TWI705243B - Detecting method for high transmittance glass and glass detection apparatus by excitation - Google Patents

Abstract

The present invention provides a detecting method for a high transmittance glass and a glass detection apparatus by excitation. The glass detection apparatus includes a carrier, an organic substance exciter, and a visible light receiver. The carrier has an excitation area for carrying a high transmittance glass. The organic substance exciter is configured to emit an ultraviolet (UV) light toward the excitation area. The UV light has a wavelength within a range of 315-400 nm, and can be configured to excite an organic material on the high transmittance glass so as to emit an isotropic white light. The visible light receiver is arranged outside of a light reflected region defined by the UV light relative to the excitation area, and is configured to receive the isotropic white light excited from the excited organic material.

Description

高透光率玻璃的測試方法及激發式玻璃測試設備Test method for high light transmittance glass and excitation type glass test equipment

本發明涉及一種玻璃測試設備，尤其涉及一種高透光率玻璃的測試方法及激發式玻璃測試設備。The invention relates to a glass test equipment, in particular to a test method of high light transmittance glass and an excitation type glass test equipment.

現有的玻璃測試設備皆是以長波長（如：波長介於620奈米～750奈米的紅光）投射於玻璃（如：對於650奈米左右的穿透率僅有50%）的待測面上，而後再以接收器接收經由所述待測面反射的長波長的光線。然而，現有玻璃測試設備能夠被使用是基於玻璃會阻隔長波長的光線的原理，所以接收器不會接收到所述玻璃的非待測面所反射的光線。Existing glass test equipment is to be tested with long wavelengths (for example: red light with a wavelength between 620nm and 750nm) projected on glass (for example, the penetration rate of about 650nm is only 50%). Then, the long-wavelength light reflected by the surface to be measured is received by a receiver. However, the existing glass test equipment can be used based on the principle that glass blocks long-wavelength light, so the receiver will not receive the light reflected by the non-test surface of the glass.

據此，現有玻璃測試設備所適用的檢測物件已然受限於其既定的結構設計，因而難以應用在日新月異的檢測需求上。舉例來說，當現有玻璃測試設備用來偵測一高穿透率玻璃（如：對於410奈米～810奈米的穿透率為至少90%）時，所述接收器也會接收到上述玻璃的非待測面所反射的長波長的光線，進而影響偵測結果。According to this, the testing objects applicable to the existing glass testing equipment are already limited by their established structural design, and therefore it is difficult to apply them to the ever-changing testing requirements. For example, when the existing glass testing equipment is used to detect a high transmittance glass (for example, the transmittance of 410nm ~ 810nm is at least 90%), the receiver will also receive the above The long-wavelength light reflected by the non-measured surface of the glass affects the detection result.

於是，本發明人認為上述缺陷可改善，乃特潛心研究並配合科學原理的運用，終於提出一種設計合理且有效改善上述缺陷的本發明。Therefore, the inventor believes that the above-mentioned shortcomings can be improved, and with great concentration of research and the application of scientific principles, we finally propose an invention with reasonable design and effective improvement of the above-mentioned defects.

本發明實施例在於提供一種高透光率玻璃的測試方法及激發式玻璃測試設備，其能有效地改善現有玻璃測試設備所可能產生的缺陷。The embodiment of the present invention is to provide a test method for high-transmittance glass and an excitation glass test equipment, which can effectively improve the defects that may be generated by the existing glass test equipment.

本發明實施例公開一種高透光率玻璃的測試方法，包括：一前置步驟：提供至少一個高透光率玻璃及一激發式玻璃測試設備；其中，至少一個所述高透光率玻璃包含有一玻璃本體及鍍設於所述玻璃本體的一抗反射層；一置件步驟：將至少一個所述高透光率玻璃設置於所述激發式玻璃測試設備的一高透光率玻璃載台的一激發區域上；其中，遠離所述高透光率玻璃載台的至少一個所述高透光率玻璃的一表面定義為一待偵測面； 一激發步驟：以所述激發式玻璃測試設備的一有機物質激發器朝向所述激發區域發出波長介於315奈米～400奈米的一紫外光線，以激發位於所述待偵測面上的有機物質，使所述有機物質發出一等向性白光；一接收步驟：以位在所述紫外光線相對於所述激發區域的光反射區域之外的一可見光接收器，來接收所述有機物質所發出的所述等向性白光。The embodiment of the present invention discloses a method for testing high light transmittance glass, including: a pre-step: providing at least one high light transmittance glass and an excitation type glass test device; wherein at least one of the high light transmittance glass includes There is a glass body and an anti-reflective layer plated on the glass body; a placing step: at least one of the high-transmittance glass is set on a high-transmittance glass stage of the excitation glass test equipment One surface of at least one high-transmittance glass that is far from the high-transmittance glass stage is defined as a surface to be detected; an excitation step: test with the excitation-type glass An organic substance exciter of the device emits an ultraviolet light with a wavelength ranging from 315nm to 400nm toward the excitation area to excite the organic substance on the surface to be detected, so that the organic substance emits a first level Directional white light; a receiving step: receiving the isotropic white light emitted by the organic substance with a visible light receiver located outside the light reflection area of the ultraviolet light relative to the excitation region.

本發明實施例也公開一種激發式玻璃測試設備，用於偵測一高透光率玻璃上的有機物質，所述激發式玻璃測試設備包括：一高透光率玻璃載台，包含有一承載面，並且所述承載面定義有用來承載所述高透光率玻璃的一激發區域；一有機物質激發器，位於所述承載面的上方，並且所述有機物質激發器能朝向所述激發區域發出波長介於315奈米～400奈米的一紫外光線；其中，所述有機物質激發器所發出的紫外光線能用來激發所述高透光率玻璃上的所述有機物質，以使所述有機物質發出一等向性白光；以及一可見光接收器，位於所述承載面的上方，並且所述可見光接收器位在所述紫外光線相對於所述激發區域的一光反射區域之外；其中，所述可見光接收器用來接收所述有機物質所被激發出的所述等向性白光。The embodiment of the present invention also discloses an excitation type glass test device for detecting organic substances on a high light transmittance glass. The excitation type glass test device includes: a high light transmittance glass stage including a bearing surface , And the supporting surface defines an excitation area for supporting the high-transmittance glass; an organic substance exciter is located above the supporting surface, and the organic substance exciter can emit toward the excitation area An ultraviolet light with a wavelength between 315nm and 400nm; wherein the ultraviolet light emitted by the organic substance exciter can be used to excite the organic substance on the high light transmittance glass, so that the The organic substance emits an isotropic white light; and a visible light receiver located above the bearing surface, and the visible light receiver is located outside a light reflection area of the ultraviolet light relative to the excitation area; wherein The visible light receiver is used to receive the isotropic white light excited by the organic substance.

綜上所述，本發明實施例所公開的高透光率玻璃的測試方法及激發式玻璃測試設備，其能通過元件（如：激發區域、有機物質激發器、及高透光率玻璃）之間的位置設計、以有機物質激發器來激發有機物質、及通過可見光接收器來接收上述被激發出來的等向性白光，據以有別於現有玻璃測試設備、並能有效地偵測高透光率玻璃上的有機物質。In summary, the test method for high-transmittance glass and the excitation-type glass test equipment disclosed in the embodiments of the present invention can pass through the components (such as: excitation area, organic substance exciter, and high-transmittance glass). The position design of the room, the organic substance exciter to excite the organic substance, and the visible light receiver to receive the above-mentioned excited isotropic white light, are different from the existing glass test equipment, and can effectively detect high-transmittance The organic substance on the light rate glass.

進一步地說，於本發明實施例所公開的激發式玻璃測試設備中，所述可見光接收器並非以所述有機物質激發器所發出的紫外光線來進行有機物質的偵測，並且所述可見光接收器是被設置於所述紫外光線相對於激發區域的光反射區域之外，所以本發明的激發式玻璃測試設備能夠較為精準地偵測高透光率玻璃上的有機物質。Furthermore, in the exciting glass test equipment disclosed in the embodiment of the present invention, the visible light receiver does not use the ultraviolet light emitted by the organic substance exciter to detect organic substances, and the visible light receives The device is arranged outside the light reflection area of the ultraviolet light relative to the excitation area, so the excitation glass test equipment of the present invention can detect organic substances on the high light transmittance glass more accurately.

為能更進一步瞭解本發明的特徵及技術內容，請參閱以下有關本發明的詳細說明與附圖，但是此等說明與附圖僅用來說明本發明，而非對本發明的保護範圍作任何的限制。In order to further understand the features and technical content of the present invention, please refer to the following detailed description and drawings of the present invention, but these descriptions and drawings are only used to illustrate the present invention, and do not make any claims about the protection scope of the present invention. limit.

請參閱圖1至圖7所示，其為本發明的實施例，需先說明的是，本實施例對應附圖所提及的相關數量與外型，僅用來具體地說明本發明的實施方式，以便於了解本發明的內容，而非用來侷限本發明的保護範圍。Please refer to Figures 1 to 7, which are embodiments of the present invention. It should be noted that the relevant quantities and appearances mentioned in the accompanying drawings in this embodiment are only used to specifically illustrate the implementation of the present invention. The method is to facilitate understanding of the content of the present invention, rather than to limit the protection scope of the present invention.

本實施例公開一種高透光率玻璃的測試方法及激發式玻璃測試設備，並且上述激發式玻璃測試設備100是限定用於偵測一高透光率玻璃200上的有機物質300，而上述有機物質300也就是指高透光率玻璃玻璃200上的有機髒汙（例如是油漬、污漬、水漬、帶靜電粒子、毛屑、纖維、或膠類粒子），本發明在此不加以限制。換個角度來說，非用來偵測高透光率玻璃200的任何測試設備並不等同於本實施例所指的激發式玻璃測試設備100。This embodiment discloses a method for testing high light transmittance glass and an excitation type glass test device, and the excitation type glass test device 100 is limited to detecting organic substances 300 on a high transmittance glass 200, and the above organic The substance 300 refers to the organic dirt on the high light transmittance glass 200 (for example, oil stains, stains, water stains, electrostatic particles, lint, fibers, or colloidal particles), and the present invention is not limited herein. From another perspective, any test equipment that is not used to detect the high light transmittance glass 200 is not equivalent to the excitation glass test equipment 100 referred to in this embodiment.

其中，所述高透光率玻璃200於本實施例中是指對應波長介於410奈米～810奈米的光線具有至少90%的穿透率，但本發明不受限於此。再者，所述高透光率玻璃200於本實施例中包含有一玻璃本體201、及分別形成（或鍍設）於所述玻璃本體201相反兩個表面的一抗紅外線層203與一抗反射層202，但於本發明未繪示的其他實施例中，所述高透光率玻璃200也可以是僅在所述玻璃本體201的其中一個表面上形成有所述抗紅外線層203與抗反射層202的其中之一。Wherein, the high light transmittance glass 200 in this embodiment means that the light having a corresponding wavelength between 410 nanometers and 810 nanometers has a transmittance of at least 90%, but the present invention is not limited thereto. Furthermore, the high light transmittance glass 200 in this embodiment includes a glass body 201, and an anti-infrared layer 203 and an anti-reflection layer 203 formed (or plated) on the opposite surfaces of the glass body 201, respectively. Layer 202, but in other embodiments not shown in the present invention, the high light transmittance glass 200 may also be formed with the anti-infrared layer 203 and anti-reflection layer on only one surface of the glass body 201 One of the layers 202.

需先說明的是，為便於理解本實施例的高透光率玻璃的測試方法，以下先介紹所述激發式玻璃測試設備100，而後再接著說明使用上述激發式玻璃測試設備100的高透光率玻璃的測試方法，但本發明不受限於此。舉例來說，在本發明未繪示的其他實施例中，所述高透光率玻璃的測試方法也可以是使用其他激發式玻璃測試設備。It should be noted that, in order to facilitate the understanding of the test method of the high light transmittance glass of this embodiment, the excitation type glass test device 100 is introduced below first, and then the high light transmittance using the excitation type glass test device 100 will be described. Rate glass test method, but the present invention is not limited to this. For example, in other embodiments not shown in the present invention, the test method of the high light transmittance glass can also be using other excitation glass test equipment.

[激發式玻璃測試設備][Excitation glass test equipment]

如圖1和圖2所示，所述激發式玻璃測試設備100包含有一高透光率玻璃載台1、位於所述高透光率玻璃載台1上方的一有機物質激發器2、位於所述高透光率玻璃載台1上方且位置非對應於所述有機物質激發器2的一可見光接收器3。需說明的是，所述有機物質激發器2與可見光接收器3可以是通過支架（圖未示）而設置在高透光率玻璃載台1上方，但本發明不以此為限。As shown in FIGS. 1 and 2, the exciting glass test equipment 100 includes a high transmittance glass stage 1, an organic substance exciter 2 located above the high transmittance glass stage 1, and A visible light receiver 3 above the high transmittance glass stage 1 and not corresponding to the organic substance exciter 2. It should be noted that the organic substance exciter 2 and the visible light receiver 3 can be arranged above the high light transmittance glass stage 1 through a bracket (not shown), but the present invention is not limited to this.

所述高透光率玻璃載台1包含有一承載面11，並且所述承載面11較佳是呈不透光狀並平行於水平面，但本發明不受限於此。其中，所述承載面11定義有用來承載上述高透光率玻璃200的一激發區域12；也就是說，所述承載面11的激發區域12位置將會相關於上述有機物質激發器2與可見光接收器3的設置位置。The high light transmittance glass stage 1 includes a bearing surface 11, and the bearing surface 11 is preferably opaque and parallel to a horizontal plane, but the present invention is not limited to this. Wherein, the supporting surface 11 defines an excitation area 12 for supporting the high-transmittance glass 200; that is, the position of the excitation area 12 of the supporting surface 11 will be related to the organic substance exciter 2 and the visible light. The location of the receiver 3.

所述有機物質激發器2位於所述承載面11的上方，並且所述有機物質激發器2能朝向上述激發區域12發出波長介於315奈米～400奈米的一紫外光線UV。其中，所述有機物質激發器2所發出的紫外光線UV能用來激發所述高透光率玻璃200上的所述有機物質300，以使所述有機物質300發出一等向性白光L。The organic substance exciter 2 is located above the carrying surface 11, and the organic substance exciter 2 can emit an ultraviolet light UV with a wavelength between 315 nanometers and 400 nanometers toward the excitation region 12. The ultraviolet light UV emitted by the organic substance exciter 2 can be used to excite the organic substance 300 on the high light transmittance glass 200, so that the organic substance 300 emits an isotropic white light L.

所述可見光接收器3位於所述承載面11的上方，並且所述可見光接收器3能用來接收所述有機物質300所被激發出的等向性白光L。其中，所述可見光接收器3位在所述紫外光線UV相對於所述激發區域12的一光反射區域之外，據以避免受到反射後的所述紫外光線UV影響。較佳地， 所述可見光接收器3還可以包含有面向所述激發區域12的一紫外光截止層31（UV cutter），並且所述紫外光截止層31用來過濾所述紫外光線UV，據以避免可見光接收器3接收到紫外光線UV，但本發明不受限於此。也就是說，在本發明未繪示的其他實施例中，所述可見光接收器3也可以通過其位置的安排來避免接收到紫外光線UV，但不設置上述紫外光截止層31。The visible light receiver 3 is located above the bearing surface 11, and the visible light receiver 3 can be used to receive the isotropic white light L excited by the organic substance 300. Wherein, the visible light receiver 3 is located outside a light reflection area of the ultraviolet light UV relative to the excitation region 12, so as to avoid being affected by the reflected ultraviolet light UV. Preferably, the visible light receiver 3 may also include an ultraviolet light cut layer 31 (UV cutter) facing the excitation region 12, and the ultraviolet light cut layer 31 is used to filter the ultraviolet light UV, according to In order to prevent the visible light receiver 3 from receiving the ultraviolet light UV, the present invention is not limited to this. That is to say, in other embodiments not shown in the present invention, the visible light receiver 3 can also be arranged to avoid receiving ultraviolet light UV, but the ultraviolet light cut-off layer 31 is not provided.

再者，所述有機物質激發器2與可見光接收器3之間的相對位置關係，其可以依據下述條件進行設置：所述有機物質激發器2定義有一中心光軸C（相當於，所述紫外光線UV的中心線），所述可見光接收器3定義有垂直於所述激發區域12的一光接收光軸P，並且所述中心光軸C與所述光接收光軸P相夾形成有小於90度的一夾角α。Furthermore, the relative positional relationship between the organic substance exciter 2 and the visible light receiver 3 can be set according to the following conditions: the organic substance exciter 2 defines a central optical axis C (equivalent to the The center line of the ultraviolet light UV), the visible light receiver 3 defines a light receiving optical axis P perpendicular to the excitation region 12, and the central optical axis C and the light receiving optical axis P are formed by sandwiching An included angle α less than 90 degrees.

其中，所述夾角α於本實施例中是以小於30度為例，據以有效地避免所述可見光接收器3受到反射後的所述紫外光線UV影響、並利於縮小化所述激發式玻璃測試設備100，但本發明不以此為限。換個角度來看，所述可見光接收器3於本實施例中是位於所述承載面11的正上方，並且所述可見光接收器3較佳是設置在上述激發區域12的正上方。Wherein, the included angle α is less than 30 degrees in this embodiment as an example, so as to effectively prevent the visible light receiver 3 from being affected by the reflected ultraviolet light UV, and help to reduce the size of the excited glass Test equipment 100, but the present invention is not limited to this. From another perspective, the visible light receiver 3 is located directly above the bearing surface 11 in this embodiment, and the visible light receiver 3 is preferably arranged directly above the excitation region 12.

[高透光率玻璃的測試方法][Test method of high light transmittance glass]

如圖3至圖7所示，所述高透光率玻璃的測試方法於本實施例中包含有一前置步驟S110、一置件步驟S120、一激發步驟S130、及一接收步驟S140。其中，上述各個步驟的排序及其細部實施方式可以依據設計需求而加以調整變化，本發明不以此為限。需先說明的是，先前以說明的相關內容（如：高透光率玻璃200、有機物質300、及激發式玻璃測試設備100），不再於以下說明中複述。As shown in FIGS. 3 to 7, the test method of the high light transmittance glass includes a pre-step S110, a placement step S120, an excitation step S130, and a receiving step S140 in this embodiment. Wherein, the sequence of the above steps and their detailed implementation can be adjusted and changed according to design requirements, and the present invention is not limited thereto. It should be noted that the related content previously described (such as: high light transmittance glass 200, organic substance 300, and excitation glass test equipment 100) will not be repeated in the following description.

所述前置步驟S110：如圖4所示，提供至少一個所述高透光率玻璃200及所述激發式玻璃測試設備100（如：圖1）。其中，至少一個所述高透光率玻璃200的數量於本實施例中為多個，並且多個所述高透光率玻璃200黏貼於一承載板400上。進一步地說，所述承載板400包含有一藍色黏接膜401，並且多個所述高透光率玻璃200是黏貼於所述藍色黏接膜401上。The pre-step S110: as shown in FIG. 4, at least one of the high light transmittance glass 200 and the excitation glass test device 100 are provided (such as: FIG. 1). Wherein, the number of at least one high-transmittance glass 200 is multiple in this embodiment, and multiple high-transmittance glasses 200 are adhered to a carrier plate 400. Furthermore, the carrier board 400 includes a blue adhesive film 401, and a plurality of the high-transmittance glasses 200 are pasted on the blue adhesive film 401.

再者，所述承載板400能在所述高透光率玻璃載台1上移動，以使多個所述高透光率玻璃200逐一地經過所述置件步驟S120、所述激發步驟S130、及所述接收步驟S140。需說明的是，基於每個所述高透光率玻璃200歷經所述置件步驟S120、所述激發步驟S130、及所述接收步驟S140的過程皆相同，所以為便於理解本實施例，下述僅以單個所述高透光率玻璃200為例來說明。Furthermore, the carrier plate 400 can move on the high-transmittance glass stage 1, so that a plurality of the high-transmittance glasses 200 go through the placing step S120 and the excitation step S130 one by one. , And the receiving step S140. It should be noted that, based on the fact that each of the high-transmittance glass 200 goes through the placing step S120, the excitation step S130, and the receiving step S140, the processes are all the same, so in order to facilitate the understanding of this embodiment, the following The description only takes a single high transmittance glass 200 as an example.

所述置件步驟S120：如圖5所示，將所述高透光率玻璃200設置於所述激發式玻璃測試設備100的高透光率玻璃載台1的激發區域12上。其中，遠離所述高透光率玻璃載台1的所述高透光率玻璃200的一表面（如：圖5中的頂面）定義為一待偵測面204。The placing step S120: as shown in FIG. 5, the high-transmittance glass 200 is set on the excitation region 12 of the high-transmittance glass stage 1 of the excitation glass test equipment 100. Wherein, a surface of the high-transmittance glass 200 far away from the high-transmittance glass stage 1 (such as the top surface in FIG. 5) is defined as a surface to be detected 204.

所述激發步驟S130：如圖6所示，以所述激發式玻璃測試設備100的有機物質激發器2朝向所述激發區域12發出波長介於315奈米～400奈米的紫外光線UV，以激發位於所述待偵測面204上的有機物質300，使所述有機物質300發出等向性白光L，而上述紫外光線UV的大部分會在穿過所述玻璃本體201的過程中消散，但少部分的所述紫外光線UV會反射。The excitation step S130: As shown in FIG. 6, the organic substance exciter 2 of the excitation glass testing device 100 emits ultraviolet light UV with a wavelength between 315 nm and 400 nm toward the excitation region 12 to Exciting the organic substance 300 on the surface to be detected 204 causes the organic substance 300 to emit isotropic white light L, and most of the ultraviolet light UV will dissipate during the process of passing through the glass body 201. However, a small part of the ultraviolet rays UV will be reflected.

舉例來說，由於所述可見光接收器3是用來偵測所述有機物質300所激發出的等向性白光L，其不同於紫外光線UV，所以縱使紫外光線UV未消散於玻璃本體201內，紫外光線UV同樣不會對可見光接收器3的偵測結果產生影響。更者，所述可見光接收器3還可以設有上述紫外光截止層31，使得可見光接收器3的偵測結果更是不會被上述紫外光線UV所影響。For example, since the visible light receiver 3 is used to detect the isotropic white light L excited by the organic substance 300, which is different from the ultraviolet light UV, even if the ultraviolet light UV is not dissipated in the glass body 201 , The ultraviolet light UV also does not affect the detection result of the visible light receiver 3. Furthermore, the visible light receiver 3 may also be provided with the aforementioned ultraviolet light cut-off layer 31, so that the detection result of the visible light receiver 3 will not be affected by the aforementioned ultraviolet light UV.

所述接收步驟S140：如圖7所示，以位在所述紫外光線UV相對於所述激發區域12的光反射區域之外的可見光接收器3，來接收所述有機物質300所被激發出的所述等向性白光L，據以偵測出所述待偵測面204上的有機物質300數量與位置。The receiving step S140: As shown in FIG. 7, a visible light receiver 3 located outside the light reflection area of the ultraviolet light UV relative to the excitation region 12 is used to receive the excited organic substance 300 According to the isotropic white light L, the quantity and position of the organic substance 300 on the surface to be detected 204 are detected.

[本發明實施例的技術效果][Technical Effects of Embodiments of the Invention]

綜上所述，本發明實施例所公開的高透光率玻璃的測試方法及激發式玻璃測試設備，其能通過元件（如：激發區域、有機物質激發器、及高透光率玻璃）之間的位置設計、以有機物質激發器來激發有機物質、及通過可見光接收器來接收上述被激發出來的等向性白光，據以有別於現有玻璃測試設備、並能有效地偵測高透光率玻璃上的有機物質。In summary, the test method for high-transmittance glass and the excitation-type glass test equipment disclosed in the embodiments of the present invention can pass through the components (such as: excitation area, organic substance exciter, and high-transmittance glass). The position design of the room, the organic substance exciter to excite the organic substance, and the visible light receiver to receive the above-mentioned excited isotropic white light, are different from the existing glass test equipment, and can effectively detect high-transmittance The organic substance on the light rate glass.

進一步地說，於本發明實施例所公開的激發式玻璃測試設備中，所述可見光接收器並非以所述有機物質激發器所發出的紫外光線來進行有機物質的偵測，並且所述可見光接收器是被設置於所述紫外光線相對於激發區域的光反射區域之外，所以本發明的激發式玻璃測試設備能夠較為精準地偵測高透光率玻璃上的有機物質。Furthermore, in the exciting glass test equipment disclosed in the embodiment of the present invention, the visible light receiver does not use the ultraviolet light emitted by the organic substance exciter to detect organic substances, and the visible light receives The device is arranged outside the light reflection area of the ultraviolet light relative to the excitation area, so the excitation glass test equipment of the present invention can detect organic substances on the high light transmittance glass more accurately.

以上所公開的內容僅為本發明的優選可行實施例，並非因此侷限本發明的專利範圍，所以凡是運用本發明說明書及圖式內容所做的等效技術變化，均包含於本發明的專利範圍內。The content disclosed above is only the preferred and feasible embodiments of the present invention, and does not limit the patent scope of the present invention. Therefore, all equivalent technical changes made by using the description and drawings of the present invention are included in the patent scope of the present invention. Inside.

100:激發式玻璃測試設備 1:高透光率玻璃載台 11:承載面 12:激發區域 2:有機物質激發器 3:可見光接收器 31:紫外光截止層 200:高透光率玻璃 201:玻璃本體 202:抗反射層 203:抗紅外線層 204:待偵測面 300:有機物質 400:承載板 401:藍色黏接膜 UV:紫外光線 C:中心光軸 P:光接收光軸 α:夾角 L:等向性白光 S110:前置步驟 S120:置件步驟 S130:激發步驟 S140:接收步驟 100: Excitation glass test equipment 1: High transmittance glass stage 11: Bearing surface 12: excitation area 2: Organic matter exciter 3: Visible light receiver 31: UV cut-off layer 200: high light transmittance glass 201: Glass body 202: Anti-reflective layer 203: Anti-infrared layer 204: face to be detected 300: organic matter 400: Carrier board 401: Blue adhesive film UV: ultraviolet light C: Central optical axis P: Light receiving optical axis α: included angle L: Isotropic white light S110: Pre-step S120: Placement steps S130: excitation step S140: receiving step

圖1為本發明實施例的激發式玻璃測試設備的示意圖。Fig. 1 is a schematic diagram of an excitation type glass test device according to an embodiment of the present invention.

圖2為圖1的激發式玻璃測試設備用於偵測高透光率玻璃的示意圖。FIG. 2 is a schematic diagram of the excitation type glass test equipment of FIG. 1 used for detecting high light transmittance glass.

圖3為本發明實施例的高透光率玻璃的測試方法的流程示意圖。FIG. 3 is a schematic flowchart of a method for testing high light transmittance glass according to an embodiment of the present invention.

圖4為本發明實施例的高透光率玻璃的測試方法的前置步驟示意圖。FIG. 4 is a schematic diagram of the pre-steps of a test method for high light transmittance glass according to an embodiment of the present invention.

圖5為本發明實施例的高透光率玻璃的測試方法的置件步驟示意圖。FIG. 5 is a schematic diagram of the installation steps of the method for testing high light transmittance glass according to an embodiment of the present invention.

圖6為本發明實施例的高透光率玻璃的測試方法的激發步驟示意圖。FIG. 6 is a schematic diagram of the excitation steps of the test method for high light transmittance glass according to an embodiment of the present invention.

圖7為本發明實施例的高透光率玻璃的測試方法的接收步驟示意圖。FIG. 7 is a schematic diagram of receiving steps of a method for testing high light transmittance glass according to an embodiment of the present invention.

100:激發式玻璃測試設備 100: Excitation glass test equipment

1:高透光率玻璃載台 1: High transmittance glass stage

11:承載面 11: Bearing surface

12:激發區域 12: excitation area

2:有機物質激發器 2: Organic matter exciter

3:可見光接收器 3: Visible light receiver

31:紫外光截止層 31: UV cut-off layer

200:高透光率玻璃 200: high light transmittance glass

201:玻璃本體 201: Glass body

202:抗反射層 202: Anti-reflective layer

203:抗紅外線層 203: Anti-infrared layer

204:待偵測面 204: face to be detected

300:有機物質 300: organic matter

UV:紫外光線 UV: ultraviolet light

C:中心光軸 C: Central optical axis

P:光接收光軸 P: Light receiving optical axis

α:夾角 α: included angle

L:等向性白光 L: Isotropic white light

Claims (7)

一種高透光率玻璃的測試方法，包括：一前置步驟：提供至少一個高透光率玻璃及一激發式玻璃測試設備；其中，至少一個所述高透光率玻璃包含有一玻璃本體及鍍設於所述玻璃本體的一抗反射層；一置件步驟：將至少一個所述高透光率玻璃設置於所述激發式玻璃測試設備的一高透光率玻璃載台的一激發區域上；其中，遠離所述高透光率玻璃載台的至少一個所述高透光率玻璃的一表面定義為一待偵測面；一激發步驟：以所述激發式玻璃測試設備的一有機物質激發器朝向所述激發區域發出波長介於315奈米~400奈米的一紫外光線，以激發位於所述待偵測面上的有機物質，使所述有機物質發出一等向性白光；以及一接收步驟：以位在所述紫外光線相對於所述激發區域的光反射區域之外的一可見光接收器，來接收所述有機物質所被激發出的所述等向性白光；其中，於所述前置步驟中，至少一個所述高透光率玻璃的數量為多個，並且多個所述高透光率玻璃黏貼於一承載板上；其中，所述承載板能在所述高透光率玻璃載台上移動，以使多個所述高透光率玻璃逐一地經過所述置件步驟、所述激發步驟、及所述接收步驟。 A method for testing high light transmittance glass includes: a pre-step: providing at least one high light transmittance glass and an excitation type glass test equipment; wherein at least one of the high light transmittance glass includes a glass body and a plating An anti-reflective layer provided on the glass body; a placement step: at least one of the high-transmittance glass is placed on an excitation area of a high-transmittance glass stage of the excitation glass test equipment Wherein, a surface of at least one of the high-transmittance glass that is far from the high-transmittance glass stage is defined as a surface to be detected; an excitation step: an organic substance in the excitation-type glass test equipment The exciter emits an ultraviolet light with a wavelength ranging from 315 nm to 400 nm toward the excitation region to excite the organic substance on the surface to be detected, so that the organic substance emits an isotropic white light; and A receiving step: receiving the isotropic white light excited by the organic substance with a visible light receiver located outside the light reflection area of the ultraviolet light with respect to the excitation area; wherein, In the pre-step, the number of at least one high-transmittance glass is multiple, and multiple high-transmittance glasses are pasted on a carrier plate; wherein, the carrier plate can be mounted on the high-transmittance glass. The light transmittance glass stage is moved to make a plurality of the high light transmittance glasses go through the placing step, the excitation step, and the receiving step one by one. 如請求項1所述的高透光率玻璃的測試方法，其中，於所述前置步驟中，所述承載板包含有一藍色黏接膜，並且多個所述高透光率玻璃是黏貼於所述藍色黏接膜上。 The method for testing high light transmittance glass according to claim 1, wherein, in the pre-step, the carrier plate includes a blue adhesive film, and a plurality of the high light transmittance glasses are pasted On the blue adhesive film. 如請求項1所述的高透光率玻璃的測試方法，其中，於所述激發步驟中，所述紫外光線會在穿過所述玻璃本體的過程中消散。 The method for testing high light transmittance glass according to claim 1, wherein, in the excitation step, the ultraviolet light is dissipated during the process of passing through the glass body. 如請求項1所述的高透光率玻璃的測試方法，其中，至少一個所述高透光率玻璃進一步包含有一抗紅外線層，並且所述抗紅外線層與所述抗反射層分別形成於所述玻璃本體的相反兩個表面上；所述高透光率玻璃對應波長介於410奈米~810奈米的光線具有至少90%的穿透率。 The method for testing high light transmittance glass according to claim 1, wherein at least one of the high light transmittance glass further includes an anti-infrared layer, and the anti-infrared layer and the anti-reflection layer are respectively formed on the On two opposite surfaces of the glass body; the high-transmittance glass corresponding to light with a wavelength between 410 nanometers and 810 nanometers has a transmittance of at least 90%. 一種激發式玻璃測試設備，用於偵測一高透光率玻璃上的有機物質，所述激發式玻璃測試設備包括：一高透光率玻璃載台，包含有一承載面，並且所述承載面定義有用來承載所述高透光率玻璃的一激發區域；一有機物質激發器，位於所述承載面的上方，並且所述有機物質激發器能朝向所述激發區域發出波長介於315奈米~400奈米的一紫外光線；其中，所述有機物質激發器所發出的紫外光線能用來激發所述高透光率玻璃上的所述有機物質，以使所述有機物質發出一等向性白光；以及一可見光接收器，位於所述承載面的上方，並且所述可見光接收器位在所述紫外光線相對於所述激發區域的一光反射區域之外；其中，所述可見光接收器用來接收所述有機物質所被激發出的所述等向性白光；其中，所述可見光接收器位於所述承載面的正上方；其中，所述有機物質激發器定義有一中心光軸，所述可見光接收器定義有垂直於所述激發區域的一光接收光軸，並且所述中心光軸與所述光接收光軸相夾形成有小於90度的一夾角。 An excitation type glass test equipment for detecting organic substances on a high light transmittance glass, the excitation type glass test equipment includes: a high light transmittance glass stage, including a bearing surface, and the bearing surface An excitation region for supporting the high light transmittance glass is defined; an organic substance exciter is located above the carrying surface, and the organic substance exciter can emit toward the excitation region with a wavelength of 315 nm ~400 nanometers of ultraviolet light; wherein the ultraviolet light emitted by the organic substance exciter can be used to excite the organic substance on the high light transmittance glass, so that the organic substance emits an isotropic White light; and a visible light receiver located above the bearing surface, and the visible light receiver is located outside of a light reflection area of the ultraviolet light relative to the excitation region; wherein the visible light receiver is used To receive the isotropic white light excited by the organic substance; wherein the visible light receiver is located directly above the bearing surface; wherein the organic substance exciter defines a central optical axis, the The visible light receiver is defined with a light receiving optical axis perpendicular to the excitation region, and the central optical axis and the light receiving optical axis form an included angle of less than 90 degrees. 如請求項5所述的激發式玻璃測試設備，其中，所述可見光接收器還包含有面向所述激發區域的一紫外光截止層(UV cutter)，用以過濾所述紫外光線。 The exciting glass test equipment according to claim 5, wherein the visible light receiver further includes a UV cutter facing the exciting area to filter the ultraviolet light. 如請求項6所述的激發式玻璃測試設備，其中，所述高透光率玻璃載台的所述承載面為不透光狀。 The excitation type glass test equipment according to claim 6, wherein the bearing surface of the high light transmittance glass stage is opaque.

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