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Raynauld.Ltd. 7th Floor, 246 ZhuangJing Road, Taipei 110, Taiwan
Patented & Patent Pending Technology for camera/video recorders RAYNAULD™ DIRECTIVITY COLOR CALIBRATION FILTER 雷諾指向式色彩定位鏡 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 the 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? ☉ Can DCC Filter be used with a zoom lens? ☉ Does DCC Filter work with other optical filters? ================================================================================ 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, 2014 https://www.raynauld.com/hot_105723.html Directivity Color Calibration Filter - English 2023-06-04 2024-06-04
Raynauld.Ltd. 7th Floor, 246 ZhuangJing Road, Taipei 110, Taiwan https://www.raynauld.com/hot_105723.html
Raynauld.Ltd. 7th Floor, 246 ZhuangJing Road, Taipei 110, Taiwan https://www.raynauld.com/hot_105723.html
https://schema.org/EventMovedOnline https://schema.org/OfflineEventAttendanceMode
2023-06-04 http://schema.org/InStock TWD 0 https://www.raynauld.com/hot_105723.html

Links:https://app.box.com/s/tlit3motoly2ufyowvc7


                                                                                 Patent available for licensing

【書類名】明細書
 
【考案の名称】電気ポットの手動定時節電装置
 
【技術分野】
 
 【0001】
 
 本考案は、一種の電気ポットの手動定時節電装置に係り、特に、電気ポットの電気ポットのコントロールパネルに、加熱時間を調整できる手動定時スイッチが設けられ、必要により電気ポットに、所定の時間後に通電、停電、或いは通電持続させるように調整し、定時の加熱停止、加熱開始、或いは加熱持続及び保温等を達成し、夏の気温が高いときに、該定時スイッチにより適時に電気ポットの加熱を停止し、室内温度を下げ、エアコンを節電し、並びに電気ポット或いは飲水機の長期の加熱保温保持状態を変えることで、節電の目的を達成するものに関する。
 
【背景技術】
 
 【0002】
 
 周知の電気ポット或いは飲水機は、飲水機に電源スイッチが設けられているほかは、電気ポットは自動加熱及び保温持続の目的のために、どのような電源スイッチも設けられていない。これにより、電気ポットは長期に加熱保持され保温されるため、電気代がかさみ、且つ、現在、一般に市販されている電気ポットの保温性能は完全ではなく、保温時にはそのポット本体は熱くなり、これにより、周辺室内に輻射方式で熱エネルギーが発散し、夏にエアコンを使用して室温を下げるとき、エアコンは多くの電力を使用しなければ、電気ポットが通電保温ときに続けて発散する熱による温度を下げることができず、このため自然にエネルギーを極めて浪費し、且つ、一般に周知の電気ポット設計は、もし加熱或いは保温を停止する必要があるときは、ただ、電源プラグを抜き取るしかなく、使用に不便で、且つ容易に電気プラグの損壊をもたらし、また、抜き差しの間に感電の危険が発生しやすい。
 
【考案の概要】
 
【考案が解決しようとする課題】
 
 【0003】
 
 本考案の主要な目的は、必要に応じて手動で調整して電気ポットに所定の時間後に通電、停電を発生させるか或いは持続通電させて、定時に加熱停止、加熱開始或いは持続加熱及び保温等の状態を達成し、毎回使用後に、定時停電方式で強制的に電源通電状況をオフし、それにより電気エネルギーを節約し、節電の目的を達成することにある。
 
 【0004】
 
 本考案の次の目的は、夏の暑さのなかで、該定時スイッチにより適時に電気ポットの加熱を停止して、室内温度を下げることで、エアコンの電力消耗を減らし、且つ現在使用しているLCDパネルによる保温通電時間のコントロールは、文字が小さすぎ、輝度が不足し、設定が複雑で、ひいては操作方式を忘れやすいために、一般家庭では使用しにくく、手動で通電時間をコントロールする方式の使用方式が最も直覚的であり、うまく使用しやすく、毎回使用時に、設定時間内に強制的に電源をオフでき、節電の目的を達成できる。

【課題を解決するための手段】
 
 【0005】
 
 本考案は電気ポットのポット本体のコントロールパネル上に、通電加熱時間を手動で調整できる定時スイッチが設けられ、必要に応じて定時スイッチを手動で調整して、所定の時間後に通電、停電を発生させるか或いは通電持続させ、これにより加熱開始、加熱停止或いは加熱持続及び保温等の状態を達成し、夏季の暑さの中、該定時スイッチにより適時に電気ポットの加熱を自動オフし、室内温度を下げて、エアコンの電力消耗を減らし、並びに電気ポット或いは飲水機の、無人使用ときに不必要な加熱保温或いは冷水冷却状態を長期に保持する状態を変化させて、節電の目的を達成する電気ポットの設計である。
 
【考案の効果】
 
 【0006】
 
 本考案は、節電の機能を提供し、夏の気温が高いときに、操作が容易な手動定時スイッチにより毎回適時に電気ポットの保温加熱の電源を切断することで、室内温度を下げ、エアコンの電力消耗を減らす。
 
【図面の簡単な説明】
 
 【0007】
 
  【図1】本考案の好ましい実施例の立体図である。
  【図2】本考案の手動定時スイッチの拡大図である。
  【図3】本考案の手動定時スイッチが電気ポットのポット本体の別の位置に設けられた実施例の立体図である。
  【図4】本考案の冷熱飲水機上に設けられた手動定時スイッチの実施例図である。
  【図5】本考案の電気ポット上に設けられた手動24時間循環式多段制御定時スイッチの実施例立体図である。
  【図6】本考案の電気ポット上に設けられた手動24時間循環式多段制御定時スイッチの拡大図である。
  【図7】本考案の電気ポット上の別の位置に設けられた手動24時間循環式多段制御定時スイッチの実施例立体図である。
  【図8】本考案の冷熱飲水機上に設けられた手動24時間循環式多段制御定時スイッチの実施例図である。
 
【考案を実施するための形態】
 
 【0008】
 
 図1及び図2を参照されたい。本考案は一種の電気ポットの手動定時節電装置に係り、それは、電気ポット(1)のポット本体(11)のコントロールパネル(12)上に、加熱時間を調整できる手動定時スイッチ(2)が設けられ、該手動定時スイッチ(2)は、調整ボタン(21)と時間めもり(22)を包含し、調整ボタン(21)及び時間めもり
(22)により、必要に応じて電気ポット(1)を調整して、所定の時間の後に、通電させるか、停電させるか、或いは通電持続させ、これにより、加熱停止、加熱進行、持続加熱及び保温或いは通電加熱保温停止等の状態を達成し、夏の暑い気温の下で、該手動定時スイッチ(2)により適時に電気ポット(1)の加熱を切断することで、室内温度を下げ、エアコンの電力消耗を減らし、並びに電気ポット(1)或いは冷熱飲水機(3)(図4に示されるとおり)が長期に加熱保温或いは冷却状態を保持して電力を消耗する状態を改善し、節電の目的を達成する。
 
 【0009】
 
 該手動定時スイッチ(2)は、必要に応じて電気ポット(1)のポット本体(11)上に設けられ得る(図3に示されるとおり)。
 本考案はまた、電気ポット(1)のポット本体(11)のコントロールパネル(12)或いはポット本体(11)上に、もう一種の手動24時間循環式多段制御定時スイッチ(4)が設けられてもよく、手動でその上の手動操作片(41)を調整することで、手動で電気ポット(1)を所定の時間の後に、通電させるか、停電させるか、或いは通電持続させるか或いはある時間内に通電加熱するか停電させて、これにより、加熱停止、加熱進行、持続加熱及び保温或いは通電加熱保温停止、或いはある時間内に加熱或いは不加熱等の状態を達成し(図5、6及び図7に示されるとおり)、手動24時間循環式多段制御定時スイッチ(4)はまた冷熱飲水機(3)上に設けられ得て、それにより電気ポット(1)と同じ加熱或いは不加熱の状態を達成できる(図8に示されるとおり)。
 
【符号の説明】
 
 【0010】
 
(1)電気ポット
(11)ポット本体
(12)コントロールパネル
(2)手動定時スイッチ
(21)調整ボタン
(22)時間めもり
(3)冷熱飲水機
(4)手動24時間循環式多段制御定時スイッチ
(41)操作片
 
 
【書類名】実用新案登録請求の範囲
 
【請求項1】
 
 電気ポットの手動定時節電装置において、
 電気ポットのポット本体のコントロールパネル上に、加熱時間を調整できる手動定時スイッチが設けられ、該手動定時スイッチは調整ボタンと時間めもりを包含し、該調整ボタンと時間めもりにより、必要に応じて該電気ポットを所定の時間後に、通電させるか、停電させるか、或いは通電持続させるかを調整することを特徴とする、電気ポットの手動定時節電装置。
 
【請求項2】
 
 請求項1記載の電気ポットの手動定時節電装置において、該手動定時スイッチは飲水機に設けられることを特徴とする、電気ポットの手動定時節電装置。
 
【請求項3】
 
 請求項1記載の電気ポットの手動定時節電装置において、該手動定時スイッチは必要に
より電気ポットのポット本体上に設けられることを特徴とする、電気ポットの手動定時節
電装置。
 
【請求項4】
 
 請求項1記載の電気ポットの手動定時節電装置において、該手動定時スイッチは手動24時間循環式多段制御定時スイッチとされることを特徴とする、電気ポットの手動定時節電装置。
 
 
【書類名】要約書
【要約】
【課題】電気ポットの手動定時節電装置の提供。
 
【解決手段】この電気ポットの手動定時節電装置は、電気ポットのコントロールパネルに、加熱時間を調整できる手動定時スイッチが設けられ、必要により電気ポットに、所定の時間後に通電、停電、或いは通電持続させるように調整し、定時の加熱停止、加熱開始、或いは加熱持続及び保温等を達成し、夏の気温が高いときに、該定時スイッチにより適時に電気ポットの加熱を停止し、室内温度を下げ、エアコンを節電し、並びに電気ポット或いは飲水機の長期の加熱保温保持状態を変えることで、節電の目的を達成する。
 
【選択図】図1



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** Patented & Patent Pending.   PCT/CN2013/001338



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