201132278 六、發明說明: 【發明所屬之技術領域】 特別是 能模組 [0001] 本發明是有關於一種太陽能模組框架鎖固社構 有關於一種可減少太陽能板所承受之應为a 框架鎖固結構。 [0002] 【先前技術】 太陽能電池(solar cell)是一種利用太 光電半導體晶片,於接受光線照射時, 〇 及電流;若干太陽能電池實施真空封裂, ,該模組即為太陽能板。 光直接發 能瞬間輪出電摩 陽 電的 可製成 模矣且 [0003] 為使太陽能板容易被移動或利用,通常右— 爪男~框架保 所完成 陽能板避免碰撞損壞,與增加太陽能板的強户 ’此框架均係以四邊框所組接成,其組接是利 斷損 處配合焊接、拉釘或鎖附另一配件螺絲固定方弋於接合 ,使四邊框組接成一穩固的金屬框架。 [0004]然而,太陽能板材質如同玻璃具有質地脆弱的特性其 使用上容易因為本身重力或外力(例如:風力)影響而發 生破損或斷裂,而太陽能板轉換電力的能力又與設置面 積有關,故設置面積通常大且長,讓太陽能板更容易發 生斷損的情形,因此框架成了保護太陽能板非常重要的 角色。 [0005]目前,用來保護太陽能板的框架,若是使用螺絲來鎖固 組接’其螺孔設置於框架之位置大部份皆是一個在上一 個在下’如第1圖至第3圖所示。螺孔以此種方式配置而 成’使得框架組接起來雖然具有較強的拘束力,但也由 100118522 表單編號 A0101 第 3 頁/共 19 頁 1002031198-0 201132278 [0006] [0007] [0008] [0009] [0010] [0011] 100118522 於如此,使得太陽能板會承受更大的應力而造成破壞。 【發明内容】 有鑑於上述習知技藝之問題,本發明之目的就是在提供 一種太陽能模組框架鎖固結構,以解決習知之框架之螺 孔配置方式所造成太陽能板容易受到損壞之問題。 根據本發明之目的,提出一種太陽能模組框架鎖固結構 ,其包含一第一框架。第一框架之内铡包含一支撐結構 ,以及藉由支撐結構及第一框架之頂面所界定出之—第 一卡槽,第一框架之至少一端於内側之中包含複數個螺 孔,各螺孔係設在遠離第一卡槽至一預定距離處且相互 平行。其中,各螺孔係位於一水平線上,且水平線平行 於第一卡槽。 其中,支撐結構所形成之第一卡槽之—側係包含一凹槽 〇 其中’支律結構係呈多邊形,支禮結構之其中—側邊及 相對另一側邊分別設有該螺孔,兩侧邊所設之螺孔之位 置係為相對應。 其中,支撐結構之兩侧邊係與第一框架之底面交接各 螺孔則係設於其交接處。 其中,本發明所述之太陽能模組框架鎖固結構更包含一 第二框架,其至少-端包含複數個通孔,且第二框架與 第-框架相結合組裝時,各通孔係分別對應於各螺孔了 其中,第-框架與第二框架結合組裝,係藉由複數個螺 絲分別穿過各通孔後鎖固於各螺孔。 μ 表單編號Α0101 第4頁/共19頁 [0012] 201132278 [0013] [0014] [0015] [0016]Ο [0017] Ο [0018] [0019] 其中’第二框架之内側包含一接合結構,接合結構與第 二框架之頂面係界定出一第二卡槽’各通孔係設置於接 合結構之—接合面上。 其中,第二框架之外側面及底面分別具有由側邊凹入之 一缺口,缺口之位置係對應於通孔位於接合面之位置。 其中,第二框架之外側面至接合面之距離係大於外側面 至頂面邊緣之距離。 其中,接合結構所形成之第二卡槽之一側係包含一凹槽 〇 根據本發明之目的,又提出一種太陽能模組框架鎖固結 構,其包令—第一框架。第一框架之内侧包含一支推結 構’以及藉由支撐結構及第一框架之頂面所界定出之一 第一卡槽,第一框架之至少一端包含一第一螺孔及一第 二螺孔,第一螺孔及第二螺孔係相互平行並位於一水平 線上,且水平線平行於第一卡槽。其中,支撐結構中之 一側邊及相對另—側邊係與第一框架之底面交接,第一 螺孔及第二螺孔則係分別設於其交接處。 其中,支縣構所形成之第 —卡槽之一侧係包含一凹槽 0 其中’本發明所迷之太陽能模組框架鎖固結構,更包含 第一框架其至少―端包含—第—通孔及—第二通孔 ’且第一框架與第-框架相結合組裝時,第-通孔及第 二通孔係分別對應於第一螺孔及第二螺孔。 100118522 表單編號Α0101 第5頁/共19頁 1002031198-0 201132278 [0020] 其中’第-框架與第二框架結合組裝,係藉由―第一螺 絲及-第二螺絲分別穿過第—通孔及第二通孔後鎖固於 第一螺孔及第二螺孔。 [0021] 其中,第二框架之内侧包含一接合結構,接合結構與第 一框架之頂面係界定出一第二卡槽,第一通孔及第二通 孔係a又置於接合結構之一接合面上。 剛其中,第二框架之外側面及底面分別具有由側邊凹入之 一缺口,缺口之位置係對應於第一通孔及第二通孔位於 接合面之位置。 [0023] 其中,第二框架之外側面至接合面之距離係大於外侧面 至頂面邊緣之距離。 [0024] 其中,接合結構所形成之第二卡槽之一側係包含一凹槽 〇 [00¾]承上所述,依本發明之太陽能模組框架鎖固結構,其可 具有一或多個下述優點: [0026] ( 1 )此太陽能模組框架鎖固結構係將框架中螺孔的位置 向下平移,使得螺孔皆位在與太陽模板平行之水平線上 ,進而使框架於模組受壓時可隨太陽能板之變形行為產 生相應之彈性變形,如此一來可以減少太陽能板整體所 承受之應力’使太陽能板較不易受到破壞。 [0027] ( 2 )此太陽此柄組框架鎖固結構,在第二框竿中所設計 之缺口,可減少框架沖切加工的次數,並有利螺絲滑牙 時之重工性。 100118522 表單編號A0101 第6頁/共19頁 1002031198-0 201132278 【實施方式】 [0028] 〇 請參閱第4圖,其係為本發明之太陽能模組框架鎖固結構 之第-實施例之第-示意圖。此圖係為本發明所述之第 一框架之一實施例之側面部視圖。圖中,第一框架以包 含了支撐結構211、頂面212、底面213、第一卡槽214、 第-螺孔215、第二螺孔216及凹槽217。支撑結構211是 置在第一框架21的内側,而第一卡槽214則是藉由支擇 結構211及頂面212所界定形成的,且第一卡槽214藉由 支撐結構211所形成之一側中有一部份係向下凹入以形成 凹槽217。第一螺孔215及第二螺孔216係設置於第一框 架21之至少一端的内側中。 剛纟第—實施财,支龍構211係為—多邊形之封閉結構 ,支撐結構211的其中一侧邊及相對另一側邊係與第一框 架21的底面213垂直交接,而第一螺孔215及第二螺孔 216則是分別設在遠離第一卡槽214,且為支撐結構211 之兩側邊與底面213交接之處。第一螺孔215及第二螺孔 Q 216在支撐結構211之兩侧邊的位置是相對應且相互平行 的’使第一螺孔215及第二螺孔216會同樣地位在一水平 線218上,而此水平線218會平行於第一卡槽214。 [0030]明參閱第5圖,其係為本發明之太陽能模組框架鎖固結構 之第一實施例之第二示意圖。圖中,除了具有第4圖所述 之第一框架21,更包含了一第二框架22、一第一螺絲31 及一第二螺絲32。第二框架22包含了接合結構221、頂面 222、底面223、一外側面224、第一通孔225、第二通孔 226、第二卡槽227、凹槽228及缺口 229,接合結構221 100118522 表單編號A0101 第7頁/共19頁 1002031198-0 201132278 包含了一接合面2 211。接合結構2 21係設在第二框架2 2 的内側’而第二卡槽227則是藉由接合結構221及第二框 架22之頂面222所界定成形的,且第二卡槽227藉由接合 結構2 21所形成之一側中有一部份係向下凹入以形成凹槽 228。第一通孔225及第二通孔226係設置在第二框架22 之至少一端的内側中’並位於接合面2211之上。第一通 孔225與第二通孔226在接合面2211上之間距離,係對應 於第一螺孔215至第二螺孔216間之距離,讓第一框架21 與第二框架22在組裝時,使第一通孔225及第二通孔226 可分別對應至第一螺孔215及第二螺孔216,而第一框架 21及第二框架22組裝接合的方式,是藉由第一螺絲31及 第二螺絲32分別穿過第一通孔225及第二通孔226後,鎖 固於第一螺孔215及第二螺孔216之中,其組裝接合後之 示意圖如第6圖所示。 [0031] 由第5圖及第6圖可看出第一實施例中,第二框架22之底 面223及外侧面224分別具有由側邊凹入之缺口 229,此 缺口 229的位置是對應於第一通孔225及第二通孔226位 於接合面2211上之位置◊此缺口 226大體上是呈矩形狀, 除了方便使用者將第一螺絲31及第二螺絲32穿過第一通 孔2 2 5及第二通孔2 2 6之外,此種切割方式更減少了第二 框架22沖切加工的次數,並有利第一螺絲31及第二螺絲 32滑牙時之重工性,而缺口 229之邊角係為圓滑曲線,可 防止使用者組裝時切割到手。 [0032] 在第一實施例中,第一卡槽214及第二卡槽227是用來卡 合固定太陽能板4。由於太陽能板4係設置於戶外來使用 100118522 表單編號A0101 第8頁/共19頁 1002031198-0 201132278 Ο [0033] Ο [0034] ,因此當下雨天時,第一框架21及第二框架22分別具有 的凹槽217、228,便可用來排除第—^槽214及第二卡 槽227中所產生之積水,而本發明之第二框架22之外侧面 224至接合結構221之接合面2211之距離,係大於外側面 224至第二框架之頂面222邊緣之距離,因此當第一框架 21與第二框架22組接時,接合結構221之接合面2211會 頂抵住支撐結構211,而第一框架2〗與第二框架22之兩頂 面212、222間則會有一間隙,此間隙是用來排除太陽能 板4上的雨水,使雨水不會積留在太陽能板4上。然而, 本發明最主要產生之功效,是將第一螺孔215及第二螺孔 216同設於平行於第一卡槽214之水平線218時,可有效 的降低太陽能板4所承受之應力,以保護太陽能板4使其 不易受到損壞。 '•月參閱第7圖’其係為本發明之太陽能模組框架鎖固結構 之第二實施例之示意圖。此圖係為本發明所述之第一框 架之另一實施例之側面部視圖。圖中,第一框架51包含 了支樓結構511、頂面512、底面513、第—^槽514、第 一螺孔515、第二螺孔516及凹槽517。支撐結構511是設 於第一框架51的内側,經由支撐結構511及第一框架51之 頂面512所夾合界定出第一卡槽514。第一卡槽514之一 側是由支推結構511所形成,其一侧之一部份是向下凹入 以形成上述之凹槽517。第一螺孔515及第二螺孔516則 是設在第一框架51的兩端,並且是位於第一框架51的内 侧0 第二實施例與第一實施例不同之處,在於本實施例之支 100118522 表單編號Α0101 第9頁/共19頁 1002031198-0 201132278 撐結構511係為大體上呈T型之開放結構。支撐結構511中 且有與第一框架51之底面513交接之支撐柱,在支撐柱之 左右兩端並且於底面51 3上分別具有第一螺孔51 5及第二 螺孔516,第一螺孔515及第二螺孔516係為相互平行且 位於一水平線518上’此水平線518係平行於第 ^槽 514。本實施例之第一框架51,可與第一實施例中所述之 第二框架22進行組裝結合之動作,以用來卡合固定如第 一實施例中所述之太陽能板4。 [0035] [0036] 請參閱第8圖,其係為本發明之太陽能模組框架鎖固結構 之第三實施例之示意圖。此圖係為本發明所述之第一框 架之.又一實施例之側面部視圖。圖中,第一框架61包含 了支撐結構611、頂面612、底面613、第一卡槽614、第 一螺孔615、第二螺孔616及凹槽617。支撐結構611是設 在第一框架61的内側之中,而第一卡槽614則是藉由支撐 結構611及頂面612所界定形成的,且第一卡槽614藉由 支擇結構611所形成之—侧中有—部份係向下凹入以形成 凹槽617。第一螺孔615及第二螺孔616則是設在第一框 架61的兩端,並且是位於第一框架61的内側。 第一實施例中,支撐結構611係為呈多邊形之複數封閉結 構,支撐結構611中具有兩側邊與第一框架61的底面613 又接’兩側邊與底面613交接之處分別設有第 一螺孔615 及第一螺孔616 ’且第一螺孔615及第二螺孔616係位在 與第-卡槽614平行之_水平線618上。本實施例之第一 框架61 ’可與第—實施例中所述之第二框架22進行組裝 結合之動作’㈣來卡合固定如第—實施例中所述之太 100118522 表單編號Α0101 第10頁/共19頁 1002031198-0 201132278 陽能板4。 [0037] [0038] ❹ [0039]201132278 VI. Description of the invention: [Technical field of invention] In particular, the module [0001] The present invention relates to a solar module frame locking mechanism relating to a frame lock that can be reduced by the solar panel Solid structure. [0002] A solar cell is a solar cell that utilizes a photovoltaic semiconductor chip to receive light when it is exposed to light; and a plurality of solar cells are vacuum-sealed, and the module is a solar panel. The light can directly be made into a motor and can be made into a mold. [0003] In order to make the solar panel easy to be moved or utilized, the right-claw male to the frame protector can complete the solar panel to avoid collision damage and increase solar energy. The strongest members of the board are assembled by four bezels. The joints are made of welding, rivets or locks with another accessory screw to secure the joints, so that the four bezels are joined together to form a stable Metal frame. [0004] However, the material of the solar panel is as fragile as the glass, and its use is easily broken or broken due to its own gravity or external force (for example, wind), and the ability of the solar panel to convert electric power is related to the installation area. The installation area is usually large and long, making the solar panel more prone to breakage, so the frame is a very important role in protecting the solar panels. [0005] At present, the frame for protecting the solar panel, if the screw is used to lock the assembly, the position of the screw hole disposed in the frame is mostly one in the lower one as shown in the first to third figures. Show. The screw holes are configured in this way to make the frame group join together, although it has strong restraint, but it is also 100118522. Form No. A0101 Page 3 of 19 Page 1002031198-0 201132278 [0006] [0007] [0008] [0011] [0011] 100118522 In this way, the solar panel will be subjected to greater stress and cause damage. SUMMARY OF THE INVENTION In view of the above-mentioned problems of the prior art, the object of the present invention is to provide a solar module frame locking structure to solve the problem that the solar panel is easily damaged due to the screw arrangement of the conventional frame. In accordance with the purpose of the present invention, a solar module frame locking structure is proposed that includes a first frame. The inner frame of the first frame includes a support structure, and the first card slot defined by the support structure and the top surface of the first frame, at least one end of the first frame includes a plurality of screw holes in the inner side, each of The screw holes are disposed away from the first card slot to a predetermined distance and parallel to each other. Wherein, each screw hole is located on a horizontal line, and the horizontal line is parallel to the first card slot. Wherein, the side of the first card slot formed by the support structure comprises a groove, wherein the 'law structure is polygonal, and the side edge of the support structure and the other side are respectively provided with the screw hole. The positions of the screw holes provided on both sides are corresponding. Wherein, the two sides of the support structure are connected to the bottom surface of the first frame, and the screw holes are disposed at the intersection thereof. The solar module frame locking structure of the present invention further comprises a second frame, wherein at least one end comprises a plurality of through holes, and when the second frame is assembled with the first frame, each through hole correspondingly corresponds to In each of the screw holes, the first frame and the second frame are assembled and assembled, and the plurality of screws are respectively passed through the through holes and then locked to the screw holes. μ Form No. Α0101 Page 4 / Total 19 Pages [0012] [0015] [0016] [0019] [0019] [0019] wherein the inside of the second frame includes a joint structure, The top surface of the joint structure and the second frame defines a second slot, and each through hole is disposed on the joint surface of the joint structure. The outer side surface and the bottom surface of the second frame respectively have a notch recessed by the side edges, and the position of the notch corresponds to the position of the through hole at the joint surface. Wherein, the distance from the outer side of the second frame to the joint surface is greater than the distance from the outer side surface to the top surface edge. Wherein, one side of the second card slot formed by the joint structure comprises a groove. According to the purpose of the present invention, a solar module frame locking structure is further proposed, which is a first frame. The inner side of the first frame includes a pushing structure and a first card slot defined by the supporting structure and the top surface of the first frame, and at least one end of the first frame includes a first screw hole and a second screw The hole, the first screw hole and the second screw hole are parallel to each other and are located on a horizontal line, and the horizontal line is parallel to the first card slot. Wherein one side edge and the opposite other side of the support structure are connected to the bottom surface of the first frame, and the first screw hole and the second screw hole are respectively disposed at the intersection thereof. Wherein, the side of the first card slot formed by the branch structure comprises a groove 0, wherein the solar module frame locking structure of the invention comprises a first frame, at least one end thereof, a first pass When the hole and the second through hole 'and the first frame are assembled with the first frame, the first through hole and the second through hole respectively correspond to the first screw hole and the second screw hole. 100118522 Form No. 1010101 Page 5 of 19 1002031198-0 201132278 [0020] wherein the 'the first frame and the second frame are assembled by the first screw and the second screw respectively through the first through hole and The second through hole is locked to the first screw hole and the second screw hole. [0021] wherein the inner side of the second frame comprises a joint structure, the joint structure and the top surface of the first frame define a second card slot, and the first through hole and the second through hole system a are placed in the joint structure again. a joint surface. The outer side surface and the bottom surface of the second frame respectively have a notch recessed by the side edges, and the position of the notch corresponds to the position where the first through hole and the second through hole are located at the joint surface. [0023] wherein the distance from the outer side surface of the second frame to the joint surface is greater than the distance from the outer side surface to the top surface edge. [0024] wherein, the side of the second card slot formed by the joint structure comprises a groove 〇 [003⁄4], according to the solar module frame locking structure of the present invention, which may have one or more The following advantages: [0026] (1) The solar module frame locking structure translates the position of the screw hole in the frame downward, so that the screw holes are all located on a horizontal line parallel to the sun template, thereby making the frame in the module When pressed, the corresponding elastic deformation can be generated along with the deformation behavior of the solar panel, so that the stress on the whole solar panel can be reduced, so that the solar panel is less susceptible to damage. [0027] (2) The solar frame structure of the handle frame of the sun, the notch designed in the second frame, can reduce the number of punching operations of the frame, and is advantageous for the reworkability of the screw sliding. 100118522 Form No. A0101 Page 6 / 19 pages 1002031198-0 201132278 [Embodiment] [0028] Please refer to FIG. 4, which is the first embodiment of the solar module frame locking structure of the present invention - schematic diagram. This figure is a side elevational view of one embodiment of the first frame of the present invention. In the figure, the first frame includes a support structure 211, a top surface 212, a bottom surface 213, a first card slot 214, a first screw hole 215, a second screw hole 216, and a recess 217. The support structure 211 is disposed on the inner side of the first frame 21, and the first card slot 214 is defined by the support structure 211 and the top surface 212, and the first card slot 214 is formed by the support structure 211. A portion of one side is recessed downward to form a recess 217. The first screw hole 215 and the second screw hole 216 are disposed in an inner side of at least one end of the first frame 21. The 211 构 实施 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The 215 and the second screw holes 216 are respectively disposed away from the first card slot 214, and the two sides of the support structure 211 meet the bottom surface 213. The positions of the first screw hole 215 and the second screw hole Q 216 on the two sides of the support structure 211 are corresponding and parallel to each other 'the first screw hole 215 and the second screw hole 216 are similarly positioned on a horizontal line 218. And the horizontal line 218 will be parallel to the first card slot 214. BRIEF DESCRIPTION OF THE DRAWINGS [0030] Referring to Figure 5, there is shown a second schematic view of a first embodiment of a solar module frame locking structure of the present invention. In the figure, in addition to the first frame 21 described in FIG. 4, a second frame 22, a first screw 31 and a second screw 32 are further included. The second frame 22 includes a joint structure 221 , a top surface 222 , a bottom surface 223 , an outer side surface 224 , a first through hole 225 , a second through hole 226 , a second card slot 227 , a recess 228 , and a notch 229 , and the joint structure 221 . 100118522 Form No. A0101 Page 7 of 19 1002031198-0 201132278 Contains a joint 2 211. The joint structure 2 21 is disposed on the inner side of the second frame 2 2 and the second card slot 227 is defined by the top surface 222 of the joint structure 221 and the second frame 22, and the second card slot 227 is formed by A portion of one of the sides formed by the engaging structure 2 21 is recessed downward to form the recess 228. The first through hole 225 and the second through hole 226 are disposed in the inner side of at least one end of the second frame 22 and are located above the joint surface 2211. The distance between the first through hole 225 and the second through hole 226 on the joint surface 2211 is corresponding to the distance between the first screw hole 215 and the second screw hole 216, so that the first frame 21 and the second frame 22 are assembled. The first through hole 225 and the second through hole 226 are respectively corresponding to the first screw hole 215 and the second screw hole 216, and the first frame 21 and the second frame 22 are assembled and joined by the first After the screw 31 and the second screw 32 pass through the first through hole 225 and the second through hole 226 respectively, the screw 31 and the second screw 32 are locked in the first screw hole 215 and the second screw hole 216, and the assembled view is as shown in FIG. Shown. [0031] It can be seen from FIG. 5 and FIG. 6 that in the first embodiment, the bottom surface 223 and the outer side surface 224 of the second frame 22 respectively have a notch 229 recessed by the side, and the position of the notch 229 corresponds to The first through hole 225 and the second through hole 226 are located on the joint surface 2211. The notch 226 is substantially rectangular, except that the user can pass the first screw 31 and the second screw 32 through the first through hole 2 In addition to the second through hole 2 2 6 and the second through hole 2 2 6 , the cutting method further reduces the number of times of punching and cutting of the second frame 22, and facilitates the reworkability of the first screw 31 and the second screw 32 when sliding the tooth, and the gap The corner of 229 is a rounded curve that prevents the user from cutting into the hand when assembling. [0032] In the first embodiment, the first card slot 214 and the second card slot 227 are used to engage and fix the solar panel 4. Since the solar panel 4 is installed outdoors, the use of 100118522 Form No. A0101, page 8 / 19 pages 1002031198-0 201132278 003 [0033] Ο [0034], so when it is raining, the first frame 21 and the second frame 22 respectively have The grooves 217, 228 can be used to exclude the water generated in the first groove 214 and the second groove 227, and the distance from the outer side 224 of the second frame 22 of the present invention to the joint surface 2211 of the joint structure 221 , the distance from the outer side surface 224 to the edge of the top surface 222 of the second frame, so that when the first frame 21 and the second frame 22 are assembled, the joint surface 2211 of the joint structure 221 will abut against the support structure 211, and A gap between the frame 2 and the top surfaces 212, 222 of the second frame 22 is used to exclude rainwater from the solar panel 4 so that rainwater does not accumulate on the solar panel 4. However, the most important function of the present invention is that when the first screw hole 215 and the second screw hole 216 are disposed in parallel with the horizontal line 218 of the first card slot 214, the stress on the solar panel 4 can be effectively reduced. To protect the solar panel 4 from damage. '•月refer to Fig. 7' is a schematic view of a second embodiment of the solar module frame locking structure of the present invention. This figure is a side elevational view of another embodiment of the first frame of the present invention. In the figure, the first frame 51 includes a branch structure 511, a top surface 512, a bottom surface 513, a first slot 514, a first screw hole 515, a second screw hole 516, and a recess 517. The support structure 511 is disposed on the inner side of the first frame 51, and the first card slot 514 is defined by the support structure 511 and the top surface 512 of the first frame 51. One side of the first card slot 514 is formed by the thrust structure 511, and a portion of one side thereof is recessed downward to form the above-described groove 517. The first screw hole 515 and the second screw hole 516 are disposed at both ends of the first frame 51 and are located on the inner side of the first frame 51. The second embodiment is different from the first embodiment in the present embodiment. Branch 100118522 Form No. 1010101 Page 9 of 19 1002031198-0 201132278 The struts 511 are generally T-shaped open structures. The support structure 511 has a support column that intersects with the bottom surface 513 of the first frame 51, and has a first screw hole 51 5 and a second screw hole 516 on the left and right ends of the support column and the bottom surface 51 3 respectively. The holes 515 and the second screw holes 516 are parallel to each other and are located on a horizontal line 518. The horizontal line 518 is parallel to the second groove 514. The first frame 51 of the present embodiment can be assembled and combined with the second frame 22 described in the first embodiment for engaging and fixing the solar panel 4 as described in the first embodiment. [0036] Please refer to FIG. 8 , which is a schematic diagram of a third embodiment of the solar module frame locking structure of the present invention. This figure is a side view of a further embodiment of the first frame of the present invention. In the figure, the first frame 61 includes a support structure 611, a top surface 612, a bottom surface 613, a first card slot 614, a first screw hole 615, a second screw hole 616, and a recess 617. The support structure 611 is disposed in the inner side of the first frame 61, and the first card slot 614 is defined by the support structure 611 and the top surface 612, and the first card slot 614 is supported by the structure 611. The formed-side has a portion that is recessed downward to form a recess 617. The first screw hole 615 and the second screw hole 616 are provided at both ends of the first frame 61 and are located inside the first frame 61. In the first embodiment, the support structure 611 is a polygonal closed structure. The support structure 611 has two sides, and the bottom surface 613 of the first frame 61 is connected to the side where the two sides meet the bottom surface 613 respectively. A screw hole 615 and a first screw hole 616 ′ and the first screw hole 615 and the second screw hole 616 are fastened on a horizontal line 618 parallel to the first card slot 614 . The first frame 61' of the embodiment can be assembled and combined with the second frame 22 described in the first embodiment to perform the action of (4) to be fixed and fixed as described in the first embodiment. The number of the form is 1000101. Page / Total 19 pages 1002031198-0 201132278 Yang energy board 4. [0038] [0039]
Q 综合上述,本發明之太陽能模組框架鎖固結構,係將螺 孔的位置同設於與太陽能板平行之水平線上,並使螺孔 遠離太陽能板,進而使框架於模組受壓時可隨太陽能板 之變形行為產生相應之彈性變形,最終達到減少太陽能 板所承受之應力以避免其受到損壞。 以上所述僅為舉例性,而非為限制性者。任何未脫離本 發明之精神與範疇,而對其進行之等效修改或變更,均 應包含於後附之申請專利範圍中。 【圖式簡單說明】 第1圖係為習知技術之太陽能框架之第一示意圖; 第2圖係為習知技術之太陽能框架之第二示意圖; 第3圖係為習知技術之太陽能框架之第三示意圖; 第4圖係為本發明之太陽能模組框架鎖固結構之第一實施 例之第一示意圖; 第5圖係為本發明之太陽能模組框架鎖固結構之第一實施 例之第二示意圖; 第6圖係為本發明之太陽能模組框架鎖固結構之第一實施 例之第三示意圖; 第7圖係為本發明之太陽能模組框架鎖固結構之第二實施 例之示意圖;以及 第8圖係為本發明之太陽能模組框架鎖固結構之第三實施 例之示意圖。 【主要元件符號說明】 1 :螺孔 100118522 表單編號A0101 第11頁/共19頁 1002031198-0 [0040] 201132278 2、5、6 :太陽能模組框架鎖固結構 21、 51 ' 61 :第 一框架 211 ' 511 ' 611 :支撐結構 212 > 222 ' 512 ' 612 :頂面 213 ' 223 ' 513 ' 613 :底面 214 ' 514 > 614 :第一 卡槽 215 、515、 615 :第一 螺孔 216 、516、 616 :第二 螺孔 217 ' 228 ' 517 ' 617 :凹槽 218 、518 ' 618 :水平線 22 :第二框架 221 :接合結構 2211 :接合面 224 :夕卜側面 225 :第一通孔 226 :第二通孔 227 :第二卡槽 229 :缺口 31 :第一螺絲 32 :第二螺絲 4:太陽能板 100118522 表單編號A0101 第12頁/共19頁 1002031198-0Q In summary, the solar module frame locking structure of the present invention has the same position of the screw hole on the horizontal line parallel to the solar panel, and the screw hole is away from the solar panel, so that the frame can be pressed when the module is pressed. Corresponding elastic deformation occurs along with the deformation behavior of the solar panel, and finally the stress on the solar panel is reduced to avoid damage. The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and scope of the invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a first schematic view of a conventional solar frame; Fig. 2 is a second schematic view of a conventional solar frame; Fig. 3 is a solar frame of the prior art FIG. 4 is a first schematic view of a first embodiment of a solar module frame locking structure of the present invention; FIG. 5 is a first embodiment of a solar module frame locking structure of the present invention; The second schematic diagram is a third schematic diagram of the first embodiment of the solar module frame locking structure of the present invention; FIG. 7 is a second embodiment of the solar module frame locking structure of the present invention. FIG. 8 is a schematic view showing a third embodiment of the solar module frame locking structure of the present invention. [Main component symbol description] 1 : Screw hole 100118522 Form number A0101 Page 11 / Total 19 page 1002031198-0 [0040] 201132278 2, 5, 6: Solar module frame locking structure 21, 51 ' 61 : First frame 211 '511 ' 611: support structure 212 > 222 ' 512 ' 612 : top surface 213 ' 223 ' 513 ' 613 : bottom surface 214 ' 514 > 614 : first card slot 215 , 515 , 615 : first screw hole 216 , 516, 616 : second screw hole 217 ' 228 ' 517 ' 617 : groove 218 , 518 ' 618 : horizontal line 22 : second frame 221 : joint structure 2211 : joint surface 224 : side surface 225 : first through hole 226: second through hole 227: second card slot 229: notch 31: first screw 32: second screw 4: solar panel 100118522 Form No. A0101 Page 12 of 19 1002031198-0