;

图7是本实用新型将白平衡元件组合于一可收缩外筒体前端的实施例立体图;

图8是本实用新型将白平衡元件组合于一可收缩外筒体前端于收缩后的剖示图;

图9是本实用新型使用于智能手机时的实施例立体图;

图10是本实用新型使用于平板电脑时的实施例立体图;

图11是本实用新型白平衡元件组设于摄像机机身所插接一分离式白平衡测色温装置前方的实施例立体图;

图12是本实用新型白平衡元件组设于一分离式白平衡测色温装置内设有无线电路以无线传送准确的白平衡(色温)数值给相机或手机的实施例立体图;

图13是现有白平衡产品与摄像机使用时的立体分解图;

图14是图13所示现有白平衡产品与摄像机使用时的组合立体图;

图15是另一种现有白平衡产品与摄像机使用时的实施例图。

附图标记说明:1-白平衡单元;11-外筒体;111-内孔;112、122、123、132、133-挡止缘;113-卡齿;12-滤镜;121-环缘部;13-可收缩外筒体;131-套接筒;2-摄像机;21、31、41-镜头;211-卡槽;22-机身;221-插接孔;3-智能手机;4-平板电脑;5-固定元件;6-白平衡镜头盖;61-滤镜;7-白平衡滤镜片;8-分离式白平衡测色温装置;81-色温感应元件;811-插接脚;82-无线电路;83-电池;84-脚架。具体实施方式请参阅图1、图2及图3所示,本实用新型套筒指向式白平衡滤镜,其中白平衡单元1包括一外筒体11及一设于外筒体11内可呈轴向位移调整的白平衡元件,其中该外筒体11为不透光材料制成,其可直接套接于摄像机2镜头21上,或凭借卡齿113与镜头21前缘的卡槽211套组于镜头21前方如图4所示,其中的白平衡元件为一乳白色或灰色滤镜12,并在滤镜12周缘形成一也呈乳白色或灰色延伸的环缘部121,并使白平衡元件可套组进入前述外筒体11内孔111,并可在外筒体11内孔111呈轴向位移调整,当推移白平衡元件使其滤镜12包括环缘部121完全隐入外筒体11内孔111时,凭借把白平衡元件的滤镜12放在不透光外筒体11之内,利用外筒体11的遮盖作用,使白平衡元件的滤镜12作手动白平衡时,可以避免不必要的强烈光源或反射光直接照射在滤镜12上,使得摄像机2的手动白平衡系统可以测得取景区域更准确白平衡平均值,并在滤镜12中央可设有一个射标式六星剑头突出物,用来帮助镜头21作准焦动作(图中未示),且白平衡元件的滤镜12位置越接近外筒体11的内孔111口,所接收外部的色光量则越多,并渐进产生变化,当将白平衡元件以轴向推移至外筒体11内孔111口并使其延伸的环缘部121露出外筒体11内孔111口外,此时除滤镜12接受外部环境色光量增加外,其露出外筒体11内孔111口外的环缘部121也同时接收视窗场景以外的四周色光,并将所接收的色光凭借导光作用将光源传导至滤镜12,进而改变进入滤镜12的外部环境光源色温,进而达到可微调得到不同色温值的目的者,于滤镜12后方及外筒体11内孔111孔口处,分别设有相对应的挡止缘122、112,使滤镜12不易滑出者,同时,也可于外筒体11内孔111仅设一乳白色或灰色滤镜12,使滤镜12仅接收视窗所见场景范围内的色光,以得到准确白平衡数值(如图5所示)。次请参阅图6、图7及图8所示,本实用新型将白平衡元件组合于一可收缩外筒体13前端的实施例,其中该可收缩外筒体13由至少一个内径依序渐缩的套接筒131相互套组而成,该呈乳白色或灰色且具环缘部121的滤镜12,则组套于该可收缩外筒体13前端,进而使滤镜12与该可收缩外筒体13可收缩或拉长,以方便收置携带者,于每一套接筒131的内孔前后缘及滤镜12前后端外缘,均分别设有挡止缘132、133、122、123,使相互卡接不脱离。再请参阅图9及图10所示,本实用新型使用于智能手机及平板电脑时的实施例,其将本实用新型由外筒体11及具环缘部121的滤镜12所构成的白平衡单元1,置于智能手机3及平板电脑4的照相镜头31、41前,使智能手机3及平板电脑4于拍照时凭借白平衡元件的滤镜12作手动白平衡时,可以避免不必要的强烈光源或反射光直接照射在滤镜12上,使得摄像机2的手动白平衡系统可以测得取景区域更准确白平衡平均值,该白平衡单元1可凭借一固定元件5固定于智能手机3及平板电脑4的照相镜头31、41前。另请参阅图11所示,本实用新型使用于一分离式白平衡测色温装置8运用的实施例,该分离式白平衡测色温装置8是在一外壳内设有色温感应元件81,并在外壳上设有供电源及信号传导的插接脚811,凭借插接脚811以将其插组于摄像机2的机身22或镜头21及摄影机、智能手机3及平板电脑4的插接孔221,将本实用新型由外筒体11及具环缘部121的滤镜12所构成的白平衡单元1,置于分离式白平衡测色温装置8前方,于拍照时凭借白平衡元件的滤镜12作手动白平衡时,可以避免不必要的强烈光源或反射光直接照射在滤镜12上,并由色温感应元件81接受该色温,使得摄像机2的手动白平衡系统可以测得更准确白平衡平均值。再者,于该分离式白平衡测色温装置8内设有无线电路82及电池83,而可将其以脚架84架设于现场,并以无线传送准确的白平衡色温数值给摄像机2、摄影机、智能手机3及平板电脑4的主处理器CPU内将所撷取的色温值进行白平衡运算处理,以得到准确的白平衡色温数值(如图12所示)。综上所述,本实用新型凭借不透光的外筒体以阻绝非摄像场景以外的颜色时,又能利用其实体壁身连接至白平衡的滤镜的透光体导光原理来间接调整提高主光源色温光量比重,得到提高、降低调整色温平均值效果,有如人的眼皮对主光源亮度产生的眼压感,让色彩更接近人类视觉的眼感与个人喜好。

Patent Pending PCT/CN2014/000209  March 7, 2014 endorsed on April 22nd, 2014!

中国新型专利号码 ZL 2014 2 0104131.X     台湾新型专利号码 M481554号