M333656 八、新型說明: 【新型所屬之技術領域】 本創作係有關於一種集光器結構改良,尤指一種 利用一體成形之支撐架兩點支撐之方式使其能穩固安 置於太陽電池模組之上,避免集光裝置於太陽光追蹤 裝置運轉時從太陽電池模組上方鬆脫或掉落,集光器 之功能在於提升太陽電池模組之集光能力,增加太陽 電池模組輸出效率。 【先前技#ί】 |現者太%能發電科技之進步 ί都在持㈣發展中。而如何提升太陽光之利用率, 稭以達到體積不變即能提高太陽電池輸出效率,降低 耗電率等好處,皆為目前太陽光集光|置發展之重點。 二近年來發展出之各式光源引導裝置技術中,集 2係—重要組件,如第4圖所示,此集光器5主要 Γ入射面51、一出射面”、一在該入射面5 上時該出/面52間之反射面53所構成。當其於運 :時:,源6之光線61雖然可由該入射面51進 出反:面5 3反射後再由該出射面5 2聚集射 知技術之行進過程中’由於該华光 其在整體…光器5黏於結構上, 在正體、,·。構上即無—體成形之穩定,若將 目票物上,不僅容易與目標物產生晃動而脫落,且在 M333656 ,光線之利用上,也易因此不穩定所發生之晃動導致與 目標物產生脫落之現象,降低光線之再利用率。故了 一般習用者係無法符合使用者於實際使用時之所需。 【新型内容】 本創作之主要目的係在於,利用本創作集光器一 體成形且易於安裝之支撐架結構,可以兩點支撐2方 式穩固在太%電池模組上,因此可增加太陽光能量之 收集進而提升太陽電池模組之輸出效率。避免習知技 術中因震動或晃動,使得集光裝置從太陽電池模組上 脫洛,導致減少光線之再利用率,減低了太陽電池模 組之輸出效能。 為達以上之目的,本創作係一種集光器結構改 良’係至少包含一入射面、一設於該入射面相對另一 端之出射面、一介於該入射面與該出射面間之反射面 及二呈對稱並一體成形於該入射面邊緣處之支撐架所 構成。首先该集光器係先由各支樓架上之螺孔,利用 一螺絲於一太陽電池模組上相對應之螺孔上加以鎖 固’使該集光器可穩固支撐在該太陽電池模組上;當 奴進行收集太陽光時,由太陽光所發出之光線,係由 該入射面投射進入該集光器中,利用該反射面之反射 導引作用,可有效地將太陽光導引至該出射面,並由 "玄出射面集中射出至該太陽電池模組上,藉此增加太 %電池模組輸出之效能。 M333656 •【實施方式】 請參閱『第1圖〜第3圖』所示 作之分解示意圖、本創作之使用狀能別為本創 .^ j讣之便用狀悲不意圖及本創作 之另一結構示意圖。如圖所示··本創作係一種集 結構改良’本創作之集光器工係至少包含一入射面; 該入射面1 1係用以供光源2進入該集光器工, 且該入射面1 1之開口係大於該出射面i 2之開口。 該出射面1 2係設於該入射面i i相對之另一 端’用以使該光源2之光線2 1射出。 :、一出射面1 2、-反射面1 3及二支撐架工4a、 4 b所構成’可以兩點支撐之方式穩固在太陽電、、也 2組上,因此可防止集光器脫離或掉落,並具有易於 安裝之特性,可藉此提升太陽電池模組輸出之效能。、 該反射面13係介於該入射面1i與該出射面工 2之間,用以反射通過該集光器1中之光線2 1。 各支撐架1 4 a、1 4 b係對稱並一體成形於該入 射面1 1邊緣處,且由此邊緣處延伸向下呈L狀,而 各支撐架1 4a、1 4b上係含有一螺孔1 4 la、工4 1 b,用以鎖固於一太陽電池模組3上。以上所述,係 構成一全新之集光器1。 當本創作於運用時,該集光器1係先由其各支樓 架14a、14b上之螺孔14 la、14 lb,利用一 螺絲4 a、4b於該太陽電池模組3上相對應之螺絲3 1 a、3 1 b上加以鎖固,使該集光器1可穩固支撐在 M333656 該太陽電池模組3上。當欲進行收集光源2時,由光 源2所發出之光線21,係由該入射面1!投射進入 該集光器1中,利用該反射面! 3之反射導引作用, 可有效地將光線21導引至該出射面12,並由該出 射面12集中射出至該太陽電池模組3上之太陽電池 晶片3 2。藉此,利用本創作集光器工一體 撐架1 4a、1 4b結構,可以兩點支撐之方式穩固在 該太陽電池模組3上,因此可防止集光器脫離或掉 洛,進而提升太陽電池模組之輸出效能,以避免習知 技術中因震動或晃動而導致集光器脫離或掉落,降低 太%電池模組整體之輸出效能。 本創作之集光器1除了具有一體成形之結構性斑 易於安裝外,並可依不同需求而有不同之形狀變化, 如該集光係、可為-錐狀體、—柱狀體或一六面 體,其中,該錐狀體亦可為圓錐或角錐形態。 綜上所述,本創作係一種集光器結構改良,可有 效改善習用之種種缺點’利用本創作集光器一體成形 二易於安裝之支撐架結構’可以兩點支撐之方式轉固 在场電池模組上,不僅可提升其光線收集之效能, 2免習知技射时動或晃動而導致集光器脫離或 掉洛,降低太陽電池模組整體之輸出*能。創作之産 土能更進步、更實用 '更符合使用者之所須,確已符 3創作專利申請之要件,爰依法提出專利申锖。 M333656 惟以上所述者,僅為本創作之較佳實施例而已, 當不能以此限定本創作實施之範圍;故,凡依本創作 申請專利範圍及創作說明書内容所作之簡單的等效變 化與修飾,皆應仍屬本創作專利涵蓋之範圍内。 M333656 【圖式簡單說明】 第1圖,係本創作之分解示意圖。 第2圖,係本創作之使用狀態示意圖。 第3圖,係本創作之另一結構示意圖。 第4圖,係習知之集光器結構示意圖。 【主要元件符號說明】 (本創作部分) 集光器1 入射面1 1 出射面1 2 反射面1 3 支撐架1 4a、1 4b 螺孔 1 4 1 a、1 4 1 b 光源2 光線2 1 太陽電池模組3 螺絲 3 1 a、3 1 b 太陽電池晶片3 2 (習用部分) 集光器5 入射面5 1 出射面5 2 反射面5 3 M333656 支撐架5 4 光源6 光線6 1M333656 VIII. New Description: [New Technology Field] This creation is about the improvement of a concentrator structure, especially one that uses a two-point support of an integrally formed support frame to enable it to be stably placed in a solar cell module. In the above, the concentrating device is prevented from being loosened or dropped from above the solar cell module when the solar tracking device is in operation. The function of the concentrator is to enhance the concentrating ability of the solar cell module and increase the output efficiency of the solar cell module. [Previous technology #ί] | The current is too% of the power generation technology advancement ί is in the (four) development. How to improve the utilization of sunlight, straw to achieve the same volume can improve the efficiency of solar cell output, reduce the power consumption and other benefits, are the focus of the current development of solar light collection. In the various light source guiding device technologies developed in recent years, the 2 series-important components are assembled. As shown in FIG. 4, the concentrator 5 mainly occupies the incident surface 51, an exit surface, and the incident surface 5 In the upper case, the reflecting surface 53 of the exit/face 52 is formed. When it is in operation: the light 61 of the source 6 can be moved in and out by the incident surface 51: the surface 53 is reflected and then collected by the exit surface 52. During the process of shooting technology, 'because the Huaguang is in the whole...the optical device 5 sticks to the structure, in the normal body, the structure is not the body-forming stability, if the ticket is on, it is not only easy to The target object is shaken and falls off, and in M333656, the use of light is also prone to instability, which causes the phenomenon of falling off with the target object and reduces the re-utilization of the light. Therefore, the general practitioner cannot use it. The need for the actual use. [New content] The main purpose of this creation is to use the support erecter integrated and easy to install support frame structure, two points support 2 way to stabilize in the too% battery module Up, so it can increase sunlight The collection of the quantity further enhances the output efficiency of the solar cell module. Avoiding the vibration or shaking in the prior art, the light collecting device is detached from the solar cell module, thereby reducing the light utilization rate and reducing the solar cell module. For the purpose of the above, the present invention relates to a structure improvement of a concentrator that includes at least one incident surface, an exit surface disposed at the opposite end of the incident surface, and between the incident surface and the exit surface. The reflecting surface and the two supporting surfaces are symmetrically formed and integrally formed at the edge of the incident surface. First, the concentrator is firstly screwed into the solar cell module by a screw hole on each branch frame. The corresponding screw hole is locked to enable the concentrator to be stably supported on the solar battery module; when the slave collects the sunlight, the light emitted by the sunlight is projected into the set by the incident surface. In the optical device, the reflection guiding effect of the reflecting surface can effectively guide the sunlight to the exit surface, and the "unique exit surface" is concentratedly emitted onto the solar cell module, thereby increasing Too% battery module output performance. M333656 • [Embodiment] Please refer to the disassembly diagram shown in "1st to 3rd", and the use of this creation can be used as a creation. Another example of the structure and structure of the creation. As shown in the figure, this creation is a collection of structural improvements. The concentrator system of this creation contains at least one incident surface; the incident surface 1 1 is used for The light source 2 enters the concentrator, and the opening of the incident surface 11 is larger than the opening of the exit surface i 2 . The exit surface 12 is disposed at the opposite end of the incident surface ii for the light source 2 The light rays 2 1 are emitted. :, an exit surface 1 2, a reflective surface 1 3 and two support frames 4a, 4 b constitute 'can be stabilized in the solar power and the two groups in two ways, so Prevents the concentrator from detaching or falling, and has the characteristics of easy installation, which can improve the performance of the solar cell module output. The reflecting surface 13 is interposed between the incident surface 1i and the exit surface 2 for reflecting the light 2 1 passing through the concentrator 1. Each of the support frames 1 4 a, 14 b is symmetrical and integrally formed at the edge of the incident surface 11 , and thus the edge extends downwardly in an L shape, and each of the support frames 14 4 , 14 b contains a screw The holes 1 4 la and 4 1 b are used to lock on a solar battery module 3. As described above, a new concentrator 1 is constructed. When the present invention is used, the concentrator 1 is firstly corresponding to the solar cell module 3 by a screw hole 4a, 14b on each of the trusses 14a, 14b. The screws 3 1 a, 3 1 b are locked, so that the concentrator 1 can be stably supported on the M333656 solar cell module 3. When the light source 2 is to be collected, the light 21 emitted from the light source 2 is projected into the concentrator 1 by the incident surface 1!, and the reflecting surface is utilized! The reflection guiding effect of 3 can effectively guide the light 21 to the exit surface 12, and the emission surface 12 is concentratedly emitted to the solar cell wafer 32 on the solar cell module 3. Thereby, the solar illuminator assembly 1 4a, 14b structure can be stabilized on the solar cell module 3 by two-point support, thereby preventing the concentrator from being detached or falling, thereby enhancing the sun. The output performance of the battery module can avoid the detachment or falling of the concentrator due to vibration or shaking in the prior art, and reduce the overall output performance of the battery module. The concentrator 1 of the present invention has an integral shape and is easy to install, and can have different shape changes according to different needs, such as the concentrating system, which can be a cone, a column or a A hexahedron, wherein the cone may also be in a conical or pyramidal state. In summary, this creation is a kind of concentrator structure improvement, which can effectively improve various shortcomings of the application. 'Using the creative concentrator to form one and two easy to install support frame structure' can be transferred to the field battery module by two points of support. In the group, not only can the performance of light collection be improved, 2 the movement of the concentrator can be detached or dropped, and the overall output of the solar cell module can be reduced. The production of the soil can be more progressive and more practical. It is more in line with the needs of the users. It has indeed fulfilled the requirements of the patent application and filed a patent application in accordance with the law. M333656 However, the above is only the preferred embodiment of this creation, and it is not possible to limit the scope of this creation; therefore, the simple equivalent changes made by the scope of the patent application and the content of the creation specification. Modifications shall remain within the scope of this Creative Patent. M333656 [Simple description of the diagram] Figure 1 is an exploded view of the creation. Figure 2 is a schematic diagram of the state of use of this creation. Figure 3 is a schematic diagram of another structure of the present creation. Fig. 4 is a schematic view showing the structure of a conventional concentrator. [Main component symbol description] (This creation part) Light collector 1 Incident surface 1 1 Exit surface 1 2 Reflecting surface 1 3 Support frame 1 4a, 1 4b Screw hole 1 4 1 a, 1 4 1 b Light source 2 Light 2 1 Solar Module 3 Screw 3 1 a, 3 1 b Solar Cell Chip 3 2 (Used Part) Light Collector 5 Incidence Surface 5 1 Exit Surface 5 2 Reflecting Surface 5 3 M333656 Support 5 4 Light Source 6 Light 6 1