TWI568981B - Installation of solar panels - Google Patents
Installation of solar panels Download PDFInfo
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- TWI568981B TWI568981B TW103105759A TW103105759A TWI568981B TW I568981 B TWI568981 B TW I568981B TW 103105759 A TW103105759 A TW 103105759A TW 103105759 A TW103105759 A TW 103105759A TW I568981 B TWI568981 B TW I568981B
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/20—Solar thermal
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/47—Mountings or tracking
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- Photovoltaic Devices (AREA)
- Roof Covering Using Slabs Or Stiff Sheets (AREA)
Description
本發明是有關一種太陽能板之安裝固定結構,尤指一種可支撐固定於屋頂橫樑架上,以適用於無屋頂或屋頂結構強度較差的場合固定太陽能板之結構。 The invention relates to a mounting and fixing structure of a solar panel, in particular to a structure which can be supported and fixed on a roof beam frame, and is suitable for fixing a solar panel in a case where the roof is not strong or the roof structure is inferior.
中華民國新型第M411450號專利「太陽能板固定裝置改良結構」,其係利用一支撐架貼合浪板的凸脊處,再利用該支撐架之一支撐臂組接一組接橫樑,再由該組接橫樑結合一固夾塊,使太陽能板可透過固夾塊固定於橫樑上。在該案中,雖在該組接橫樑上開設有溝槽,欲藉此提升太陽能板架設的效率,但該案的第一或第二螺接組件在鎖固時,因僅可從單邊鎖固,故係將螺栓(第一螺栓或第二螺栓)穿設鎖接物件與螺帽(第一螺帽或第二螺帽),再一併滑入溝槽中,在滑入的過程中,則往往會造成螺帽脫落於溝槽中的問題,進而延宕工程的進行。 The Republic of China's new M411450 patent "Solar Plate Fixing Device Improvement Structure" uses a support frame to fit the ridge of the wave plate, and then uses one of the support frames to support the arm to form a set of beams, and then the group The connecting beam is combined with a solid clamping block so that the solar panel can be fixed to the beam through the solid clamping block. In this case, although grooves are formed in the set of beams to enhance the efficiency of solar panel erection, the first or second screw assembly of the case is only unilateral when locked. Locking, so the bolt (the first bolt or the second bolt) is passed through the locking object and the nut (the first nut or the second nut), and then slides into the groove together, during the sliding process In the middle, the problem of the nut falling off the groove is often caused, and the work of the project is delayed.
再者,該案的支撐臂係從一邊側向上延伸結合該組接橫樑,因此極容易造成重心的偏移而傾倒,且浪板往往會因環境或人為等因素使凸脊處的高度產生差異,而以此案支撐架的結構,在架設太陽能板的過程中,則無法輕易地使組接橫樑與支撐架結合時可維持在統一的高度或與屋頂平行的角度,需不斷地調整或重新架設該支撐架,在施工的過程中極為不便;又,由於浪板的凸脊具有多種不同的款式與形狀,以此案支撐架的結構,無法適用於其他款式或造型的浪板,因此若欲組裝於其他類型的浪板,則需依據各浪板凸脊的規格製造出適合的支撐架,大大增加生產的成本。 Furthermore, the support arm of the case extends from one side to the top to join the set of beams, so that the center of gravity is easily deflected and dumped, and the wave plate tends to cause a difference in the height of the ridge due to environmental or human factors. In the structure of the support frame in this case, in the process of erecting the solar panels, it is not easy to maintain the uniform height or the angle parallel to the roof when the combined beam and the support frame are combined, and it is necessary to continuously adjust or re-erect. The support frame is extremely inconvenient during the construction process; in addition, since the ridge of the wave plate has a plurality of different styles and shapes, the structure of the support frame can not be applied to other styles or shapes of the wave plate, so if it is to be assembled For other types of wave plates, it is necessary to manufacture a suitable support frame according to the specifications of each wave ridge, which greatly increases the production cost.
另,本案申請人曾對此加以改良,並申請有如中華民國新型 第M447484號專利「太陽能板固定裝置」,其係用以將太陽能板固定於一浪板,包括一第一座體、一第二座體、一橫樑與至少一第一夾持件,該第一座體設置於該第二座體上方,且透過一第一鎖固元件穿設該第一座體與該第二座體並鎖固於該浪板上,該橫樑包含一開設有溝槽之橫樑本體與設置於該溝槽中之複數個滑動件,係結合於該第一座體之二側板之間,該第一夾持件係鎖固於該橫樑本體上方,且透過一夾持部用以夾持太陽能板;利用該滑動件與該溝槽、該側板開設之長孔以及該第二座體之翼板等的特殊設計,使本創作之太陽能板固定裝置不僅可更為緊固地固定太陽能板,且安裝架設的過程中更為便捷,並可廣泛適用於各種建築結構的屋頂上。 In addition, the applicant in this case has improved this and applied for a new model like the Republic of China. No. M447484, "Solar Plate Fixing Device" for fixing a solar panel to a wave board, comprising a first seat body, a second seat body, a beam and at least one first clamping member, the first The seat body is disposed above the second seat body, and the first seat body and the second seat body are inserted through the first locking component and locked to the wave board, the beam includes a beam with a groove The main body and the plurality of sliding members disposed in the groove are coupled between the two side plates of the first seat body, and the first clamping member is locked above the beam body and is passed through a clamping portion. In order to clamp the solar panel; the special design of the sliding member and the groove, the long hole opened by the side plate, and the wing of the second seat body make the solar panel fixing device of the present invention not only more securely The solar panels are fixed and easy to install and erect, and can be widely applied to the roof of various building structures.
然而,上述各習見結構中,各太陽能板僅係透過夾固元件加以固定,彼此之間並未能構成防水防塵的密封結構,其僅能適用於已具有屋頂(或浪板)之建築結構上,對於新建或改建之建築結構(如:有機植栽棚架、栽培用之溫室或是其他預定裝設太陽能板之屋舍),仍需待屋頂施工完成後,始能進行太陽能板的裝設,並未見有特定適用之相關產品,以習見太陽能板架設的方式,不僅工程費時,且增大屋頂的負載,需額外耗費更多的材料成本,為急待改善之問題。 However, in the above-mentioned various structures, each solar panel is fixed only by the clamping member, and does not constitute a waterproof and dustproof sealing structure with each other, and can only be applied to a building structure having a roof (or a wave board). For new or remodeled building structures (such as organic planting scaffolding, greenhouses for cultivation or other housings with solar panels), it is still necessary to install solar panels after the roof construction is completed. No specific related products have been found. In view of the way solar panels are erected, not only is the project time-consuming, but also the load on the roof is increased, and additional material costs are required, which is an urgent problem to be improved.
有鑑於此,發明人乃針對該些缺點研究改進之道,終於有本發明產生。 In view of this, the inventors have studied the improvement of these shortcomings, and finally the invention has been produced.
本發明之主要目的在於提供一種太陽能板之安裝固定結構,其可利用太陽能板整體結構作為建築之頂部,形成剛性的遮蔽,藉以阻擋風雨及塵埃,並有效減少材料成本及建築物的負載,提昇建築物之穩定性及附加價值。 The main object of the present invention is to provide a solar panel mounting and fixing structure, which can utilize the overall structure of the solar panel as the top of the building to form a rigid shielding, thereby blocking wind and dust, and effectively reducing material cost and load of the building, and improving The stability and added value of the building.
本發明之另一目的在於提供一種太陽能板之安裝固定結構,其可將太陽能板固定於無屋頂或頂部平面支撐強度較差的結構體(如:有機植栽之棚架)上,以增進應用之範圍。 Another object of the present invention is to provide a solar panel mounting and fixing structure, which can fix a solar panel on a structure without a roof or a top plane supporting strength (for example, an organic planting scaffold) to enhance the application. range.
為達成上述目的及功效,本發明所採行的技術手段係組設於一無屋頂但於頂部設有複數樑架之建築結構體上方,其至少包括:複數長 條形之主橫架,係相互間隔地設置於各樑架上方,於各主橫架頂部中央凹設有一軸向延伸之線槽,於線槽底部設有一相連通之上滑槽,於各上滑槽內設有複數可滑動之上滑塊;複數長條形之副橫架,係相互間隔地設置於各主橫架之間,利用該等副橫架與主橫架結合形成複數承置方形太陽能板之框格,其中該太陽能板係以二相對邊側搭置於二相鄰之主橫架上,太陽能板之另二相對邊側係搭置於二相鄰之副橫架上;複數長片狀之主壓板,頂側中央沿軸向設有複數等間距之通孔,另有複數上調整定位件係分別穿過各通孔並向下連結於上滑槽中之上滑塊,使各主壓板得以二旁側壓迫各太陽能板接近主橫架之一側邊緣形成定位。 In order to achieve the above objects and effects, the technical means adopted by the present invention is set on a roof structure without a roof but having a plurality of beams at the top, which includes at least: a plurality of lengths The main rails of the strips are arranged at intervals above the beams, and an axially extending slot is recessed in the center of each of the main cross frames, and a trough is connected to the bottom of the troughs. The upper sliding slot is provided with a plurality of slidable upper sliding blocks; the plurality of long strip-shaped auxiliary transverse frames are arranged at intervals between the main transverse frames, and the auxiliary transverse frames are combined with the main transverse frame to form a plurality of bearings. a sash of a square solar panel, wherein the solar panel is placed on two adjacent main cross frames on opposite sides, and the other opposite sides of the solar panel are placed on two adjacent cross frames a plurality of long-shaped main pressure plate, the top side of the center is provided with a plurality of equally spaced through holes in the axial direction, and a plurality of upper adjustment positioning members are respectively passed through the respective through holes and connected downwardly in the upper sliding groove The block is such that each of the main pressure plates is pressed on both sides to press the solar panels to form a position close to one side edge of the main cross frame.
依上述結構,其中該主橫架之線槽的開口二旁側分別凹設有一側凹槽,於該主橫架之側凹槽內各嵌設有一抵頂於太陽能板底面二相對邊側之彈性壓條,該主壓板之底面二旁側分別設有一凹槽,於各主壓板之凹槽內分別嵌設有一抵頂於太陽能板頂面接近主橫架之邊側的彈性壓條,該副橫架頂面二旁側分別凹設有一側凹槽,於該副橫架之側凹槽內各嵌設有一抵頂於太陽能板底面另二相對邊側之彈性壓條。 According to the above structure, a side groove is respectively recessed on the side of the opening of the slot of the main cross frame, and a recess is formed in the side groove of the main cross frame to be opposite to the opposite side of the bottom surface of the solar panel. The elastic bead is respectively provided with a groove on the two sides of the bottom surface of the main pressing plate, and an elastic bead which is adjacent to the side of the solar panel and close to the side of the main cross frame is respectively embedded in the groove of each main pressing plate. A side groove is respectively recessed on the two side sides of the top surface of the frame, and an elastic bead is placed in the side groove of the side cross frame to abut the other opposite sides of the bottom surface of the solar panel.
依上述結構,其中各太陽能板接近副橫架一邊側之間係以矽膠填充黏合。 According to the above structure, each of the solar panels is glued to the side of the side of the sub-cross frame.
依上述結構,其中各副橫架頂部中央凹設有一沿軸向延伸之上滑槽,於副橫架之上滑槽內設有複數可滑動之滑塊,另於各主壓板之間設有複數長片狀之副壓板,各副壓板頂側中央沿軸向設有複數等間距之通孔,藉由複數調整定位件分別穿過各通孔並向下連結於副橫架之滑塊,使各副壓板得以二旁側壓迫各太陽能板接近副橫架之一側邊緣形成定位。 According to the above structure, the top of each of the sub-frames is provided with an axially extending upper sliding groove, and a plurality of slidable sliders are arranged in the sliding groove of the sub-cross frame, and between the main pressing plates a plurality of long-plate-shaped auxiliary pressure plates, wherein a plurality of equally spaced through holes are arranged in the axial direction at the center of the top side of each of the auxiliary pressure plates, and the plurality of adjusting positioning members respectively pass through the respective through holes and are connected downward to the slider of the sub-cross frame. The secondary pressure plates are pressed on both sides to press the solar panels to form a positioning near one side edge of the sub-cross frame.
依上述結構,其中該副壓板之底面二旁側分別設有一凹槽,於各凹槽內分別嵌設有一抵頂於太陽能板頂面接近副橫架之邊側的彈性壓條。 According to the above structure, the bottom side of the bottom plate of the auxiliary pressure plate is respectively provided with a groove, and each of the grooves is respectively embedded with an elastic bead which is abutting on the side of the top surface of the solar panel and close to the side of the sub-frame.
依上述結構,其中各副橫架二端係分別套合一銜接件,該二銜接件中段設有複數貫孔,利用複數銜接件固定件穿過貫孔固定於主橫架二旁側,能使該銜接件與主橫架相結合,各銜接件分別具有二彎折之側部,藉由複數副橫架固定件由外側依序穿過副橫架、銜接件之側部,能使該副 橫架經由銜接件與主橫架相結合固定。 According to the above structure, each of the two transverse ends of the cross frame is respectively sleeved with a connecting member, and the middle portion of the two connecting members is provided with a plurality of through holes, and the plurality of connecting members are fixed through the through holes to the side of the main transverse frame, The connecting member is combined with the main cross frame, and each of the connecting members has two bent side portions, and the plurality of sub-frame fixing members are sequentially passed through the sub-cross frame and the side portions of the connecting member from the outer side. vice The cross frame is fixed by a joint with the main cross frame.
依上述結構,其中主橫架二旁側對應位置各設有一凹線,該凹線係對應於各銜接件之貫孔位置,用以供副橫架2結合時作為水平校位的基準。 According to the above structure, each of the corresponding positions on the side of the main cross frame is provided with a concave line corresponding to the position of the through hole of each of the engaging members for use as a reference for the horizontal alignment when the sub-cross frame 2 is combined.
依上述結構,其中該副橫架固定件、銜接件固定件係分別為一能貫穿鈑金之自攻螺絲。 According to the above structure, the sub-frame fixing member and the connecting member fixing member are respectively a self-tapping screw capable of penetrating the sheet metal.
依上述結構,其中各主橫架係分別經由複數底座結合固定於樑架上,該底座中央設有一套合於主橫架底部之容置空間,於該容置空間二旁側分別設有一長孔,另於各主橫架二側設有對外連通之側滑槽分別對應於各長孔,於二側滑槽內各設有一可滑動之側滑塊,利用一側調整定位件穿過長孔連結於側滑塊,能使該主橫架與底座形成結合。 According to the above structure, each of the main cross-frames is respectively fixed to the beam frame through a plurality of bases, and a central space is disposed in the center of the main cross frame, and a length is provided on the side of the accommodating space. The holes, and the side sliding grooves provided on the two sides of the main cross frame respectively correspond to the long holes, and each of the two side sliding grooves is provided with a slidable side slider, and the one side adjusts the positioning member to pass through the long side. The hole is coupled to the side slider to enable the main cross frame to form a joint with the base.
依上述結構,其中該側調整定位件係為一螺栓,而該側滑塊表面則設有一可螺合該螺栓之螺孔,利用該螺栓螺入螺孔內不同位置,可使該側滑塊於側滑槽內形成不同程度之迫緊。 According to the above structure, the side adjusting positioning member is a bolt, and the side slider surface is provided with a screw hole for screwing the bolt, and the bolt is screwed into different positions in the screw hole to make the side slider Different degrees of tension are formed in the side chute.
依上述結構,其中該上調整定位件係為一螺栓,而該上滑塊表面則設有一可螺合該螺栓之螺孔,利用該螺栓螺入螺孔內不同位置,能使該上滑塊於上滑槽內形成不同程度之迫緊。 According to the above structure, the upper adjusting positioning member is a bolt, and the upper sliding surface is provided with a screw hole for screwing the bolt, and the bolt is screwed into different positions in the screw hole to enable the upper sliding block. Different degrees of tightness are formed in the upper chute.
依上述結構,其中該主、副壓板底面於二凹槽之間中段分別設有二能擋止於太陽能板邊側之凸部。 According to the above structure, the bottom surface of the main and auxiliary pressure plate is respectively provided with a convex portion capable of blocking the side of the solar panel on the middle portion between the two grooves.
依上述結構,其中該主、副壓板底面分別於凹槽與凸部之間設有一摩擦部。 According to the above structure, the bottom surfaces of the main and auxiliary pressing plates are respectively provided with a friction portion between the concave portion and the convex portion.
為使本發明的上述目的、功效及特徵可獲致更具體的瞭解,茲依下列附圖說明如下: In order to achieve a more specific understanding of the above objects, effects and features of the present invention, the following figures are illustrated as follows:
1、10‧‧‧主橫架 1, 10‧‧‧ main cross frame
11‧‧‧線槽 11‧‧‧ wire trough
12、22‧‧‧側凹槽 12, 22‧‧‧ side grooves
13、21‧‧‧上滑槽 13, 21‧‧‧ upper chute
131‧‧‧上滑塊 131‧‧‧Upper slider
1311、1411、2111‧‧‧螺孔 1311, 1411, 2111‧‧‧ screw holes
14‧‧‧側滑槽 14‧‧‧ Side chute
141‧‧‧側滑塊 141‧‧‧ side slider
142‧‧‧側調整定位件 142‧‧‧ side adjustment positioning parts
15‧‧‧凹線 15‧‧‧ Groove
16、26、36、56‧‧‧彈性壓條 16, 26, 36, 56‧‧‧ elastic bead
2、20‧‧‧副橫架 2, 20‧‧‧ cross frame
211‧‧‧滑塊 211‧‧‧ Slider
23‧‧‧銜接件 23‧‧‧Connecting pieces
231‧‧‧貫孔 231‧‧‧through holes
232‧‧‧銜接件固定件 232‧‧‧Connector fixing parts
233‧‧‧副橫架固定件 233‧‧‧Sub-frame fasteners
234‧‧‧側部 234‧‧‧ side
3、30‧‧‧主壓板 3, 30‧‧‧ main plate
31、51‧‧‧通孔 31, 51‧‧‧through holes
32‧‧‧上調整定位件 32‧‧‧Upper positioning parts
33、53‧‧‧凸部 33, 53‧‧ ‧ convex
34、54‧‧‧凹槽 34, 54‧‧‧ grooves
35、55‧‧‧摩擦部 35, 55‧‧‧ friction department
4‧‧‧底座 4‧‧‧Base
41‧‧‧容置空間 41‧‧‧ accommodating space
42‧‧‧長孔 42‧‧‧ long hole
5、50‧‧‧副壓板 5, 50‧‧‧Sub-platen
52‧‧‧調整定位件 52‧‧‧Adjustment of positioning parts
6、60‧‧‧太陽能板 6, 60‧‧‧ solar panels
61‧‧‧邊框 61‧‧‧Border
7‧‧‧樑架 7‧‧‧ beams
A、B‧‧‧矽膠 A, B‧‧‧矽
第1圖係本發明第一實施例之結構分解圖。 Figure 1 is an exploded view of the first embodiment of the present invention.
第2圖係本發明第一實施例之底座、主橫架及固定壓板組合部位剖面圖。 Fig. 2 is a cross-sectional view showing the combined portion of the base, the main cross frame and the fixed platen of the first embodiment of the present invention.
第3圖係本發明第一實施例之組合示意圖。 Figure 3 is a schematic view showing the combination of the first embodiment of the present invention.
第4圖係本發明第一實施例之副橫架及太陽能板組合部位剖面圖。 Fig. 4 is a cross-sectional view showing the combined portion of the sub-cross frame and the solar panel of the first embodiment of the present invention.
第5圖係本發明第二實施例之局部組合放大圖。 Figure 5 is an enlarged view of a partial combination of a second embodiment of the present invention.
第6圖係本發明第二實施例之組合示意圖。 Figure 6 is a schematic view showing the combination of the second embodiment of the present invention.
第7圖係本發明第二實施例之副橫架及固定壓板組合部位剖面圖。 Figure 7 is a cross-sectional view showing the combined portion of the sub-cross frame and the fixed platen of the second embodiment of the present invention.
第8圖係本發明第三實施例之結構分解圖。 Figure 8 is an exploded view of the third embodiment of the present invention.
第9圖係本發明第三實施例之底座、主橫架及固定壓板組合部位剖面圖。 Figure 9 is a cross-sectional view showing the combined portion of the base, the main cross frame and the fixed platen of the third embodiment of the present invention.
第10圖係本發明第三實施例之組合示意圖。 Figure 10 is a schematic view showing the combination of the third embodiment of the present invention.
第11圖係本發明第三實施例之副橫架及太陽能板組合部位剖面圖。 Figure 11 is a cross-sectional view showing a combined portion of a sub-cross frame and a solar panel according to a third embodiment of the present invention.
第12圖係本發明第四實施例之局部組合放大圖。 Figure 12 is an enlarged view of a partial combination of a fourth embodiment of the present invention.
第13圖係本發明第四實施例之組合示意圖。 Figure 13 is a schematic view showing the combination of the fourth embodiment of the present invention.
第14圖係本發明第四實施例之副橫架及固定壓板組合部位剖面圖。 Figure 14 is a cross-sectional view showing a combined portion of a sub-cross frame and a fixed platen according to a fourth embodiment of the present invention.
請參第1至4圖所示,可知本發明第一實施例之結構主要包括:主橫架1、副橫架2、底座4及主壓板3等部份,其中該主橫架1係為一長條狀結構體,於該主橫架1頂部中央凹設有一沿軸向延伸之線槽11,於該線槽11開口二旁側另凹設有側凹槽12,於線槽11底部設有一相連通之上滑槽13,於該上滑槽13內設有一可滑動之上滑塊131,另於主橫架1二側設有對外連通之側滑槽14,於二側滑槽14內各設有一可滑動之側滑塊141,而於主橫架1二旁側對應位置各設有一凹線15,用以供副橫架2結合時作為水平校位的基準。 Referring to FIGS. 1 to 4, it can be seen that the structure of the first embodiment of the present invention mainly includes: a main cross frame 1, a sub cross frame 2, a base 4, and a main pressure plate 3, wherein the main cross frame 1 is a long strip-shaped structure, a centrally extending slot 11 is recessed in the center of the top of the main cross frame 1, and a side recess 12 is recessed on the side of the opening of the slot 11 at the bottom of the slot 11 The upper chute 13 is connected to the upper chute 13 , and a sliding upper slider 131 is disposed in the upper sliding slot 13 , and a side sliding slot 14 is disposed on the two sides of the main transverse frame 1 for external communication. Each of the 14 is provided with a slidable side slider 141, and a concave line 15 is disposed at a corresponding position on the side of the main cross frame 1 for use as a reference for horizontal alignment when the sub-cross frame 2 is combined.
副橫架2亦為一中空長條狀結構體,其二端係分別套合一銜接件23,於該副橫架2頂部中央凹設有一沿軸向延伸之上滑槽21,於該上滑槽21開口二旁側另凹設有側凹槽22,二銜接件23中段設有對應於凹線15之貫孔231,利用複數銜接件固定件232穿過貫孔231固定於主橫架1二旁側凹線15之位置,各銜接件23分別具有二貼合於副橫架2內側之側部234,藉由複數副橫架固定件233由外側依序 穿過副橫架2、銜接件23之側部234,可使該副橫架2得以經由銜接件23結合於二主橫架1之間;在一個可行得實施例中,該副橫架固定件233、銜接件固定件232係可分別為一自攻螺絲,以供直接貫穿該主橫架1、副橫架2以及副橫架2、銜接件23形成結合。 The sub-cross frame 2 is also a hollow elongated structure, and the two ends are respectively sleeved with a connecting member 23, and a sliding groove 21 extending axially is disposed on the top of the top of the sub-cross frame 2, on which A side groove 22 is further recessed on the side of the opening of the chute 21, and a middle hole 231 corresponding to the groove 15 is disposed in the middle of the second connecting member 23, and the plurality of connecting member fixing members 232 are fixed to the main transverse frame through the through hole 231. At the position of the two side concave lines 15, each of the connecting members 23 has two side portions 234 attached to the inner side of the sub-cross frame 2, and the plurality of sub-frame fixing members 233 are sequentially arranged from the outside. Passing through the side cross member 2 of the sub-cross frame 2 and the engaging member 23, the sub-cross frame 2 can be coupled between the two main cross frames 1 via the connecting member 23; in a feasible embodiment, the sub-cross frame is fixed The member 233 and the connecting member fixing member 232 are respectively a self-tapping screw for forming a joint directly through the main cross frame 1, the sub cross frame 2, and the sub cross frame 2, and the connecting member 23.
主壓板3係為一長形片狀結構體,於其頂側中央設有複數等間距之通孔31,各通孔31係可分別供一上調整定位件32穿過並向下連結於上滑塊131,主壓板3底面由二旁側分別向中央依序設有凹槽34、摩擦部35、凸部33,該摩擦部35係可為一鋸齒狀表面或類似具有較大摩擦效果之表面;在一個可行得實施例中,該上調整定位件32可為一螺栓,而該上滑塊131表面則設有一可螺合該螺栓之螺孔1311,利用該螺栓螺入螺孔1311內不同位置,可使該上滑塊131於上滑槽13內形成不同程度之迫緊,以令該主壓板3於主橫架1上方形成一連結。 The main pressure plate 3 is an elongated sheet-like structure, and a plurality of equally spaced through holes 31 are formed in the center of the top side thereof, and the through holes 31 are respectively provided for the upper adjustment positioning member 32 to pass through and be connected downward. The slider 131 has a groove 34, a friction portion 35 and a convex portion 33 respectively on the bottom surface of the main pressure plate 3 from the two sides, and the friction portion 35 can be a sawtooth surface or the like having a large friction effect. The upper adjustment positioning member 32 can be a bolt, and the upper slider 131 has a screw hole 1311 screwed into the surface of the upper slider 131, and the screw is screwed into the screw hole 1311. In different positions, the upper slider 131 can be formed to be tightly pressed in the upper sliding slot 13 so that the main pressing plate 3 forms a joint above the main cross frame 1.
底座4於中央設有一開口向上之容置空間41,該容置空間41係可供容納套合該主橫架1底部,於該容置空間41二旁側分別設有一向外貫通之長孔42,利用一側調整定位件142穿過長孔42連結於側滑塊141,可使該主橫架1與底座4形成結合;在一個可行得實施例中,該側調整定位件14可為一螺栓,而該側滑塊141表面則設有一可螺合該螺栓之螺孔1411,利用該螺栓螺入螺孔1411內不同位置,可使該側滑塊141於側滑槽14內形成不同程度之迫緊。 An accommodating space 41 is formed in the center of the base 4, and the accommodating space 41 is configured to receive the bottom of the main cross frame 1, and a long hole is formed on the side of the accommodating space 41. The main cross frame 1 can be combined with the base 4 by using the one side adjustment positioning member 142 through the long hole 42. In a feasible embodiment, the side adjustment positioning member 14 can be a bolt, and the surface of the side slider 141 is provided with a screw hole 1411 for screwing the bolt. The bolt is screwed into different positions in the screw hole 1411, so that the side slider 141 can be formed in the side sliding slot 14 differently. The degree is tight.
上述第一實施例之結構係可適用於具有邊框61之太陽能板6(如:250W晶矽模組),於實際應用時,係將複數底座4分別等間距(相同於太陽能板6一側寬度)地結合於預設無屋頂建築結構體的頂部樑架7上,並利用各底座4可將複數主橫架1橫向交錯地間隔固定於樑架7上方,再利用複數副橫架2以平行於樑架7的縱向等間距(相同於太陽能板6另一側寬度)連結於各主橫架1之間;如此一來,可將複數太陽能板6的邊緣分別置於該複數主橫架1、副橫架2所組成之框架上,將複數主壓板3分別組接於各主橫架1上,並壓合於各太陽能板6之二相對邊側的邊框61上,使各太陽能板6得以形成定位,而各太陽能板6之另二相對 邊側則可經由矽膠A(矽利康)加以黏合,而該矽膠A則可配合主壓板3於各太陽能板6周緣形成有效的防水結構,使該複數太陽能板6除了具有正常接受太陽光而產生電能之預設功效外,亦兼具有於樑架7上形成一相同於屋頂之遮蔽結構。 The structure of the first embodiment described above can be applied to the solar panel 6 having the frame 61 (for example, a 250 W wafer module). In practical applications, the plurality of bases 4 are equally spaced (the same as the width of the solar panel 6 side). Combined with the top beam 7 of the preset roofless building structure, and using the bases 4, the plurality of main cross frames 1 can be laterally staggered and fixed above the beam frame 7, and then the plurality of sub-frames 2 can be paralleled. The longitudinal equidistance of the beam 7 (same as the width of the other side of the solar panel 6) is connected between the main cross frames 1; thus, the edges of the plurality of solar panels 6 can be respectively placed on the plurality of main cross frames 1 On the frame composed of the sub-cross frame 2, the plurality of main pressure plates 3 are respectively assembled on the main cross frame 1 and pressed against the frame 61 on the opposite side of each of the solar panels 6, so that the solar panels 6 are respectively Positioning is formed, and the other two solar panels 6 are opposite The side can be bonded via silicone A (Mellycon), and the silicone A can be combined with the main pressure plate 3 to form an effective waterproof structure on the periphery of each solar panel 6, so that the plurality of solar panels 6 are produced in addition to normal sunlight. In addition to the preset function of the electric energy, it also has a shielding structure similar to the roof formed on the beam 7.
請參第5至7圖所示,可知本發明第二實施例之結構主要係於第一實施例之主橫架1、副橫架2、主壓板3、底座4之外,另增加複數副壓板5等組件;其中主橫架1、副橫架2、主壓板3、底座4係以相同方式相互組裝結合。 Referring to Figures 5 to 7, it can be seen that the structure of the second embodiment of the present invention is mainly based on the main cross frame 1, the sub-cross frame 2, the main pressure plate 3, and the base 4 of the first embodiment, and a plurality of additional pairs are added. The assembly of the pressure plate 5 and the like; wherein the main cross frame 1, the sub cross frame 2, the main pressure plate 3, and the base 4 are assembled and coupled to each other in the same manner.
該副壓板5係為一長形片狀結構體,其頂側中央設有複數等間距之通孔51,各通孔51可分別供一調整定位件52穿過並向下連結於一滑塊211,且該滑塊211係可滑動地設置於副橫架2之上滑槽21內,副壓板5底面由二旁側分別向中央依序設有凹槽54、摩擦部55、凸部53,該摩擦部55係可為一鋸齒狀表面或類似具有較大摩擦效果之表面;在一個可行得實施例中,該調整定位件52可為一螺栓,而該滑塊211表面則設有一可螺合該螺栓之螺孔2111,利用該螺栓螺入螺孔2111內不同位置,可使該滑塊211於上滑槽21內形成不同程度之迫緊,以令該副壓板5於副橫架2上方形成連結。 The auxiliary pressure plate 5 is an elongated sheet-like structure, and a plurality of equally spaced through holes 51 are disposed at the center of the top side thereof. Each of the through holes 51 can be respectively passed through an adjustment positioning member 52 and connected downward to a slider. 211, and the slider 211 is slidably disposed in the sliding groove 21 of the sub-cross frame 2, and the bottom surface of the auxiliary pressure plate 5 is provided with the groove 54, the friction portion 55, and the convex portion 53 respectively from the two sides to the center. The friction portion 55 can be a sawtooth surface or a surface having a large friction effect; in a feasible embodiment, the adjustment positioning member 52 can be a bolt, and the surface of the slider 211 is provided with a The screw hole 2111 of the bolt is screwed into the screw hole 2111 by different positions, so that the slider 211 can be tightly pressed in the upper sliding slot 21 so that the auxiliary pressure plate 5 is on the cross frame. 2 forms a joint above.
此種第二實施例之結構若應用於具有邊框61之太陽能板6上,其主橫架1、副橫架2、底座4係以相同方式相互組裝結合於預設建築結構體的樑架7上,利用複數主壓板3分別組接於各主橫架1上,以壓合於各太陽能板6之二相對邊側的邊框61上,利用複數副壓板5分別組接於各副橫架2上,以壓合於各太陽能板6之另二相對邊側的邊框61上,使各太陽能板6得以形成定位,且該主壓板3、副壓板5可於各太陽能板6之間形成有效的阻隔防水效果。 If the structure of the second embodiment is applied to the solar panel 6 having the frame 61, the main cross frame 1, the sub cross frame 2, and the base 4 are assembled to each other in the same manner to the beam 7 of the predetermined building structure. The plurality of main pressure plates 3 are respectively assembled on the main cross frame 1 to be pressed on the frame 61 on the opposite side of each of the solar panels 6, and the plurality of sub-plates 5 are respectively connected to the sub-cross frames 2 The solar panels 6 are positioned to be positioned on the frame 61 of the opposite sides of the solar panels 6, and the main plate 3 and the secondary plate 5 are formed between the solar panels 6. Block the waterproof effect.
請參第8至11圖所示,可知本發明第三實施例之結構主要包括:主橫架10、副橫架20、主壓板30,以及一與第一實施例相同之底座4;其中該主橫架10除了具有與前述主橫架1相同之結構外,另於其二側凹槽12內分別嵌設有一彈性壓條16,各彈性壓條16於朝向側凹槽12外之一端分別設有摩擦部,該摩擦部可為一鋸齒狀表面或類似 具有較大摩擦效果之表面。 Referring to Figures 8 to 11, it is understood that the structure of the third embodiment of the present invention mainly comprises: a main cross frame 10, a sub-cross frame 20, a main pressure plate 30, and a base 4 identical to the first embodiment; The main cross frame 10 has the same structure as the main cross frame 1 , and an elastic bead 16 is respectively embedded in the two side grooves 12 , and each elastic bead 16 is respectively disposed at one end of the outer side of the side groove 12 . a friction portion, which may be a serrated surface or the like A surface with a large friction effect.
該副橫架20除了具有與前述副橫架2相同之結構外,另於其二側凹槽22內分別嵌設有一彈性壓條26,各彈性壓條26於朝向側凹槽22外之一端分別設有摩擦部,該摩擦部可為一鋸齒狀表面或類似具有較大摩擦效果之表面。 The sub-cross frame 20 has the same structure as the sub-cross frame 2, and an elastic bead 26 is respectively embedded in the two side grooves 22, and the elastic bead 26 is respectively disposed at one end of the side of the side groove 22. There is a friction portion which may be a serrated surface or a surface having a large frictional effect.
主壓板30除了具有與前述主壓板3相同之結構外,另於其二凹槽34內分別嵌設有一彈性壓條36,各彈性壓條36於朝向凹槽34外之一端分別設有摩擦部,該摩擦部可為一鋸齒狀表面或類似具有較大摩擦效果之表面。 The main pressure plate 30 has a structure similar to that of the main pressure plate 3, and an elastic pressure strip 36 is respectively disposed in the two recesses 34, and each of the elastic pressure strips 36 is respectively provided with a friction portion toward one end of the groove 34. The friction portion may be a serrated surface or a surface having a relatively large frictional effect.
此種第三實施例之結構係適用於不具有邊框之太陽能板60(如:135W透光型微晶矽薄膜模組),於實際應用時,係將複數底座4分別等間距(相同於太陽能板60一側寬度)地結合於預設無屋頂建築結構體頂部的樑架7上,並利用各底座4將複數主橫架10橫向交錯地間隔固定於樑架7上方,再利用複數副橫架20以平行於樑架7的縱向等間距(相同於太陽能板60另一側寬度)連結於各主橫架10之間;如此一來,可將複數太陽能板60的邊緣分別置於該複數主橫架10、副橫架20所組成之框架上,將複數主壓板30分別組接於各主橫架10上,並壓合於各太陽能板60之二相對邊側上,使各太陽能板60得以形成定位,同時該彈性壓條36可受壓迫而於主壓板30與二太陽能板60之間形成阻隔,該彈性壓條16可受壓迫而於主橫架10與二太陽能板60之間形成阻隔,而各太陽能板60之另二相對邊側則可經由矽膠B(矽利康)加以黏合,利用該矽膠B可配合主壓板30於各太陽能板60周緣形成有效的防水結構,使複數太陽能板60除了具有正常接受太陽光而產生電能之預設功效外,亦兼具有於樑架7上形成一相同於屋頂之遮蔽結構。 The structure of the third embodiment is applicable to a solar panel 60 having no frame (for example, a 135W transparent microcrystalline germanium film module). In practical applications, the plurality of bases 4 are equally spaced (same as solar energy). The plate 60 is laterally coupled to the beam 7 at the top of the preset roofless building structure, and the plurality of main cross frames 10 are laterally staggered and fixed to the beam frame 7 by using the bases 4, and then the plurality of cross members are used. The frame 20 is coupled between the main cross frames 10 at equal intervals parallel to the longitudinal direction of the beam 7 (same as the other side width of the solar panel 60); thus, the edges of the plurality of solar panels 60 can be placed in the plural On the frame formed by the main cross frame 10 and the sub cross frame 20, a plurality of main pressure plates 30 are respectively assembled on the main cross frames 10, and are pressed on opposite sides of the solar panels 60 to make the solar panels. The elastic bead 36 can be pressed to form a barrier between the main pressure plate 30 and the two solar panels 60. The elastic bead 16 can be pressed to form a barrier between the main cross frame 10 and the two solar panels 60. And the other two sides of each solar panel 60 can pass through The glue B (Mellycon) is bonded, and the silicone B can be combined with the main pressure plate 30 to form an effective waterproof structure on the periphery of each solar panel 60, so that the plurality of solar panels 60 have the preset function of generating electric energy in addition to normal sunlight. It also has a shielding structure similar to the roof formed on the beam 7.
請參第12至14圖所示,可知本發明第四實施例之結構主要係於第三實施例之主橫架10、副橫架20、主壓板30、底座4之外,另增加複數副壓板50等組件;其中主橫架10、副橫架20、主壓板30、底座4係以相同方式相互組裝結合。 Referring to Figures 12 to 14, it is understood that the structure of the fourth embodiment of the present invention is mainly based on the main cross frame 10, the sub-cross frame 20, the main pressure plate 30, and the base 4 of the third embodiment, and a plurality of additional pairs are added. The assembly of the pressure plate 50 and the like; wherein the main cross frame 10, the sub cross frame 20, the main pressure plate 30, and the base 4 are assembled and coupled to each other in the same manner.
該副壓板50除了具有與前述副壓板5相同之結構外,另於 其二凹槽54內分別嵌設有一彈性壓條56,各彈性壓條56於朝向凹槽54外之一端分別設有摩擦部,該摩擦部可為一鋸齒狀表面或類似具有較大摩擦效果之表面。 The sub-plate 50 has the same structure as the sub-plate 5 described above, and An elastic pressing strip 56 is respectively disposed in the two recesses 54. Each of the elastic pressing strips 56 is respectively provided with a friction portion toward one end of the recess 54. The friction portion may be a sawtooth surface or a surface having a large friction effect. .
此種第四實施例之結構若應用於太陽能板60上,其主橫架10、副橫架20、底座4係以相同方式相互組裝結合於預設建築結構體的樑架7上,利用複數主壓板30分別組接於各主橫架10上,以壓合於各太陽能板60之二相對邊側上,利用複數副壓板50分別組接於各副橫架20上,以壓合於各太陽能板60之另二相對邊側上,使各太陽能板60得以形成定位,且該彈性壓條36可於主壓板30二旁側與二太陽能板60之間形成防水阻隔,該彈性壓條16可於主橫架10二旁側與二太陽能板60之間形成防水阻隔,該彈性壓條56可於副壓板50二旁側與二太陽能板60之間形成防水阻隔,該彈性壓條26可於副橫架20二旁側與二太陽能板60之間形成防水阻隔,藉此,使各太陽能板60之間得以形成有效的防水阻隔效果。 If the structure of the fourth embodiment is applied to the solar panel 60, the main cross frame 10, the sub cross frame 20, and the base 4 are assembled to each other in the same manner and coupled to the beam 7 of the preset building structure. The main pressure plates 30 are respectively assembled on the main cross frames 10 to be pressed against the opposite sides of the solar panels 60, and are respectively assembled on the sub-cross frames 20 by the plurality of sub-plates 50 to be pressed into each The two opposite sides of the solar panel 60 enable the solar panels 60 to be positioned, and the elastic bead 36 can form a waterproof barrier between the two sides of the main pressure plate 30 and the two solar panels 60. The elastic bead 16 can be A waterproof barrier is formed between the two sides of the main cross frame 10 and the two solar panels 60. The elastic bead 56 can form a waterproof barrier between the two side plates of the secondary pressure plate 50 and the two solar panels 60. The elastic bead 26 can be used in the cross frame. A waterproof barrier is formed between the two side solar panels 60 and the two solar panels 60, thereby forming an effective waterproof barrier effect between the solar panels 60.
綜合以上所述,本發明之太陽能板之安裝固定結構確可達成增進太陽能板之應用場合、提昇太陽能板的附加價值之功效,實為一具新穎性及進步性之發明,爰依法提出申請發明專利;惟上述說明之內容,僅為本發明之較佳實施例說明,舉凡依本發明之技術手段與範疇所延伸之變化、修飾、改變或等效置換者,亦皆應落入本發明之專利申請範圍內。 In summary, the installation and fixing structure of the solar panel of the present invention can achieve the effect of enhancing the application of the solar panel and enhancing the added value of the solar panel. It is a novel and progressive invention, and the invention is filed according to law. The above description is only for the preferred embodiment of the present invention, and any changes, modifications, alterations or equivalent substitutions of the technical means and scope of the present invention should also fall within the scope of the present invention. Within the scope of the patent application.
1‧‧‧主橫架 1‧‧‧main cross frame
11‧‧‧線槽 11‧‧‧ wire trough
12、22‧‧‧側凹槽 12, 22‧‧‧ side grooves
13、21‧‧‧上滑槽 13, 21‧‧‧ upper chute
131‧‧‧上滑塊 131‧‧‧Upper slider
1311、1411、2111‧‧‧螺孔 1311, 1411, 2111‧‧‧ screw holes
14‧‧‧側滑槽 14‧‧‧ Side chute
141‧‧‧側滑塊 141‧‧‧ side slider
142‧‧‧側調整定位件 142‧‧‧ side adjustment positioning parts
15‧‧‧凹線 15‧‧‧ Groove
2‧‧‧副橫架 2‧‧‧Sub-cross frame
23‧‧‧銜接件 23‧‧‧Connecting pieces
231‧‧‧貫孔 231‧‧‧through holes
232‧‧‧銜接件固定件 232‧‧‧Connector fixing parts
233‧‧‧副橫架固定件 233‧‧‧Sub-frame fasteners
234‧‧‧側部 234‧‧‧ side
3‧‧‧主壓板 3‧‧‧Main platen
31‧‧‧通孔 31‧‧‧through hole
32‧‧‧上調整定位件 32‧‧‧Upper positioning parts
33‧‧‧凸部 33‧‧‧ convex
34‧‧‧凹槽 34‧‧‧ Groove
35‧‧‧摩擦部 35‧‧‧ Friction Department
4‧‧‧底座 4‧‧‧Base
41‧‧‧容置空間 41‧‧‧ accommodating space
42‧‧‧長孔 42‧‧‧ long hole
6‧‧‧太陽能板 6‧‧‧ solar panels
61‧‧‧邊框 61‧‧‧Border
Claims (9)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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TW103105759A TWI568981B (en) | 2014-02-21 | 2014-02-21 | Installation of solar panels |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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TW103105759A TWI568981B (en) | 2014-02-21 | 2014-02-21 | Installation of solar panels |
Publications (2)
Publication Number | Publication Date |
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TW201533409A TW201533409A (en) | 2015-09-01 |
TWI568981B true TWI568981B (en) | 2017-02-01 |
Family
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Family Applications (1)
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TW103105759A TWI568981B (en) | 2014-02-21 | 2014-02-21 | Installation of solar panels |
Country Status (1)
Country | Link |
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TW (1) | TWI568981B (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI633748B (en) * | 2017-09-01 | 2018-08-21 | 鴻海精密工業股份有限公司 | Installation assesmbly for photovoltaic module and method of using the same |
US10432136B2 (en) | 2017-08-30 | 2019-10-01 | Ambit Microsystems (Shanghai) Ltd. | Installation assembly for photovoltaic module and method of using the same |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI639752B (en) * | 2017-01-26 | 2018-11-01 | 景欣有限公司 | Joint assembly and support member |
TWI634293B (en) * | 2017-01-26 | 2018-09-01 | 周士勤 | Solar panel mount |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4114595A (en) * | 1977-07-06 | 1978-09-19 | Harold Reed Barker | Solar energy collector and glazing system |
TW201247976A (en) * | 2011-05-18 | 2012-12-01 | Ind Tech Res Inst | Assembling component |
TWM467849U (en) * | 2013-06-03 | 2013-12-11 | Taray Solar Internat Co Ltd | Frame of solar panel set |
-
2014
- 2014-02-21 TW TW103105759A patent/TWI568981B/en active
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4114595A (en) * | 1977-07-06 | 1978-09-19 | Harold Reed Barker | Solar energy collector and glazing system |
TW201247976A (en) * | 2011-05-18 | 2012-12-01 | Ind Tech Res Inst | Assembling component |
TWM467849U (en) * | 2013-06-03 | 2013-12-11 | Taray Solar Internat Co Ltd | Frame of solar panel set |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10432136B2 (en) | 2017-08-30 | 2019-10-01 | Ambit Microsystems (Shanghai) Ltd. | Installation assembly for photovoltaic module and method of using the same |
TWI633748B (en) * | 2017-09-01 | 2018-08-21 | 鴻海精密工業股份有限公司 | Installation assesmbly for photovoltaic module and method of using the same |
Also Published As
Publication number | Publication date |
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TW201533409A (en) | 2015-09-01 |
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