TWM568880U - Waterproof connection structure - Google Patents

Waterproof connection structure Download PDF

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Publication number
TWM568880U
TWM568880U TW107207792U TW107207792U TWM568880U TW M568880 U TWM568880 U TW M568880U TW 107207792 U TW107207792 U TW 107207792U TW 107207792 U TW107207792 U TW 107207792U TW M568880 U TWM568880 U TW M568880U
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Taiwan
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wall
portions
solar panels
connection structure
halves
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TW107207792U
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Chinese (zh)
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薛連豐
王敏郎
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薛連豐
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Priority to TW107207792U priority Critical patent/TWM568880U/en
Publication of TWM568880U publication Critical patent/TWM568880U/en

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Abstract

一種防水連接結構,係配合一太陽能板陣列以構成一建築物的立面牆或屋頂板。所述之防水連接結構包含有二半組件、以及一連結件。該二半組件介於該二太陽能板之間,該連結件覆該二半組件之間的接縫,使雨水流入每一該半組件所形成之導水通道導出,而能避免滲透進入建築物內。A waterproof connection structure that cooperates with an array of solar panels to form a facade wall or roof panel of a building. The waterproof connection structure comprises two halves and a joint. The two halves are interposed between the two solar panels, and the joint covers the joint between the two halves, so that rainwater flows into the water guiding channel formed by each of the semi-assemblies, thereby avoiding penetration into the building. .

Description

防水連接結構Waterproof connection structure

本創作有關於一種防水連接結構,尤指一種用以組接多個太陽能板之防水連接結構。The present invention relates to a waterproof connection structure, and more particularly to a waterproof connection structure for assembling a plurality of solar panels.

近年來國際間對於環境保護的意識逐漸提升,如何合理地運用綠色能源成為重要的環保議題,而在綠能科技中,又以太陽能發電因其成本低廉、施作簡便而受到矚目。目前最為常見的太陽能發電方式是利用建築物頂樓的閒置區域安裝太陽能板,藉由光電半導體將光能轉為電能並作儲存以供使用,達到節約能源的目的。具體而言,習用安裝太陽能板的方式是在頂樓架設棚架,並在棚架的頂面形成格柵,再將太陽能板嵌設於棚架上的格柵中。但,下雨時,雨水會由太陽能板與棚架之間的間隙滲漏至建築物頂樓地面,且棚架會隨時間氧化鏽蝕,在維修時必須拆除原有的棚架進行更換,使用上耗工費時又浪費建材。In recent years, the international awareness of environmental protection has gradually increased. How to use green energy reasonably has become an important environmental issue. In Green Energy Technology, solar power generation has attracted attention because of its low cost and simple operation. At present, the most common way of generating solar energy is to use solar panels in the idle area of the top floor of the building. The photoelectric semiconductor converts the light energy into electrical energy and stores it for use, thereby saving energy. Specifically, the conventional method of installing solar panels is to erect scaffolding on the top floor, form a grille on the top surface of the scaffolding, and then embed the solar panels in the grille on the scaffolding. However, when it rains, the rainwater will leak from the gap between the solar panel and the scaffolding to the top floor of the building, and the scaffold will oxidize and rust over time. The original scaffold must be removed for replacement during maintenance. It takes time and labor to waste building materials.

台灣公告第M466143號專利申請案提供一種太陽能瓦片,其包括一瓦片本體及一太陽能板。該瓦片本體兩端分別設有一配合部。藉由上下兩塊瓦片之該配合部的疊合,而能具備防雨及隔熱效果。然而,上述先前技術中,每一該瓦片皆由另外兩塊瓦片加以固定,倘若末端的瓦片損壞時,必須將相連接的整列瓦片全部拆開,才能將損壞的瓦片取出替換。是以,先前技術實有改進之必要。Taiwan Patent Application No. M466143 provides a solar tile comprising a tile body and a solar panel. A mating portion is respectively disposed at two ends of the tile body. The combination of the mating portions of the upper and lower tiles can provide rain and heat insulation effects. However, in the above prior art, each of the tiles is fixed by two other tiles. If the ends of the tiles are damaged, all the connected columns of tiles must be disassembled to remove the damaged tiles. . Therefore, the prior art has been improved.

本創作之目的,在於解決上述先前技術的大面積平板工件容易曲翹變形造成施工困難等問題。The purpose of the present invention is to solve the problems of the above-mentioned prior art large-area flat workpieces which are easily bent and deformed, resulting in construction difficulties.

為達上述目的,本創作提供一種防水連接結構,係配合一太陽能板陣列使用,以構成一建築物的立面牆或屋頂板,該太陽能板陣列被界定為複數橫列、以及複數縱列,所述之防水連接結構包含有複數橫列連接單元,每一該橫列連接單元包含有二半組件、以及一連結件。每一該半組件包含有一第一壁,一自該第一壁一端延伸之第二壁,一連接該第二壁並與該第一壁平行設置之第三壁,一位於該第三壁遠離該第二壁一端並朝該第一壁延伸之第四壁,以及以介於該第一壁與該第四壁之間的通口,該第一壁、該第二壁、該第三壁以及該第四壁共同構成一導水通道。該連結件包含有一隔體,二分別自該隔體延伸之延伸部,以及二分別設置於每一該延伸部末端之結合部。其中每一該橫列連接單元分別位於橫列上相鄰之二該太陽能板之間,該二半組件介於該二太陽能板之間,每一該第一壁分別設置於其中一該太陽能板之外緣,該隔體覆該二半組件之間的接縫,該二延伸部分別通過該二半組件之該通口,每一該結合部連接於該二半組件之該第一壁,且該隔體與該二太陽能板之接縫分別連通於每一該導水通道。To achieve the above object, the present invention provides a waterproof connection structure for use with a solar panel array to form a facade wall or roof panel of a building, the solar panel array being defined as a plurality of courses, and a plurality of columns. The waterproof connection structure comprises a plurality of row connection units, each of the row connection units comprises two halves, and a link. Each of the half assemblies includes a first wall, a second wall extending from one end of the first wall, a third wall connected to the second wall and disposed parallel to the first wall, and a third wall located away from the third wall a fourth wall extending from one end of the second wall toward the first wall, and a port interposed between the first wall and the fourth wall, the first wall, the second wall, the third wall And the fourth wall together constitutes a water conduit. The connecting member comprises a partition body, two extending portions respectively extending from the partition body, and two joint portions respectively disposed at the ends of each of the extending portions. Each of the row connecting units is respectively located between two adjacent solar panels on the horizontal row, and the two halves are interposed between the two solar panels, and each of the first walls is respectively disposed on one of the solar panels. The outer edge covers the seam between the two halves, and the two extensions respectively pass through the openings of the two halves, and each of the joints is connected to the first wall of the two halves. And the joint between the partition and the two solar panels is respectively connected to each of the water guiding channels.

進一步地,所述之防水連接結構更進一步包含有複數縱列連接單元,每一該縱列連接單元包含有一夾持件、以及一承靠件。該夾持件包含有一底板,二分別自該底板兩端延伸之立壁,以及二分別連接該立壁且背向延伸之壓板。該承靠件包含有一底部,二分別位於該底部相對兩端且與該底部具有階差之承靠部,二分別位於每一該承靠部遠離該底部另一端之排水部,以及二與每一該承靠部等高且分別連接每一該排水部之阻水部。其中每一該縱列連接單元分別位於縱列上相鄰之二該太陽能板之間,該二縱列分別受每一該壓板壓合靠置在每一該承靠部上,該底板固定連接於該底部,且每一該承靠部與該二太陽能板之接縫分別連通於每一該排水部。Further, the waterproof connection structure further includes a plurality of column connection units, each of the column connection units including a clamping member and a bearing member. The clamping member comprises a bottom plate, two vertical walls extending from opposite ends of the bottom plate, and two pressure plates respectively connected to the vertical wall and extending away from the vertical wall. The bearing member comprises a bottom portion, two bearing portions respectively located at opposite ends of the bottom portion and having a step difference with the bottom portion, and two partition portions respectively located at each of the bearing portions away from the other end of the bottom portion, and two and each The bearing portion is equal in height and is connected to each of the water blocking portions of the drain portion. Each of the column connecting units is respectively located between two adjacent solar panels on the column, and the two columns are respectively pressed against each of the bearing portions by the pressing plate, and the bottom plate is fixedly connected At the bottom, each of the abutting portions and the two solar panels are respectively connected to each of the drainage portions.

進一步地,每一該導水通道之末端連通於每一該排水部。Further, an end of each of the water guiding channels is connected to each of the drain portions.

進一步地,該第一壁具有一朝該太陽能板凹陷之段差,且該結合部形成對應該段差之倒鉤。Further, the first wall has a stepped depression toward the solar panel, and the joint portion forms a barb corresponding to the step.

進一步地,每一該半組件包含有一連接該第一壁以及該第三壁之補強肋。Further, each of the half assemblies includes a reinforcing rib connecting the first wall and the third wall.

本創作之防水連接結構採用橫列、縱列不同防水結構之配置。當需要拆換其中一塊太陽能板時,僅需將相鄰的橫列連接單元、縱列連接單元拆除,即可將單片太陽能板取下修繕或更換。而不會有習用瓦片須拆除相連太陽能板等問題。The waterproof connection structure of the present invention adopts a configuration of different waterproof structures in a row and a column. When one of the solar panels needs to be replaced, it is only necessary to remove the adjacent row connecting unit and the column connecting unit, and the single solar panel can be removed for repair or replacement. There are no problems with the use of tiles to remove the connected solar panels.

茲就本申請案的技術特徵暨操作方式舉數個較佳實施態樣,並配合圖示說明謹述於后,俾提供審查參閱。再者,本創作中之圖式,為便於說明其比例未必按實際比例繪製,圖式中之比例並不用以限制本創作所欲請求保護之範圍。For a more detailed description of the technical features and operation modes of the present application, and with reference to the illustrations, please refer to the review. In addition, the drawings in this creation are not necessarily drawn to scale in order to facilitate the description, and the proportions in the drawings are not intended to limit the scope of the claimed invention.

關於本創作之技術,請參照第1圖至第3圖所示。本創作提供一種防水連接結構,係配合一太陽能板陣列900使用,以構成一建築物的立面牆或屋頂板。該太陽能板陣列900中具有複數個太陽能板20,且該些太陽能板20於沿著一個平面排列,而可被界定為複數橫列、以及複數縱列。所述之防水連接結構包含有複數橫列連接單元,每一該橫列連接單元用於連接在該橫列上相鄰的兩塊太陽能板20。且每一該橫列連接單元包含有二半組件10、以及一連結件30。For the technique of this creation, please refer to Figures 1 to 3. The present invention provides a waterproof connection structure for use with a solar panel array 900 to form a facade or roof panel of a building. The solar panel array 900 has a plurality of solar panels 20, and the solar panels 20 are arranged along a plane, and can be defined as a plurality of courses, and a plurality of columns. The waterproof connection structure comprises a plurality of rows of connection units, each of the row connection units for connecting two solar panels 20 adjacent to the row. And each of the row connecting units includes two halves 10 and a connecting member 30.

具體而言,每一該半組件10包含有一第一壁11,一自該第一壁11一端延伸之第二壁12,一連接該第二壁12並與該第一壁11平行設置之第三壁13,一位於該第三壁13遠離該第二壁12一端並朝該第一壁11延伸之第四壁14,以及以介於該第一壁11與該第四壁14之間的通口15,該第一壁11、該第二壁12、該第三壁13以及該第四壁14共同構成一導水通道16。每一該半組件10包含有一連接該第一壁11以及該第三壁13之補強肋17,用以加強每一該半組件10的結構。本實施態樣中,每一該半組件10係設置於一該太陽能板20的一側,且該太陽能板20的相對側設有另一該半組件10。每一該半組件10可透過焊接等方式與該些太陽能板20結合,或可為該太陽能板20邊框一體成形的一部份,在此不予限制。Specifically, each of the half assemblies 10 includes a first wall 11 , a second wall 12 extending from one end of the first wall 11 , and a second wall 12 connected to the first wall 11 . a third wall 13 , a fourth wall 14 located at an end of the third wall 13 away from the second wall 12 and extending toward the first wall 11 , and between the first wall 11 and the fourth wall 14 The first wall 11, the second wall 12, the third wall 13, and the fourth wall 14 together form a water conduit 16. Each of the half assemblies 10 includes a reinforcing rib 17 connecting the first wall 11 and the third wall 13 for reinforcing the structure of each of the half assemblies 10. In this embodiment, each of the half assemblies 10 is disposed on one side of the solar panel 20, and the other side of the solar panel 20 is provided with another half assembly 10. Each of the half assemblies 10 may be combined with the solar panels 20 by soldering or the like, or may be a part of the solar panel 20 frame integrally formed, which is not limited herein.

請參照第3圖至第5圖所示,該連結件30包含有一隔體31,二分別自該隔體31延伸之延伸部32,以及二分別設置於每一該延伸部32末端之結合部33。本實施態樣中,該第一壁11具有一朝該太陽能板20凹陷之段差111,且該結合部33形成對應該段差111之倒鉤,而可令該結合部33與該段差111卡合。Referring to FIGS. 3 to 5 , the connecting member 30 includes a partition 31 , two extending portions 32 extending from the partition 31 , and two joints respectively disposed at the ends of each of the extending portions 32 . 33. In this embodiment, the first wall 11 has a step 111 recessed toward the solar panel 20, and the joint portion 33 forms a barb corresponding to the step 111, so that the joint portion 33 can be engaged with the step 111. .

以下說明本創作之組接及作用方式。每一該橫列連接單元分別位於橫列上相鄰之二該太陽能板20之間。該二半組件10介於該二太陽能板20之間,每一該第一壁11分別設置於其中一該太陽能板20之外緣,該隔體31覆該二半組件10之間的接縫,該二延伸部32分別通過該二半組件10之該通口15,每一該結合部33連接於該二半組件10之該第一壁11,且該隔體31與該二太陽能板20之接縫分別連通於每一該導水通道16。藉此,當有滲水進入該隔體31與該二太陽能板20之接縫時,均可透過每一該導水通道16排出。The following describes the combination and function of this creation. Each of the row connecting units is located between the adjacent solar panels 20 on the horizontal row. The two halves 10 are interposed between the two solar panels 20, and each of the first walls 11 is disposed on one of the outer edges of the solar panel 20, and the spacer 31 covers the seam between the two halves 10. The two extending portions 32 respectively pass through the through openings 15 of the two semi-assemblies 10 , and each of the connecting portions 33 is connected to the first wall 11 of the two halves 10 , and the partition 31 and the two solar panels 20 The seams are respectively communicated with each of the water conduits 16. Thereby, when there is water seepage into the joint between the partition 31 and the two solar panels 20, it can be discharged through each of the water guiding channels 16.

參照第6圖所示,係為本創作實施於屋頂板之態樣。下雨時, 雨水沿著該太陽能板陣列900之傾角向低處滑落,並有可能自該隔體31與該太陽能板20的接縫處滲入。此時滲入的雨水會由該通口15進入該導水通道16,並自該導水通道16向兩側排出,而不會滲透進到屋內。參照第7圖所示,係為本創作實施於立面牆之態樣。下雨時,雨水沿著牆面滑落,並可能自該隔體31與該太陽能板20的接縫處滲入。此時滲入的雨水會由該通口15進入該導水通道16,受該第四壁14阻攔後再由該導水通道16向兩側排出,而不會滲透進到屋內。藉此達到防水效果。Referring to Fig. 6, it is the aspect of the creation of the roof panel. When it rains, the rainwater slides down the inclination of the solar panel array 900, and it is possible to infiltrate from the joint of the partition 31 and the solar panel 20. At this time, the infiltrated rainwater enters the water conduit 16 from the port 15, and is discharged from the water conduit 16 to both sides without penetrating into the house. Referring to Figure 7, it is the embodiment of the creation of the facade wall. When it rains, the rainwater slides down the wall surface and may infiltrate from the seam of the partition 31 and the solar panel 20. At this time, the infiltrated rainwater enters the water guiding passage 16 through the opening 15, and is blocked by the fourth wall 14 and then discharged to the both sides by the water guiding passage 16 without penetrating into the house. Thereby achieving a waterproof effect.

請參照第8圖至第10圖所示,所述之防水連接結構更進一步包含有複數縱列連接單元,每一該縱列連接單元包含有一夾持件40、以及一承靠件50。每一該縱列連接單元用於連接在該縱列上相鄰的兩塊該太陽能板20。Referring to FIGS. 8-10, the waterproof connection structure further includes a plurality of column connecting units, each of the column connecting units including a clamping member 40 and a bearing member 50. Each of the column connecting units is for connecting two of the solar panels 20 adjacent to the column.

具體而言,該夾持件40包含有一底板41,二分別自該底板41兩端延伸之立壁42,以及二分別連接該立壁42且彼此背向延伸之壓板43。該承靠件50包含有一底部51,二分別位於該底部51相對兩端且與該底部51具有階差之承靠部52,二分別位於每一該承靠部52遠離該底部51另一端之排水部53,以及二與每一該承靠部52等高且分別連接每一該排水部53之阻水部54。Specifically, the clamping member 40 includes a bottom plate 41, two vertical walls 42 extending from opposite ends of the bottom plate 41, and two pressure plates 43 respectively connected to the vertical wall 42 and extending away from each other. The abutting member 50 includes a bottom portion 51, and two abutting portions 52 respectively located at opposite ends of the bottom portion 51 and having a step difference from the bottom portion 51. Two of the bearing portions 52 are located away from the other end of the bottom portion 51. The drain portion 53 and the two are equal to each of the abutting portions 52 and are respectively connected to the water blocking portion 54 of each of the drain portions 53.

其中每一該縱列連接單元分別位於縱列上相鄰之二該太陽能板20之間,該二縱列連接單元分別受每一該壓板43壓合靠置在每一該承靠部52上,該底板41固定連接於該底部51,且每一該承靠部52與該二太陽能板20之接縫分別連通於每一該排水部53。當本創作使用於屋頂板時,每一該縱列連接單元較佳係沿著屋頂傾斜,令該太陽能板陣列900、每一該橫列連接單元、以及每一該縱列連接單元組合後,使每一該排水部53可朝屋簷方向傾斜並將積水排出。每一該導水通道16之末端應連通於每一該排水部53,而能達到匯流及排水之目的。Each of the column connecting units is located between the adjacent two solar panels 20 on the column, and the two column connecting units are respectively pressed by each of the pressing plates 43 against each of the bearing portions 52. The bottom plate 41 is fixedly connected to the bottom portion 51, and each of the bearing portions 52 and the two solar panels 20 are respectively connected to each of the drain portions 53. When the present invention is used in a shingle, each of the column connecting units is preferably inclined along the roof, so that the solar panel array 900, each of the row connecting units, and each of the column connecting units are combined. Each of the drain portions 53 can be inclined toward the eaves direction and discharge the accumulated water. The end of each of the water guiding channels 16 should be connected to each of the drain portions 53 for the purpose of confluence and drainage.

以上已詳細說明本創作之內容,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,即凡依本創作申請專利範圍所作之均等變化與修飾,皆應仍屬本創作之專利涵蓋範圍內。The content of the present invention has been described in detail above, but the above is only the preferred embodiment of the present invention, and the scope of the present invention cannot be limited by this, that is, the equal change of the scope of patent application according to the present invention is Modifications shall remain within the scope of the patents of this creation.

10‧‧‧半組件10‧‧‧ half-component

11‧‧‧第一壁 11‧‧‧ first wall

111‧‧‧段差 111‧‧‧ paragraph difference

12‧‧‧第二壁 12‧‧‧ second wall

13‧‧‧第三壁 13‧‧‧ Third Wall

14‧‧‧第四壁 14‧‧‧ fourth wall

15‧‧‧通口 15‧‧‧ mouth

16‧‧‧導水通道 16‧‧‧Water channel

17‧‧‧補強肋 17‧‧‧ reinforcing ribs

20‧‧‧太陽能板 20‧‧‧ solar panels

30‧‧‧連結件 30‧‧‧Links

31‧‧‧隔體 31‧‧‧ Compartment

32‧‧‧延伸部 32‧‧‧Extension

33‧‧‧結合部 33‧‧‧Combination Department

40‧‧‧夾持件 40‧‧‧Clamping parts

41‧‧‧底板 41‧‧‧floor

42‧‧‧立壁 42‧‧‧立立

43‧‧‧壓板 43‧‧‧ pressure plate

50‧‧‧承靠件 50‧‧‧Attendance

51‧‧‧底部 51‧‧‧ bottom

52‧‧‧承靠部 52‧‧‧Responsible Department

53‧‧‧排水部 53‧‧‧Drainage Department

54‧‧‧阻水部 54‧‧‧Water Blocking Department

900‧‧‧太陽能板陣列 900‧‧‧Solar panel array

第1圖:為本創作第一實施態樣之立體分解圖。 第2圖:為本創作太陽能板及半組件之立體圖。 第3圖:為本創作太陽能板及半組件之側視圖。 第4圖:為本創作第一實施態樣之立體分解圖。 第5圖:為本創作第一實施態樣之立體組合圖。 第6圖:為本創作實施為屋頂板之使用狀態示意圖。 第7圖:為本創作實施為立面牆之使用狀態示意圖。 第8圖:為本創作第二實施態樣之立體分解圖。 第9圖:為本創作第二實施態樣之立體組合圖。 第10圖:為本創作第二實施態樣之側視圖。 第11圖至第13圖:為本創作防水連接結構之實景照片。Fig. 1 is an exploded perspective view showing the first embodiment of the present invention. Figure 2: A perspective view of the solar panels and half components of the creation. Figure 3: Side view of the solar panels and half components of the creation. Fig. 4 is a perspective exploded view of the first embodiment of the present invention. Figure 5: A three-dimensional combination of the first embodiment of the creation. Figure 6: Schematic diagram of the use of the roof as a creation. Figure 7: This is a schematic diagram of the use of the facade as a facade. Figure 8 is a perspective exploded view of the second embodiment of the present invention. Figure 9 is a three-dimensional combination diagram of the second embodiment of the present invention. Figure 10: A side view of the second embodiment of the present invention. Figure 11 to Figure 13: A photo of the real-life waterproof connection structure.

Claims (5)

一種防水連接結構,係配合一太陽能板陣列使用,以構成一建築物的立面牆或屋頂板,該太陽能板陣列被界定為複數橫列、以及複數縱列,所述之防水連接結構包含有: 複數橫列連接單元,每一該橫列連接單元包含有: 二半組件,每一該半組件包含有一第一壁,一自該第一壁一端延伸之第二壁,一連接該第二壁並與該第一壁平行設置之第三壁,一位於該第三壁遠離該第二壁一端並朝該第一壁延伸之第四壁,以及以介於該第一壁與該第四壁之間的通口,該第一壁、該第二壁、該第三壁以及該第四壁共同構成一導水通道;以及 一連結件,該連結件包含有一隔體,二分別自該隔體延伸之延伸部,以及二分別設置於每一該延伸部末端之結合部; 其中每一該橫列連接單元分別位於橫列上相鄰之二該太陽能板之間,該二半組件介於該二太陽能板之間,每一該第一壁分別設置於其中一該太陽能板之外緣,該隔體覆該二半組件之間的接縫,該二延伸部分別通過該二半組件之該通口,每一該結合部連接於該二半組件之該第一壁,且該隔體與該二太陽能板之接縫分別連通於每一該導水通道。A waterproof connection structure is used in conjunction with a solar panel array to form a facade wall or a roof panel of a building, the solar panel array being defined as a plurality of courses, and a plurality of columns, the waterproof connection structure including a plurality of row connecting units, each of the row connecting units comprising: two halves, each of the half assemblies including a first wall, a second wall extending from one end of the first wall, and a second connecting a third wall disposed parallel to the first wall, a fourth wall extending from the end of the third wall away from the second wall and extending toward the first wall, and between the first wall and the fourth wall a port between the walls, the first wall, the second wall, the third wall and the fourth wall together form a water guiding channel; and a connecting member, the connecting member comprises a partition, and the two respectively are separated from the gap An extension portion of the body extension, and a joint portion respectively disposed at an end of each of the extension portions; wherein each of the row connection units is located between two adjacent solar panels on the horizontal row, and the two halves are between Between the two solar panels, each of the The first wall is respectively disposed on an outer edge of the one of the solar panels, the partition covers a seam between the two halves, and the two extensions respectively pass through the opening of the two halves, and each of the joints is connected The first wall of the two halves, and the seam of the partition and the two solar panels are respectively connected to each of the water guiding channels. 如申請專利範圍第1項所述之防水連接結構,更進一步包含有複數縱列連接單元,每一該縱列連接單元包含有: 一夾持件,包含有一底板,二分別自該底板兩端延伸之立壁,以及二分別連接該立壁且背向延伸之壓板;以及 一承靠件,包含有一底部,二分別位於該底部相對兩端且與該底部具有階差之承靠部,二分別位於每一該承靠部遠離該底部另一端之排水部,以及二與每一該承靠部等高且分別連接每一該排水部之阻水部; 其中每一該縱列連接單元分別位於縱列上相鄰之二該太陽能板之間,該二縱列分別受每一該壓板壓合靠置在每一該承靠部上,該底板固定連接於該底部,且每一該承靠部與該二太陽能板之接縫分別連通於每一該排水部。The waterproof connection structure according to claim 1, further comprising a plurality of column connection units, each of the column connection units comprising: a clamping member comprising a bottom plate and two ends respectively from the bottom plate An extension wall, and two pressure plates respectively connected to the vertical wall and extending backward; and a bearing member comprising a bottom portion, two abutting portions respectively located at opposite ends of the bottom portion and having a step difference with the bottom portion Each of the abutting portions is away from the drain portion at the other end of the bottom portion, and is equal to each of the abutting portions and is respectively connected to each of the water blocking portions of the drain portion; wherein each of the column connecting units is located vertically Between the two adjacent solar panels, the two columns are respectively pressed against each of the bearing portions by the pressing plate, the bottom plate is fixedly connected to the bottom portion, and each of the bearing portions is fixedly connected to the bottom portion A joint with the two solar panels is respectively connected to each of the drain portions. 如申請專利範圍第2項所述之防水連接結構,其中每一該導水通道之末端連通於每一該排水部。The waterproof connection structure according to claim 2, wherein an end of each of the water conduits is connected to each of the drainage portions. 如申請專利範圍第1項所述之防水連接結構,其中該第一壁具有一朝該太陽能板凹陷之段差,且該結合部形成對應該段差之倒鉤。The waterproof connection structure according to claim 1, wherein the first wall has a stepped depression toward the solar panel, and the joint portion forms a barb corresponding to the step. 如申請專利範圍第1項所述之防水連接結構,其中每一該半組件包含有一連接該第一壁以及該第三壁之補強肋。The waterproof connection structure of claim 1, wherein each of the half assemblies includes a reinforcing rib connecting the first wall and the third wall.
TW107207792U 2018-06-11 2018-06-11 Waterproof connection structure TWM568880U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI684698B (en) * 2018-06-11 2020-02-11 薛連豐 Waterproof connection structure

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI684698B (en) * 2018-06-11 2020-02-11 薛連豐 Waterproof connection structure

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