TW201326775A - Energy optical detecting apparatus - Google Patents
Energy optical detecting apparatus Download PDFInfo
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- TW201326775A TW201326775A TW100148716A TW100148716A TW201326775A TW 201326775 A TW201326775 A TW 201326775A TW 100148716 A TW100148716 A TW 100148716A TW 100148716 A TW100148716 A TW 100148716A TW 201326775 A TW201326775 A TW 201326775A
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Abstract
Description
本發明係有關於一種能量光學檢測儀,特別係指一種可同時方便且快速的檢測出眼鏡鏡片對於紫光及藍光的阻抗性,並可同時檢測出眼鏡是否具能量磁場者。The invention relates to an energy optical detector, in particular to a method for simultaneously and conveniently detecting the resistance of the spectacle lens to violet light and blue light, and simultaneously detecting whether the glasses have an energy magnetic field.
「藍光」是波長為400nm-460nm的高能量可見光,對眼睛具有極大的傷害,人類眼睛的許多常見疾病都是由於受到高能藍光的傷害而引起的,尤其可怕的是這種高能藍光幾乎無處不在,我們日常使用的LED燈、螢光燈、電視,電腦等發出來的光中,都存在不協調的高能藍光,這些藍光具有較強的能量,能夠穿透眼睛的水晶體和玻璃體,直抵視網膜黃斑區域,猶如一把利刃刺入眼睛的水晶體和玻璃體(尤其是兒童的眼睛),讓你睜不開眼,流淚不止,甚至疼痛、酸脹,反覆揉搓也無濟於事,如果長期對高能短波藍光疏於防範,視網膜的光敏細胞將會被大量的殺死,最終將導致視力下降甚至完全失明。"Blu-ray" is a high-energy visible light with a wavelength of 400nm-460nm, which is extremely harmful to the eyes. Many common diseases of human eyes are caused by high-energy blue light. Especially terrible is that this high-energy blue light is almost nowhere. No, there are uncoordinated high-energy blue light in the light emitted by our daily LED lights, fluorescent lights, TVs, computers, etc. These blue lights have strong energy and can penetrate the crystals and vitreous of the eyes and reach the retina. The area of the macula is like a sharp blade piercing the crystals of the eye and the vitreous (especially the eyes of children), so that you can't open your eyes, tears, even pain, soreness, and repeated sputum will not help, if long-term high-energy short-wave blue light is neglected Preventing, the photosensitive cells of the retina will be killed in large amounts, which will eventually lead to decreased vision or even complete blindness.
「紫光(紫外線)」是指波長在100nm-400nm之間的太陽光線,角膜、水晶體是最常受到紫外線損害的眼部組織,在強烈紫外線照射下,眼睛表面角膜會產生短時間炎症,眼睛乾燥,視物模糊,水晶體易混濁,引發白內障。"Purple (ultraviolet)" refers to the sun's rays with a wavelength between 100nm and 400nm. The cornea and crystals are the most frequently damaged tissues of the eye. Under strong ultraviolet radiation, the cornea on the surface of the eye will produce short-term inflammation and dry eyes. The blurred vision, the crystals are turbid, causing cataracts.
而為預防「藍光」和「紫光」對眼睛之傷害,一般大都會配戴眼鏡來防範,然,市售的眼鏡雖標榜具有抗藍光、抗紫外線之功效,但實際上並沒有或是阻抗性很低,而一些專業的眼鏡製造業者,大都會購置多種檢測不同光源之光學檢測儀器來檢驗自家生產之產品,以確保產品之品質,但一般之光學檢測儀器費用極為昂貴,且欲檢測不同光源之阻抗效果,須以不同之檢測儀器來進行檢測,故檢測速度極為緩慢。In order to prevent the damage of "Blu-ray" and "Purple Light" to the eyes, the general metropolis wears glasses to prevent it. However, although the commercially available glasses are advertised as having anti-blue light and anti-ultraviolet effects, they are not actually or resistive. Very low, and some professional optical manufacturers, Metropolis purchase a variety of optical detection instruments to detect different light sources to test their own products to ensure the quality of the products, but the general optical detection equipment is extremely expensive, and want to detect different light sources The impedance effect must be detected by different detection instruments, so the detection speed is extremely slow.
又,電腦使用者或長時間看書者常會感到眼睛酸痛、發脹、乾澀、視物模糊等不適症狀,故市面上遂有一種於鼻墊或眼鏡框架上設有具遠紅外線或能量磁石等結構,藉由該等能量磁場可消除眼部疲勞及不適感,但市售眼鏡雖標榜具有能量,但並無法確實檢測出是否真的具有能量。Moreover, computer users or long-time readers often feel uncomfortable symptoms such as sore eyes, bloating, dryness, and blurred vision. Therefore, there is a structure on the market that has far infrared rays or energy magnets on the nose pad or glasses frame. With these energy magnetic fields, eye fatigue and discomfort can be eliminated, but commercially available glasses are advertised as having energy, but it is not possible to detect whether or not there is energy.
緣此,本發明人有鑑於一般眼鏡之檢測存在有如上述之缺失,乃加以研究與設計,遂得以首創作出本發明。Accordingly, the present inventors have invented the present invention in view of the fact that the detection of general glasses has the above-mentioned defects, and has been studied and designed.
本發明之主要目的,係在提供一種可同時方便且快速的檢測出眼鏡鏡片對於紫光及藍光的阻抗性,並可同時檢測出眼鏡是否具能量磁場之能量光學檢測儀。The main object of the present invention is to provide an energy optical detector capable of simultaneously and conveniently detecting the resistance of an eyeglass lens to violet light and blue light, and simultaneously detecting whether the eyeglass has an energy magnetic field.
本發明之能量光學檢測儀,主要係設有基座,該基座上設有控制面板,該控制面板上設有藍光顯示螢幕、紫光顯示螢幕、能量顯示燈及歸零按鈕,該基座內設有微處理器,該微處理器係與該控制面板電性連接,於該基座上設有支架,該支架上於眼鏡之二焦距位置分別設有一藍色光源投射器及一紫色光源投射器,另於該基座上設有一頭型本體,該頭型本體之二眼睛部位的瞳孔位置各設有一穿孔,於頭型本體內設有一固定座,該固定座上對應於該二穿孔之位置分別設有一藍色光源接收器及一紫色光源接收器,而於該頭型本體之鼻樑部位兩側設有能量感測器,該藍色光源接收器、紫色光源接收器及能量感測器係與該微處理器電性連接,該頭型本體之兩側相對設有一掛桿。The energy optical detector of the present invention mainly comprises a base, and the base is provided with a control panel, and the control panel is provided with a blue display screen, a purple display screen, an energy display light and a zero return button. a microprocessor is disposed, the microprocessor is electrically connected to the control panel, and the base is provided with a bracket, and the bracket is respectively provided with a blue light source projector and a purple light source projection at the second focal length position of the glasses Further, a pedestal body is disposed on the pedestal, and a hole is formed in each of the two eye portions of the head body, and a fixing seat is disposed in the head body, and the fixing seat corresponds to the two holes A blue light source receiver and a purple light source receiver are respectively disposed at the position, and energy sensors are disposed on both sides of the nose portion of the head body, the blue light source receiver, the purple light source receiver and the energy sensor The utility model is electrically connected to the microprocessor, and a hanging rod is arranged on opposite sides of the head type body.
有關本發明為達上述之使用目的與功效,所採用之技術手段,茲舉出較佳可行之實施例,並配合圖式所示,詳述如下:For the purpose of the present invention, the preferred embodiments of the invention are as follows:
本發明之實施例,請參閱第一圖所示,主要係設有一基座1,該基座1上設有一控制面板10,該控制面板10上設有一藍光顯示螢幕11、一紫光顯示螢幕12、一能量顯示燈13及一歸零按鈕14,該基座1內設有微處理器15,該微處理器15係與控制面板10電性連接,於該基座1上設有一支架2,該支架2上於眼鏡之焦距位置分別設有一藍色光源投射器20及一紫色光源投射器21,另於該基座1上設有一頭型本體3,該頭型本體3之二眼睛部位30的瞳孔位置(即眼鏡之焦距位置)各設有一穿孔31,於頭型本體3內設有一固定座32,該固定座32上對應於該二穿孔31之位置分別設有一藍色光源接收器33及一紫色光源接收器34,而於該頭型本體3之鼻樑部位35兩側各設有一能量感測器36,該藍色光源接收器33、紫色光源接收器34及能量感測器36係與該微處理器15電性連接,該頭型本體3之兩側相對設有一掛桿37,如此,即為一能量光學檢測儀之結構。An embodiment of the present invention, as shown in the first figure, is mainly provided with a pedestal 1 . The pedestal 1 is provided with a control panel 10 . The control panel 10 is provided with a blue display screen 11 and a purple display screen 12 . An energy display lamp 13 and a reset button 14 are provided. The base 1 is provided with a microprocessor 15 . The microprocessor 15 is electrically connected to the control panel 10 , and a bracket 2 is disposed on the base 1 . The bracket 2 is respectively provided with a blue light source projector 20 and a purple light source projector 21 at the focal length of the glasses, and a head body 3 is disposed on the base 1 , and the two eye portions 30 of the head body 3 are provided. Each of the positions of the pupils (ie, the focal lengths of the glasses) is provided with a through hole 31. The fixing body 32 is provided with a fixing seat 32. The fixing seat 32 is respectively provided with a blue light source receiver 33 corresponding to the positions of the two through holes 31. And a purple light source receiver 34, and an energy sensor 36 is disposed on each side of the nose portion 35 of the head body 3, the blue light source receiver 33, the purple light source receiver 34 and the energy sensor 36 Electrically connected to the microprocessor 15, the two sides of the head body 3 are oppositely disposed A hanging rod 37, thus, is the structure of an optical detector energy.
使用時,請參閱第一~三圖所示,先按壓基座1上之控制面板10上的歸零按鈕14,使藍光顯示螢幕11及紅光顯示螢幕12歸零(歸零之顯示數值為100,如第一圖所示),而能量顯示燈13係為不亮狀態,再將欲檢測之眼鏡4掛置於該頭型本體3上,使眼鏡4之二鏡足40,分別掛置於頭型本體3之二掛桿37上,而眼鏡4之鼻托部41則掛設於頭型本體3之鼻樑部位35上,該鼻托部41上之能量磁石42則對應於鼻樑部位35上之能量感測器36,而眼鏡4之二鏡片43則位於支架2與頭型本體3之間,並使二鏡片43之焦距對正於支架2上之藍色光源投射器20及紫色光源投射器21與頭型本體3之二穿孔31位置,如此,藉由支架2上之藍色光源投射器20將藍色光源投射出,將紫色光源投射器21將紫色光源投射出(如第三圖所示),該投射出之光源部分會受眼鏡4鏡片43之阻擋,而部分未能被阻擋之光線則穿透過眼鏡4之鏡片43,並穿射入頭型本體3之二穿孔31內,並由固定座32上之藍色光源接收器33及紫色光源接收器34予以接收,接收後之光源經由微處理器15處理轉換成數值並顯示於藍光顯示螢幕11及紫光顯示螢幕12上,例如:若顯示數值為20,則表示該受檢測之鏡片43可阻擋80%有害的藍光及紫光(如第二圖所示),以此類推,而藉由頭型本體3上所設之能量感測器36,則可感測出眼鏡4之鼻托部41上的能量磁石42是否具有能量,若具有能量其控制面板10上之能量顯示燈13則會亮起,如此,將眼鏡4置於本發明之能量光學檢測儀上,可同時檢測出眼鏡4鏡片43對於紫光及藍光的阻抗性,並可同時檢測出眼鏡4是否具能量磁場,檢測非常方便且快速,且僅須購置本發明之能量光學檢測儀即可同時檢測出不同光源之阻抗性及是否具有能量,可大幅降低購置檢測儀器之費用。When using, please refer to the first to third figures, first press the zero button 14 on the control panel 10 on the base 1, and the blue display screen 11 and the red light display screen 12 are reset to zero (the display value of the zero return is 100, as shown in the first figure), and the energy display lamp 13 is in a non-light state, and then the glasses 4 to be inspected are hung on the head-type body 3, so that the glasses 4 are mirrored by 40, respectively. The nose portion 41 of the eyeglass body 4 is hung on the nose bridge portion 35 of the head body 3, and the energy magnet 42 on the nose pad portion 41 corresponds to the nose bridge portion 35. The energy sensor 36 is disposed, and the lens 43 of the glasses 4 is located between the bracket 2 and the head body 3, and the focal length of the two lenses 43 is aligned with the blue light source projector 20 and the purple light source on the bracket 2. The projector 21 and the head body 3 have two holes 31, so that the blue light source is projected by the blue light source projector 20 on the bracket 2, and the purple light source projector 21 projects the purple light source (such as the third As shown in the figure, the projected light source portion is blocked by the lens 4 lens 43 and some of the light that is not blocked is worn. The lens 43 of the lens 4 passes through the two through holes 31 of the head body 3, and is received by the blue light source receiver 33 and the purple light source receiver 34 on the fixing base 32, and the received light source is micro-processed. The processing of the device 15 is converted into a numerical value and displayed on the blue light display screen 11 and the purple light display screen 12. For example, if the display value is 20, it indicates that the detected lens 43 can block 80% of harmful blue light and purple light (such as the second figure). Illustrated), and so on, and by the energy sensor 36 provided on the head body 3, it can be sensed whether the energy magnet 42 on the nose pad portion 41 of the eyeglass 4 has energy, if it has energy The energy display lamp 13 on the control panel 10 is illuminated. Thus, the glasses 4 are placed on the energy optical detector of the present invention, and the resistance of the lens 43 to the violet and blue light can be simultaneously detected and simultaneously detected. Whether the glasses 4 have an energy magnetic field, the detection is very convenient and fast, and only the energy optical detector of the invention needs to be purchased to simultaneously detect the impedance of different light sources and whether there is energy, which can greatly reduce the cost of purchasing the detection instrument.
綜上所述,本發明確實已達到所預期之使用目的與功效,且更較習知者為之理想、實用,惟,上述實施例僅係針對本發明之較佳實施例進行具體說明而已,該實施例並非用以限定本發明之申請專利範圍,舉凡其它未脫離本發明所揭示之技術手段下所完成之均等變化與修飾,均應包含於本發明所涵蓋之申請專利範圍中。In view of the above, the present invention has achieved the intended use and efficacy, and is more desirable and practical than the prior art, but the above embodiments are only specifically described for the preferred embodiment of the present invention. The present invention is not intended to limit the scope of the invention, and all other equivalents and modifications may be included in the scope of the invention covered by the invention.
1...基座1. . . Pedestal
10...控制面板10. . . control panel
11...藍光顯示螢幕11. . . Blu-ray display screen
12...紫光顯示螢幕12. . . Violet display screen
13...能量顯示燈13. . . Energy display light
14...歸零按鈕14. . . Zero button
15...微處理器15. . . microprocessor
2...支架2. . . support
20...藍色光源投射器20. . . Blue light projector
21...紫色光源投射器twenty one. . . Purple light projector
3...頭型本體3. . . Head type body
30...眼睛部位30. . . Eye area
31...穿孔31. . . perforation
32...固定座32. . . Fixed seat
33...藍色光源接收器33. . . Blue light source receiver
34...紫色光源接收器34. . . Purple light source receiver
35...鼻樑部位35. . . Nose part
36...能量感測器36. . . Energy sensor
37...掛桿37. . . Hanging rod
4...眼鏡4. . . glasses
40...鏡足40. . . Mirror foot
41...鼻托部41. . . Nose pad
42...能量磁石42. . . Energy magnet
43...鏡片43. . . lens
第一圖所示係為本發明實施例之立體圖。The first figure is a perspective view of an embodiment of the present invention.
第二圖所示係為本發明實施例檢測眼鏡之立體使用示意圖。The second figure shows a schematic view of the stereoscopic use of the glasses for the embodiment of the present invention.
第三圖所示係為本發明實施例檢測眼鏡之平面使用示意圖。The third figure is a schematic view showing the use of the glasses for detecting the glasses according to an embodiment of the present invention.
1...基座1. . . Pedestal
10...控制面板10. . . control panel
11...藍光顯示螢幕11. . . Blu-ray display screen
12...紫光顯示螢幕12. . . Violet display screen
13...能量顯示燈13. . . Energy display light
14...歸零按鈕14. . . Zero button
15...微處理器15. . . microprocessor
2...支架2. . . support
20...藍色光源投射器20. . . Blue light projector
21...紫色光源投射器twenty one. . . Purple light projector
3...頭型本體3. . . Head type body
30...眼睛部位30. . . Eye area
31...穿孔31. . . perforation
32...固定座32. . . Fixed seat
33...藍色光源接收器33. . . Blue light source receiver
34...紫色光源接收器34. . . Purple light source receiver
35...鼻樑部位35. . . Nose part
36...能量感測器36. . . Energy sensor
37...掛桿37. . . Hanging rod
Claims (1)
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW100148716A TW201326775A (en) | 2011-12-26 | 2011-12-26 | Energy optical detecting apparatus |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW100148716A TW201326775A (en) | 2011-12-26 | 2011-12-26 | Energy optical detecting apparatus |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| TW201326775A true TW201326775A (en) | 2013-07-01 |
| TWI458949B TWI458949B (en) | 2014-11-01 |
Family
ID=49224943
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| TW100148716A TW201326775A (en) | 2011-12-26 | 2011-12-26 | Energy optical detecting apparatus |
Country Status (1)
| Country | Link |
|---|---|
| TW (1) | TW201326775A (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103344417A (en) * | 2013-07-09 | 2013-10-09 | 余鸿铭 | Blue light tester |
| CN104406772A (en) * | 2014-12-02 | 2015-03-11 | 何伟 | Blue light filtering detector and detection method |
| CN108072613A (en) * | 2016-11-11 | 2018-05-25 | 台湾积体电路制造股份有限公司 | Optical detection device and detection method thereof |
Family Cites Families (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US2385503A (en) * | 1941-03-20 | 1945-09-25 | Charles J Glasser | Optical testing device and method of testing |
| CN100580507C (en) * | 2004-04-15 | 2010-01-13 | 专利创投有限公司 | Spectacles, spectacle frame, method of radiation monitoring and electronic circuit for radiation monitoring |
| TWM410876U (en) * | 2011-04-21 | 2011-09-01 | de-qing Chen | Detecting apparatus for anti-ultraviolet lens |
-
2011
- 2011-12-26 TW TW100148716A patent/TW201326775A/en not_active IP Right Cessation
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103344417A (en) * | 2013-07-09 | 2013-10-09 | 余鸿铭 | Blue light tester |
| CN104406772A (en) * | 2014-12-02 | 2015-03-11 | 何伟 | Blue light filtering detector and detection method |
| CN104406772B (en) * | 2014-12-02 | 2018-01-09 | 何伟 | Blue light filters out detector and detection method |
| CN108072613A (en) * | 2016-11-11 | 2018-05-25 | 台湾积体电路制造股份有限公司 | Optical detection device and detection method thereof |
Also Published As
| Publication number | Publication date |
|---|---|
| TWI458949B (en) | 2014-11-01 |
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