TWM481367U - Solar simulator - Google Patents

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Publication number
TWM481367U
TWM481367U TW103205177U TW103205177U TWM481367U TW M481367 U TWM481367 U TW M481367U TW 103205177 U TW103205177 U TW 103205177U TW 103205177 U TW103205177 U TW 103205177U TW M481367 U TWM481367 U TW M481367U
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Taiwan
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light
lamp
long
lamp tube
solar simulator
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TW103205177U
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Chinese (zh)
Inventor
Song-Nan Chen
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All Real Technology Co Ltd
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Priority to TW103205177U priority Critical patent/TWM481367U/en
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Description

太陽光模擬器Solar simulator

本新型是有關於一種光線的模擬器,特別是指一種能發出太陽光光譜的太陽光模擬器。The present invention relates to a light simulator, and more particularly to a solar simulator capable of emitting a spectrum of sunlight.

已知太陽光模擬器可模擬發射出接近太陽光光譜之光線,可應用於太陽能電池之電性及轉換效率的檢測。參閱圖1,為一種已知太陽光模擬器,主要包含一光源11、一燈罩12,以及一圖未示且用於使光線均勻的均光單元。該光源11為燈泡式並且為點光源,該燈罩12則為三維立體形狀的非球面鏡,圍繞在該光源11的上下左右周圍,以將該光源11的光線朝前反射。除了採用上述燈泡式光源之外,另外一種已知太陽光模擬器的光源則採用長型燈管,例如圖2所示之美國專利US6548819號專利案,其結構主要包含:數個光源13、數個平面鏡14,以及數個光譜過濾片15。該等光源13分別為一長型燈管,並藉由該等平面鏡14反射光線。但由於設置數個平面鏡14時,各平面鏡14之間的夾角必須配合才能達到最佳化反射光線效果,造成在調整上較麻煩,如此亦導致照射面上的光均勻度較不易調整,容易使照射面之光均勻度不佳;此外,設置數 個平面鏡14還使元件數量不夠精簡。The solar simulator is known to simulate the emission of light close to the spectrum of sunlight, and can be applied to the detection of the electrical properties and conversion efficiency of solar cells. Referring to Fig. 1, a known solar simulator mainly includes a light source 11, a lamp cover 12, and a homogenizing unit not shown and used to make the light uniform. The light source 11 is a bulb type and is a point light source. The lamp cover 12 is a three-dimensional aspherical mirror, and surrounds the upper, lower, left and right sides of the light source 11 to reflect the light of the light source 11 forward. In addition to the above-mentioned bulb-type light source, another known solar simulator uses a long-shaped lamp, such as the U.S. Patent No. 6,548,819, which is shown in Fig. 2. The structure mainly includes: a plurality of light sources 13, A flat mirror 14 and a plurality of spectral filters 15. The light sources 13 are each a long type of light tube, and the light is reflected by the plane mirrors 14. However, since a plurality of plane mirrors 14 are disposed, the angle between the plane mirrors 14 must be matched to achieve an optimized reflection light effect, which causes trouble in adjustment, which also causes the light uniformity on the illumination surface to be difficult to adjust, which is easy to make. The uniformity of light on the illuminated surface is not good; in addition, the number of settings The flat mirror 14 also reduces the number of components.

因此,本新型之目的,即在提供一種結構創新、光均勻度佳、元件精簡的太陽光模擬器。Therefore, the purpose of the present invention is to provide a solar simulator with structural innovation, good light uniformity, and streamlined components.

於是,本新型太陽光模擬器,包含:一長型燈管、一燈罩,以及一均光單元。Thus, the novel solar simulator comprises: a long lamp, a lamp cover, and a homogenizing unit.

該燈罩朝向該長型燈管彎曲形成二維的C型拋物面,該燈罩定義出一焦距線,該長型燈管沿該焦距線設置,該C型拋物面具有一開口,該長型燈管被該燈罩圍繞於該開口內,由該長型燈管朝向該開口定義出一光軸,該光軸與該焦距線垂直。該均光單元設置在該光軸上,使該長型燈管所發出的光線及受該燈罩反射的光線通過,而將光線均勻化地投射。The lampshade is bent toward the long lamp tube to form a two-dimensional C-shaped paraboloid, the lampshade defines a focal length line, the long lamp tube is disposed along the focal length line, the C-shaped parabolic mask has an opening, and the long lamp tube is The lampshade surrounds the opening, and an elongated optical tube defines an optical axis toward the opening, the optical axis being perpendicular to the focal length line. The light homogenizing unit is disposed on the optical axis, and the light emitted by the long lamp tube and the light reflected by the lamp cover are passed, and the light is uniformly projected.

本新型之功效:藉由上述創新結構,該燈罩為二維的C型拋物面,且其延伸範圍可涵蓋該長型燈管周遭的大部分面積,能有效地將該長型燈管之光線向前反射。而且該燈罩設計能簡化元件數量,要進行光學曲率調整設計時也較為容易,可達到最佳化的反射光線效果,使光線均勻投射。The effect of the novel: With the above innovative structure, the lampshade is a two-dimensional C-shaped paraboloid, and its extension range can cover most of the area around the long lamp tube, and can effectively illuminate the light of the long lamp tube Front reflection. Moreover, the lampshade design can simplify the number of components, and it is also easy to perform optical curvature adjustment design, thereby achieving an optimized reflected light effect and uniformly projecting light.

2‧‧‧長型燈管2‧‧‧Long lamp

3‧‧‧燈罩3‧‧‧shade

30‧‧‧開口30‧‧‧ openings

31‧‧‧第一罩部31‧‧‧First cover

32‧‧‧第二罩部32‧‧‧Second cover

33‧‧‧反射面33‧‧‧reflecting surface

34‧‧‧連接部位34‧‧‧Connecting parts

4‧‧‧均光單元4‧‧‧Homogeneous unit

41‧‧‧蒼蠅眼透鏡41‧‧‧fly eye lens

411‧‧‧透鏡單元411‧‧‧ lens unit

5‧‧‧調整板5‧‧‧Adjustment board

51‧‧‧板本體51‧‧‧ board body

52‧‧‧遮蔽部52‧‧‧Shading Department

521‧‧‧格點521‧‧ ‧ points

6‧‧‧聚光透鏡6‧‧‧ Concentrating lens

7‧‧‧調整膜7‧‧‧Adjustment film

71‧‧‧膜本體71‧‧‧ membrane body

72‧‧‧遮蔽部72‧‧‧Shading Department

721‧‧‧格點721‧‧ ‧ points

81‧‧‧焦距線81‧‧‧Focus line

L‧‧‧光軸L‧‧‧ optical axis

本新型之其他的特徵及功效,將於參照圖式的實施方式中清楚地呈現,其中:圖1是一種已知太陽光模擬器之部分元件的立體圖; 圖2是另一種已知太陽光模擬器之側視示意圖;圖3是本新型太陽光模擬器的一第一較佳實施例的後視立體分解圖;圖4是該第一較佳實施例的側視示意圖;及圖5是本新型太陽光模擬器的一第二較佳實施例的側視示意圖。Other features and effects of the present invention will be apparent from the following description of the drawings, wherein: FIG. 1 is a perspective view of a part of a known solar simulator; 2 is a side elevational view of another known solar simulator; FIG. 3 is a rear perspective exploded view of a first preferred embodiment of the present solar simulator; FIG. 4 is the first preferred embodiment FIG. 5 is a side elevational view of a second preferred embodiment of the present solar simulator.

在本新型被詳細描述之前,應當注意在以下的說明內容中,類似的元件是以相同的編號來表示。Before the present invention is described in detail, it should be noted that in the following description, similar elements are denoted by the same reference numerals.

參閱圖3、4,本新型太陽光模擬器之第一較佳實施例包含:一長型燈管2、一燈罩3、一均光單元4、一調整板5,以及一聚光透鏡6。在以下說明內容中,以該長型燈管2往該調整板5的方向為前方,亦即,整體光線的前進方向為前方。Referring to Figures 3 and 4, a first preferred embodiment of the present solar simulator includes a long lamp tube 2, a lamp cover 3, a leveling unit 4, an adjustment plate 5, and a collecting lens 6. In the following description, the direction in which the long lamp 2 is directed toward the adjustment plate 5 is forward, that is, the direction in which the entire light beam travels is forward.

該長型燈管2軸向延伸呈長管狀,其為一種弧光燈,主要是藉由電力在氬或氖氣中激發水銀蒸氣,以產生電漿並發出短波紫外線,紫外線被燈管內的磷吸收後即發出可見光以照明。該長型燈管2內設有圖未示的安定器與啟動器,能配合產生瞬間高壓而將氣體電離,藉由此瞬時高能量能使該長型燈管2快速點亮發光。該長型燈管2的燈弧(Lamp Arc,指燈管正、負極距離)長度大於20mm,較佳地可為50mm~2000mm。The long lamp tube 2 extends axially in a long tube shape, and is an arc lamp, which mainly excites mercury vapor in argon or helium by electric power to generate plasma and emit short-wave ultraviolet rays, and the ultraviolet rays are phosphorus in the lamp tube. After absorption, visible light is emitted to illuminate. The long lamp tube 2 is provided with a ballast and a starter (not shown), which can be used to ionize the gas in conjunction with the generation of an instantaneous high voltage, whereby the long lamp 2 can quickly illuminate the light. The length of the lamp arc (Lamp Arc, the positive and negative distances of the lamp) is greater than 20 mm, preferably 50 mm to 2000 mm.

該燈罩3為一體成型,朝向該長型燈管2彎曲形成二維的C型拋物面,且該C型拋物面具有一開口30。 該燈罩3定義出一焦距線81,該焦距線81的延伸方向平行該長型燈管2的延伸方向。該長型燈管2被該燈罩3圍繞於該開口30內,並且沿該焦距線81設置,如此使該長型燈管2發出且被該燈罩3反射的光線,可呈平行光線射出。由該長型燈管2朝向該開口30定義出一光軸L,該光軸L與該焦距線81垂直,該光軸L即為本新型該太陽光模擬器整個光學系統之光軸。而該焦距線81為該燈罩3之C型拋物面的數個焦點的連線。該燈罩3包括一延伸於該長型燈管2上方的第一罩部31,以及一與該第一罩部31一體連接且延伸於該長型燈管2下方的第二罩部32。該第二罩部32與該第一罩部31的一連接部位34位於該長型燈管2相反於該開口30的一側。該第一罩部31與該第二罩部32共同界定一可反射該長型燈管2之光線且呈拋物面的反射面33,此與傳統的三維立體式燈罩(如圖1之燈罩12)不同。The lampshade 3 is integrally formed and bent toward the long lamp tube 2 to form a two-dimensional C-shaped paraboloid, and the C-shaped parabolic mask has an opening 30. The lampshade 3 defines a focal length line 81 which extends in a direction parallel to the direction in which the elongated bulb 2 extends. The long lamp 2 is surrounded by the lamp cover 3 and disposed along the focal length line 81 such that the light emitted by the long lamp 2 and reflected by the lamp cover 3 can be emitted in parallel light. An optical axis L is defined by the elongated lamp 2 toward the opening 30. The optical axis L is perpendicular to the focal length line 81, which is the optical axis of the entire optical system of the novel solar simulator. The focal length line 81 is a line connecting a plurality of focal points of the C-shaped paraboloid of the globe 3. The lamp cover 3 includes a first cover portion 31 extending above the elongated lamp tube 2, and a second cover portion 32 integrally connected to the first cover portion 31 and extending below the elongated lamp tube 2. A connecting portion 34 of the second cover portion 32 and the first cover portion 31 is located on a side of the elongated bulb 2 opposite to the opening 30. The first cover portion 31 and the second cover portion 32 together define a reflective surface 33 that reflects the light of the elongated lamp tube 2 and has a paraboloid. This is in contrast to a conventional three-dimensional three-dimensional lamp cover (such as the lamp cover 12 of FIG. 1). different.

該均光單元4沿該光軸L而間隔設置在該長型燈管2前側,能使該長型燈管2所發出的光線及受該燈罩3反射的光線通過,而將光線均勻化地投射。該均光單元4包括二前後設置且可供該長型燈管2之光線通過的蒼蠅眼透鏡(Fly-Eye Lens)41,每一蒼蠅眼透鏡41具有數個呈陣列式排列的透鏡單元411,每一透鏡單元411即相當於一個小透鏡,因此每一蒼蠅眼透鏡41實際上是由數個陣列式排列的小透鏡所組成。The light equalizing unit 4 is disposed on the front side of the long lamp tube 2 along the optical axis L, so that the light emitted by the long lamp tube 2 and the light reflected by the lamp cover 3 can pass, and the light is evenly distributed. projection. The homogenizing unit 4 includes two fly-eye lenses (Fly-Eye Lens) 41 disposed front and rear and allowing the light of the long-shaped tube 2 to pass, and each fly-eye lens 41 has a plurality of lens units 411 arranged in an array. Each lens unit 411 is equivalent to a small lens, and thus each fly eye lens 41 is actually composed of a plurality of arrayed lenslets.

在此將較靠近該長型燈管2的該蒼蠅眼透鏡41稱為第一個蒼蠅眼透鏡41,而較遠離該長型燈管2的該蒼 蠅眼透鏡41稱為第二個蒼蠅眼透鏡41。當該長型燈管2的光線通過該均光單元4時,該第一個蒼蠅眼透鏡41可藉由其數個透鏡單元411將光源的整個寬光束光線分為數個細光束光線,且每一細光束光線可受到與其位置對稱的其他細光束光線補償,從而可提高光均勻度;接著光線再受到該第二個蒼蠅眼透鏡41之修正與補償後通過該聚光透鏡6。Here, the fly-eye lens 41 closer to the long-shaped tube 2 is referred to as a first fly-eye lens 41, and the celestial being farther away from the long-shaped tube 2 The fly's eye lens 41 is referred to as a second fly eye lens 41. When the light of the long lamp 2 passes through the homogenizing unit 4, the first fly-eye lens 41 can divide the entire wide beam of the light source into a plurality of thin beam rays by its plurality of lens units 411, and each A thin beam of light can be compensated by other beam light rays that are symmetric with respect to its position, thereby improving light uniformity; then the light is passed through the collecting lens 6 after being corrected and compensated by the second fly eye lens 41.

因此,該均光單元4整體而言,可使通過光線形成數個細光束光線,並藉由對稱性地重疊與光線補償,達到提升光均勻度與亮度之功效。本新型該均光單元4之結構不限於本實施例之舉例,因為只要能將光線均勻投射之其他等效結構,皆可作為該均光單元4。Therefore, the light-smoothing unit 4 as a whole can form a plurality of light beam rays by light, and by symmetry overlapping and light compensation, the effect of improving light uniformity and brightness can be achieved. The structure of the homogenizing unit 4 of the present invention is not limited to the example of the embodiment, because the equivalent light structure can be used as the uniform light unit 4 as long as it can uniformly project light.

補充說明的是,本實施例的每一蒼蠅眼透鏡41的前表面與後表面都具有曲度,亦即為雙面曲率。但實施時每一蒼蠅眼透鏡41也可以為單面曲率,亦即,每一蒼蠅眼透鏡41的其中一表面為曲率面,另一表面則可為平面;若為單面曲率時,則該第一個蒼蠅眼透鏡41之曲率面朝向該長型燈管2,該第二個蒼蠅眼透鏡41之曲率面則朝向該聚光透鏡6。It should be noted that the front surface and the rear surface of each of the fly-eye lenses 41 of the present embodiment have a curvature, that is, a double-sided curvature. However, each fly eye lens 41 may also have a single-sided curvature, that is, one surface of each fly-eye lens 41 is a curvature surface, and the other surface may be a plane; if it is a single-sided curvature, then The curvature surface of the first fly-eye lens 41 faces the long-shaped tube 2, and the curvature surface of the second fly-eye lens 41 faces the condensing lens 6.

該調整板5也排列在該光軸L上,並位於該長型燈管2與該均光單元4之間。該調整板5包括一可透光的板本體51,以及一位於該板本體51上並可遮蔽光線的遮蔽部52。本實施例的遮蔽部52包括數個格點521,該遮蔽部52可利用印刷方式或塗上、鍍上、貼上等方式形成於該 板本體51表面。The adjustment plate 5 is also arranged on the optical axis L and is located between the elongated lamp tube 2 and the light homogenizing unit 4. The adjustment plate 5 includes a light transmissive plate body 51, and a shielding portion 52 on the plate body 51 and shielding light. The shielding portion 52 of the embodiment includes a plurality of lattice points 521, and the shielding portion 52 can be formed by printing, coating, plating, or the like. The surface of the plate body 51.

該聚光透鏡6位於該光軸L上,並設置在該均光單元4前側。該聚光透鏡6例如一凸透鏡,本實施例為一平凸透鏡,並具有聚光效果,可將通過該均光單元4而來的光線聚光。The collecting lens 6 is located on the optical axis L and is disposed on the front side of the light homogenizing unit 4. The condensing lens 6 is, for example, a convex lens. In this embodiment, a plano-convex lens has a condensing effect, and the light passing through the halogen unit 4 can be condensed.

本新型使用時,該長型燈管2之部分光線直接向前射向該調整板5與該均光單元4,部分光線則受到該燈罩3之反射面33反射後再射向該調整板5與均光單元4。接著,光線可受到該均光單元4與該聚光透鏡6之光學作用,進而於一圖未示的待測物件的待測面上,形成均勻且高亮度的照明投射光。而且投射光的光形圖案取決於該均光單元4的外形,例如,該均光單元4之外形為方形時,則最後投射出的光形即為方形。When the present invention is used, part of the light of the long lamp 2 is directly directed forward toward the adjustment plate 5 and the homogenizing unit 4, and part of the light is reflected by the reflecting surface 33 of the lamp cover 3 and then directed to the adjusting plate 5 With the homogenizing unit 4. Then, the light can be optically affected by the homogenizing unit 4 and the collecting lens 6, and further, uniform and high-intensity illumination projection light is formed on a surface to be tested of an object to be tested (not shown). Moreover, the light pattern of the projected light depends on the outer shape of the light homogenizing unit 4. For example, when the light equalizing unit 4 is square, the final projected light shape is a square shape.

補充說明的是,該調整板5的作用在於提升光線均勻度,主要是藉由該調整板5上的格點521來減少對應位置的光線通過量,以避免於該待測面上有局部光線較亮的問題,因此,格點521的位置對應於待測面上較亮的部位,所述較亮的部位通常對應於每一透鏡單元411的中心位置處。實際使用上,可先在未設置有該調整板5的情況下,檢測該待測面上的照度均勻度,並可由此得知該待測面上的哪些位置照度較大,則該些位置處的光線即需要被稍微遮擋;而調整板5可以準備多片,每一調整板5上的遮擋設計可以各不相同,因此此時即可選用遮擋位置適當的調整板5來置於該均光單元4與該長型燈管2之間, 即可遮擋較亮部位的光線,從而使該待測面上的投射光強度均勻、照度均勻。It is to be noted that the function of the adjusting plate 5 is to improve the uniformity of the light, mainly by reducing the amount of light passing through the corresponding position by the lattice point 521 on the adjusting plate 5, so as to avoid local light on the surface to be tested. A brighter problem, therefore, the position of the grid point 521 corresponds to a brighter portion of the surface to be measured, which generally corresponds to the center position of each lens unit 411. In actual use, the illuminance uniformity of the surface to be tested can be detected first without the adjustment plate 5 being provided, and the positions on the surface to be tested can be known to have a large illuminance, and the positions are The light at the place needs to be slightly blocked; the adjustment plate 5 can be prepared in multiple pieces, and the shielding design on each adjustment plate 5 can be different, so that the adjustment plate 5 with the appropriate blocking position can be selected at this time. Between the light unit 4 and the long tube 2, The light of the brighter part can be blocked, so that the intensity of the projected light on the surface to be tested is uniform and the illumination is uniform.

綜上所述,藉由該燈罩3為二維的C型拋物面形狀,且該燈罩3的延伸範圍涵蓋該長型燈管2的上方、下方與後方,可涵蓋該長型燈管2周遭的大部分面積,進而能有效地將該長型燈管2之光線向前反射。而且該燈罩3設計能簡化元件數量,要進行光學曲率調整設計時也較為容易,可達到最佳化的反射光線效果,使光線均勻投射,故本新型確實藉由上述創新結構來達到本新型之目的。In summary, the lampshade 3 has a two-dimensional C-shaped parabolic shape, and the extending range of the lampshade 3 covers the upper, lower and rear sides of the long lamp tube 2, and can cover the circumference of the long lamp tube 2. Most of the area, in turn, effectively reflects the light of the long tube 2 forward. Moreover, the design of the lampshade 3 can simplify the number of components, and it is also easy to perform optical curvature adjustment design, thereby achieving an optimized reflected light effect and uniformly projecting light, so the present invention achieves the novel by the above innovative structure. purpose.

參閱圖5,本新型太陽光模擬器之第二較佳實施例,與該第一較佳實施例的結構大致相同,不同的地方在於:本實施例是以一調整膜7來取代該第一較佳實施例的調整板。本實施例的調整膜7位於該均光單元4較靠近該長型燈管2的該蒼蠅眼透鏡41表面上,並朝向該長型燈管2。該調整膜7包括一可透光的膜本體71,以及一位於該膜本體71上並可遮蔽該均光單元4之局部的遮蔽部72,該遮蔽部72具有數個可用於遮擋光線的格點721,該遮蔽部72可利用印刷方式形成於該膜本體71上。Referring to FIG. 5, the second preferred embodiment of the present solar simulator is substantially the same as the structure of the first preferred embodiment. The difference is that the first embodiment replaces the first with an adjustment film 7. The adjustment plate of the preferred embodiment. The adjustment film 7 of the present embodiment is located on the surface of the fly-eye lens 41 of the light-receiving unit 4 which is closer to the long-shaped lamp tube 2, and faces the long-shaped lamp tube 2. The adjustment film 7 includes a light transmissive film body 71, and a shielding portion 72 on the film body 71 and shielding a part of the light homogenizing unit 4, the shielding portion 72 has a plurality of cells that can be used to block light. At point 721, the shielding portion 72 can be formed on the film body 71 by printing.

該調整膜7可利用貼附方式形成在該蒼蠅眼透鏡41表面。又或者,可於較靠近該長型燈管2的該蒼蠅眼透鏡41表面,直接利用鍍膜或塗布等方式形成具有數個格點721的遮蔽部72,如此同樣可以適當遮擋光線、提升光均勻度。The adjustment film 7 can be formed on the surface of the fly-eye lens 41 by means of attachment. Alternatively, the shielding portion 72 having a plurality of lattice points 721 can be formed directly on the surface of the fly-eye lens 41 closer to the long-shaped bulb 2 by means of plating or coating, so that the light can be appropriately blocked and the light can be uniformly enhanced. degree.

惟以上所述者,僅為本新型之較佳實施例而已 ,當不能以此限定本新型實施之範圍,即大凡依本新型申請專利範圍及專利說明書內容所作之簡單的等效變化與修飾,皆仍屬本新型專利涵蓋之範圍內。However, the above is only the preferred embodiment of the present invention. The scope of the present invention is not limited thereto, that is, the simple equivalent changes and modifications made in accordance with the scope of the new patent application and the contents of the patent specification are still within the scope of the present patent.

2‧‧‧長型燈管2‧‧‧Long lamp

3‧‧‧燈罩3‧‧‧shade

30‧‧‧開口30‧‧‧ openings

31‧‧‧第一罩部31‧‧‧First cover

32‧‧‧第二罩部32‧‧‧Second cover

33‧‧‧反射面33‧‧‧reflecting surface

34‧‧‧連接部位34‧‧‧Connecting parts

4‧‧‧均光單元4‧‧‧Homogeneous unit

41‧‧‧蒼蠅眼透鏡41‧‧‧fly eye lens

411‧‧‧透鏡單元411‧‧‧ lens unit

5‧‧‧調整板5‧‧‧Adjustment board

51‧‧‧板本體51‧‧‧ board body

52‧‧‧遮蔽部52‧‧‧Shading Department

521‧‧‧格點521‧‧ ‧ points

6‧‧‧聚光透鏡6‧‧‧ Concentrating lens

81‧‧‧焦距線81‧‧‧Focus line

L‧‧‧光軸L‧‧‧ optical axis

Claims (7)

一種太陽光模擬器,包含:一長型燈管;一燈罩,朝向該長型燈管彎曲形成二維的C型拋物面,該燈罩定義出一焦距線,該長型燈管沿該焦距線設置,該C型拋物面具有一開口,該長型燈管被該燈罩圍繞於該開口內,由該長型燈管朝向該開口定義出一光軸,該光軸與該焦距線垂直;及一均光單元,設置在該光軸上,使該長型燈管所發出的光線及受該燈罩反射的光線通過,而將光線均勻化地投射。A solar light simulator comprising: a long lamp tube; a lamp cover bent toward the long lamp tube to form a two-dimensional C-shaped paraboloid, the lampshade defining a focal length line along which the long lamp tube is disposed The C-shaped parabolic mask has an opening, the elongated lamp tube is surrounded by the lamp cover, and an optical axis is defined by the long lamp tube toward the opening, the optical axis is perpendicular to the focal length line; The light unit is disposed on the optical axis, and the light emitted by the long lamp and the light reflected by the lamp cover are passed, and the light is uniformly projected. 如請求項1所述的太陽光模擬器,其中,該燈罩為一體成型。The solar simulator of claim 1, wherein the shade is integrally formed. 如請求項1所述的太陽光模擬器,還包含一位於該長型燈管與該均光單元之間的調整板,該調整板包括一可透光的板本體,以及一位於該板本體上並可遮蔽光線的遮蔽部。The solar simulator of claim 1 further comprising an adjustment plate between the elongated lamp and the homogenizing unit, the adjustment plate comprising a light transmissive plate body, and a plate body A shield that blocks the light. 如請求項1所述的太陽光模擬器,還包含一位於該均光單元表面且朝向該長型燈管的調整膜,該調整膜包括一可遮擋該均光單元之局部並能遮蔽光線的遮蔽部。The solar simulator as claimed in claim 1 further comprising an adjustment film on the surface of the light homogenizing unit and facing the long lamp tube, the adjustment film comprising a portion that blocks the light homogenizing unit and shields light. Shading section. 如請求項1至4中任一項所述的太陽光模擬器,其中,該均光單元包括二前後設置且可供該長型燈管之光線通過的蒼蠅眼透鏡,每一蒼蠅眼透鏡具有數個呈陣列式排列的透鏡單元。The solar simulator according to any one of claims 1 to 4, wherein the homogenizing unit comprises two fly-eye lenses disposed front and rear and allowing light of the long-shaped tube to pass, each fly-eye lens having A plurality of lens units arranged in an array. 如請求項5所述的太陽光模擬器,還包含一設置在該均光單元前側並可聚光的聚光透鏡。The solar simulator as claimed in claim 5, further comprising a collecting lens disposed on the front side of the light homogenizing unit and capable of collecting light. 如請求項1所述的太陽光模擬器,其中,該燈罩包括一延伸於該長型燈管上方的第一罩部,以及一與該第一罩部一體連接且延伸於該長型燈管下方的第二罩部,該第一罩部與該第二罩部共同界定一可反射該長型燈管之光線且呈拋物面的反射面。The solar simulator of claim 1, wherein the lamp cover comprises a first cover portion extending above the elongated lamp tube, and an integral connection with the first cover portion and extending over the elongated lamp tube The lower second cover portion, the first cover portion and the second cover portion together define a reflective surface that reflects the light of the elongated lamp and is parabolic.
TW103205177U 2014-03-26 2014-03-26 Solar simulator TWM481367U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2023155715A1 (en) * 2022-02-16 2023-08-24 深圳紫泓光学技术有限公司 Lighting module for simulating sunlight irradiation, lighting lamp and lighting method

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2023155715A1 (en) * 2022-02-16 2023-08-24 深圳紫泓光学技术有限公司 Lighting module for simulating sunlight irradiation, lighting lamp and lighting method

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