201246703 六、發明說明: 【發明所屬之技術領域】 -種太陽能電齡有·—種具錢化祕盒與太陽 能模組接合的太陽能電源盒。 【先前技術】 、隨著地球暖化及石油存量日益減少,各國無不爭相開發替代 月匕源以解决傳統發電方式所造成的能源短缺,而太陽能即是其 中極具發展性與低污染性的良好替代能源。 "太陽此之發電原理是利用太陽能模組接收太陽光 ,並將太陽 光轉換為電i ’再透過太陽能絲盒將電能傳輸至其他電能儲存 裝置或以太陽能作為鶴騎的設備。-般太陽能接線盒包括一 四方形的中空讀,並且於盒體内設置有二接線座及二導電端 子’接線以和太陽能板之電傳輸線連接,而導電端子則連接 於接線座’並用以供外部之電能儲存裝置或其他以太陽能作為驅 動能源之設備連接。細,對於透光型太陽能板來說,太陽能接 線盒的配置位置將會影_透光社陽缺的透光率及外觀。 為了解決這烟題’目前相_製造賴著將謂能接線盒 的體積縮小為狹長_長方體結構,續於減少太陽能接線盒所 佔用的區域。雖然’此設計可使透光型太陽能模組增加透光率, 亦即太陽能接線盒結合於太陽能顯_邊。因此,當—外界的 作用力施加於太陽能躲盒時,太陽能接線盒將受到此作用力的 影響而容易傾倒,並使接觸面分離於太陽能模組上,最終導致太 4 201246703 陽月H獅於太陽能麵的情形毅,㈣嚴重 模組之光電轉換效能。 【發明内容】 馨於以上關題’本發明在於提供—種太陽能電源盒,藉以 強化接線盒與太陽麟组接合性能,㈣免遭受外力撞擊而產生 傾斜的情況。 本發明所揭露之-種太陽能電齡,包括—太陽能模组、一 接線盒、—第-夾具與-第二夾具。接線盒的—側與太陽能模組 接口 ’而相對太陽能模組的另一侧具有彼此不相鄰的一第一凹槽 與-第二凹槽H具的—部分配置於第—凹槽内,且其另一 2分夾持朗定太陽能模組與接線I H具的-部分配置於 第-凹槽内,且其另-部分夾持並固定太陽能模組與接線盒。 在-實施例中’前述第-夾具之另—部分及前述第二夹具之 另—部分與太陽能模組及接線盒之間分別配置有—塑膠墊。201246703 VI. Description of the invention: [Technical field to which the invention pertains] - A solar power supply box in which a solar energy age is combined with a solar energy module and a solar energy module. [Previous technology] With the global warming and the declining oil stocks, countries are competing to develop alternatives to the moonlight source to solve the energy shortage caused by traditional power generation methods, and solar energy is extremely developmental and low-pollution. A good alternative energy source. "The solar power generation principle is to use solar modules to receive sunlight and convert sunlight into electricity i' and then transmit the power to other electrical energy storage devices through solar filament boxes or solar energy as cranes. The general solar junction box comprises a square hollow read, and two sockets and two conductive terminals 'wirings are arranged in the box body to connect with the electric transmission lines of the solar panels, and the conductive terminals are connected to the terminal block' and used for An external electrical energy storage device or other device that uses solar energy as a driving energy source. Fine, for the light-transmissive solar panel, the arrangement position of the solar junction box will affect the light transmittance and appearance of the light-emitting yang. In order to solve this problem, the current phase of manufacturing relies on reducing the size of the junction box to a narrow-length rectangular structure, continuing to reduce the area occupied by the solar junction box. Although this design allows the light-transmitting solar module to increase the light transmittance, that is, the solar junction box is combined with the solar energy display. Therefore, when the external force is applied to the solar energy box, the solar junction box will be affected by the force and easily dumped, and the contact surface is separated from the solar module, eventually leading to the 4 201246703 The situation of solar energy surface is good, (4) the photoelectric conversion efficiency of serious modules. SUMMARY OF THE INVENTION The present invention is directed to providing a solar power supply box for enhancing the joint performance of the junction box and the Sun Lin group, and (4) preventing the tilting of the external force. The invention relates to a solar battery age, comprising a solar module, a junction box, a first clamp and a second clamp. The side of the junction box is connected to the solar module, and the other side of the solar module has a first groove and a portion of the second groove H that are not adjacent to each other, and is disposed in the first groove. And the other two points of the clamping solar module and the wiring IH are partially disposed in the first groove, and the other part partially clamps and fixes the solar module and the junction box. In the embodiment, a plastic pad is disposed between the other portion of the first-clamp and the other portion of the second jig and the solar module and the junction box.
在一實施例中,前述第一夾具與前述第二夾具為一上窄下寬 的形式。 I 在-實施例中,前述第-夾具之另—部分及前述第二失具之 另。卩分與太險能模組及接線盒接觸的部分以黏著性物質接合並 固定。 、'' 在-實施射,太陽能模組及接線盒接觸的部分以黏著性物 質接合並固定。 在一實施例中,前述接線盒與第一失具之另—部分及第二夾 201246703 '、另$刀接觸的兩側各自具有-凹陷,且第-夾具之另-部 ”與第-夹具之另―部分與接線盒接__各自具有一突起 物,而凹陷與突起物彼此互補。 β本發月所揭路之一種太陽能電源盒,藉由在接線盒相對於太 陽能模組的i設置兩如槽;並抑兩财具分別卡合在前述 兩個凹槽内來夾持並gj定*陽能模組與接線盒’且魏夾具卡合 於凹槽内可避免於夾具在夾持時產生位移的現象。如此一來,可 有效增加太陽能模組與接線盒的固定力以及承受抽向撞擊的能 力。 .有關本發_特徵與實作,紐合圖式作最佳實施例詳細說 明如下。 【實施方式】 =參考「第1圖」所示’其係為本發明之太陽能電源盒的結 構不思圖。太陽能電源盒100包括太陽能模組110、接線盒H 第一夾具130與第二夾具140。 接線盒120可以是-細長型的長方體結構,並且接線盒 的一側(即長軸方向)與太陽能模、组11〇的側邊接合,而接線盒 120相對於太陽能模組11G之另—側具有第—凹槽121與第二凹= 122。在本實施例中’接線盒120與太陽能模組11〇可以黏著性^ 質(如強力膠、高分子樹脂、膠帶等)進行接合並固定,以強化 太陽能模組110與接線盒120的接合性能。 第一夹具130的一部分配置於第一凹槽121内,而第一夾具 201246703 130的另一部分會位於太陽能模組110與接線盒12〇的兩側,用以 夾持並固定太陽能模組110與接線盒120。第二夾具140的一部分 配置於第二凹槽122内,而第二夾具140的另一部分也會位於太 陽能模組110與接線盒120的兩側,用以夾持並固定太陽能模組 11〇與接線盒120。 在本實施例中,第一夾具130之一部分131及第二夾具140 之一部分141分別與第一凹槽121及第二插槽123呈互補狀態, 以便第一夾具130與第二夾具140可完全卡合在第一凹槽121與 第二凹槽122中,進而避免第一夾具130與第二夾具14〇在夾持 並固疋太陽能模組110與接線盒120時產生位移(即移動)的現 象’而降低第一夾具130與第二夾具14〇的固定能力。 另外,第一夾具130之另一部分及第二夾具14〇之另一部分 與太陽能模組110及接線盒丨2〇接觸的部分可以黏著性物質(如 強力膠、高分子樹脂、膠帶等)接合並固定,以增加第一夾具13〇 與第二夾具140固定太陽能模組110與接線盒12〇的固定性能。 在一實施例中,第一夾具130之另一部分及第二夾具14〇之 另一部分與太陽能模組110及接線盒120之間(亦即第一夾具130 與第二夾具14〇與太陽能模組no及接線盒120接觸的一側)可 分別配置有一塑膠塾150,如「第2A圖」及「第2B圖」所示。 如此-來’可增加第一夾具130及第二夾具140與太陽能模組則 及接線盒120之間接觸面的摩擦力,以減少第一夾具130與第二 .夾具14G_的可紐,並減少外界撞擊的作用力。 201246703 在一實施例中,第一夾具130與第二夾具140為上窄下寬的 形式’如「第3圖」所示’以增加第一夾具13〇與第二夾具刚 接觸太陽能模組110與接線盒12Q兩_固定面積,使得第一失 具130與第二夾具140更能有效地夹持並固定太陽能模組110與 接線盒120。 ’、 在一實施例中,接線盒120與第一夾具13〇之另一部分及第 二夾具14G之另-部分接觸的兩側各自具有—凹陷刷,且第一失 具130之另部分與第二夾具14〇之另一部分與接線盒⑽接觸 的兩側各自具有-突起物170,而凹陷16〇與突起物17〇彼此互 補,如「第4A圖」及「第4B圖」所示,使得突起物17〇與凹陷 160卡。後’第—夾具13〇與第二夾具MG可以更牢固地夹持太陽 能模組110與接線盒12〇。 g本發明之實施的太陽能親盒,其在接線盒相對於 太陽能模組的-側設置兩細槽,並彻兩個夾具卡合於前述兩 個凹槽内錢持顧定太陽能模組與接線盒,而前粒具卡合於 凹槽内可避免於夾具在夾持太陽賴組與接線盒時產生位移的現 象。並且’在夾具與太陽能模組及接線盒接觸的部分以黏著性物 質來增加接合性能。如此—來,可纽增加太_脸與接線盒 的固定力以及承受軸向撞擊的能力。 雖然本發明贿述之較佳實_揭露如上,然其並非用以限 定本發明,任何熟習相像技藝者,在不脫離本發明之精神和範圍 内’當可作些許之更動與潤飾’因此本發明之專娜護範圍須視 201246703 本說明書所附之申請專利範圍所界定者為準。 【圖式簡單說明】 第1圖係為本發明之太陽能電源盒的結構示意圖。 第2A圖係為本發明之第一夾具與塑膠塾的配置示意圖。 f 2B圖係為本發明之第二夾具與塑膠塾的配置示賴。 第3圖係為本發明之第一 第4A圖係為本發明之具的外觀結構示意圖。 配置關係的示意圖。 <第—夾具之犬起物與接線盒之凹陷之 第4B圖係為本發明之第 配置關係的示意圖。 二失具之突起物與接之凹陷之 【主要元件符號說明】 100 太陽能電源念 110 太陽能模組 120 接線盒 121 第一凹槽 122 第二凹槽 130 第一夾具 131 弟一爽具之一部分 140 第二夾具 141 第一夾具之一部分 150 塑膠墊 160 凹陷 201246703 突起物 170In one embodiment, the first jig and the second jig are in a form of a narrow upper and a lower width. In the embodiment, the other part of the aforementioned first-clamp and the second second piece are respectively. The part that is in contact with the too dangerous module and the junction box is joined and fixed by an adhesive substance. , ''In the implementation of the shot, the part of the solar module and the junction box that is in contact with the adhesive material is bonded and fixed. In an embodiment, the junction box and the second portion of the first and second clips 201246703', and the other sides of the knife contact each have a - recess, and the other portion of the first clamp and the first clamp The other part is connected to the junction box __ each has a protrusion, and the recess and the protrusion are complementary to each other. β A solar power box of the road disclosed in the month of the month, by setting the junction box relative to the solar module Two such as the slot; and the two financial instruments are respectively engaged in the two grooves to clamp and gj * the male module and the junction box 'and the fixture is engaged in the groove to avoid the clamp being clamped The phenomenon of displacement occurs. This can effectively increase the fixing force of the solar module and the junction box and the ability to withstand the impact of the pumping. For the present invention, the characteristics and implementation, the best example is the best embodiment. [Embodiment] = Refer to "Fig. 1" for the structure of the solar power supply box of the present invention. The solar power box 100 includes a solar module 110, a junction box H, a first jig 130 and a second jig 140. The junction box 120 may be an elongated rectangular parallelepiped structure, and one side of the junction box (ie, the long axis direction) is joined to the sides of the solar mold, the group 11〇, and the junction box 120 is opposite to the other side of the solar module 11G. There is a first groove 121 and a second groove = 122. In the present embodiment, the junction box 120 and the solar module 11 can be bonded and fixed by adhesion (such as super glue, polymer resin, tape, etc.) to strengthen the bonding performance between the solar module 110 and the junction box 120. . A portion of the first clamp 130 is disposed in the first recess 121, and another portion of the first clamp 201246703 130 is located on both sides of the solar module 110 and the junction box 12 , for clamping and fixing the solar module 110 and Junction box 120. A portion of the second clamp 140 is disposed in the second recess 122, and another portion of the second clamp 140 is also located on both sides of the solar module 110 and the junction box 120 for clamping and fixing the solar module 11 Junction box 120. In this embodiment, a portion 131 of the first jig 130 and a portion 141 of the second jig 140 are complementary to the first groove 121 and the second slot 123, respectively, so that the first jig 130 and the second jig 140 can be completely Engaged in the first groove 121 and the second groove 122, thereby preventing the first jig 130 and the second jig 14 from being displaced (ie, moving) when clamping and fixing the solar module 110 and the junction box 120 The phenomenon 'reduces the fixing ability of the first jig 130 and the second jig 14〇. In addition, another portion of the first jig 130 and a portion of the second jig 14 that is in contact with the solar module 110 and the junction box 丨2〇 may be bonded to an adhesive substance (such as super glue, polymer resin, tape, etc.). The fixing is performed to increase the fixing performance of the first jig 13 〇 and the second jig 140 to fix the solar module 110 and the junction box 12 。. In one embodiment, another portion of the first jig 130 and another portion of the second jig 14 are interposed between the solar module 110 and the junction box 120 (ie, the first jig 130 and the second jig 14 and the solar module) A plastic raft 150 can be respectively disposed on the side of the no contact box 120, as shown in Figures 2A and 2B. So that the friction between the first jig 130 and the second jig 140 and the contact surface between the solar module and the junction box 120 can be increased to reduce the contact of the first jig 130 and the second jig 14G_, and Reduce the force of external impact. 201246703 In one embodiment, the first jig 130 and the second jig 140 are in the form of an upper narrow and a lower width as shown in FIG. 3 to increase the first jig 13 and the second jig to contact the solar module 110. The fixed area of the junction box 12Q is such that the first dislocation 130 and the second jig 140 can more effectively clamp and fix the solar module 110 and the junction box 120. In one embodiment, the two sides of the junction box 120 that are in contact with the other portion of the first jig 13 and the other portion of the second jig 14G each have a concave brush, and the other portion of the first dislocation 130 The other side of the second clamp 14 is in contact with the junction box (10), each having a protrusion 170, and the recess 16 and the protrusion 17 are complementary to each other, as shown in "Ath 4A" and "4B". The protrusions 17〇 and the recesses 160 are stuck. The rear-first clamp 13A and the second clamp MG can hold the solar module 110 and the junction box 12A more firmly. The solar energy box of the present invention is provided with two thin grooves on the side of the junction box relative to the solar module, and the two clamps are engaged in the two grooves to hold the solar module and the wiring. The box, and the front granules are engaged in the groove to avoid the displacement of the clamp when clamping the sun set and the junction box. And the part where the jig is in contact with the solar module and the junction box is adhesively added to increase the bonding performance. In this way, the New Zealand can increase the fixing force of the face and the junction box and the ability to withstand axial impact. Although the present invention has been described above, it is not intended to limit the present invention, and any skilled person can make a few changes and refinements without departing from the spirit and scope of the present invention. The scope of the invention must be determined in accordance with the scope of the patent application attached to the 201246703 specification. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the structure of a solar power supply box of the present invention. Figure 2A is a schematic view showing the configuration of the first jig and the plastic crucible of the present invention. The f 2B diagram is a description of the arrangement of the second jig and the plastic crucible of the present invention. Fig. 3 is a first view of the present invention. Fig. 4A is a schematic view showing the appearance of the present invention. Schematic diagram of the configuration relationship. <The head of the dog-clamp and the recess of the junction box Fig. 4B is a schematic view showing the configuration relationship of the present invention. [The main component symbol description] 2 solar energy power source 110 solar module 120 junction box 121 first groove 122 second groove 130 first fixture 131 one of the cool one 140 Second clamp 141 one of the first clamps 150 plastic pad 160 recessed 201246703 protrusion 170