TWM608444U - Improved structure of locking spot of water gutter of solar photo-electric module - Google Patents

Abstract

This creation discloses an improved structure for the locking point of the drainage channel of the solar photovoltaic module, which mainly includes a W-shaped bracket, two corresponding L-shaped connecting pieces, a horizontal drainage strip and a number of solar photovoltaic panels. The W-shaped bracket allows two L-shaped connecting pieces to be fixed on the two sides of the main frame in a corresponding manner, so that the horizontal surface of the L-shaped connecting piece provides the support and fixing function of the solar photovoltaic panel; thereby, The fixing points of the overall equipment can be completed under the scaffold to avoid accidents during construction.

Description

Improved structure of drainage groove lock point of solar photovoltaic module

The creation of this case is an improved structure for the locking point of the drainage channel of the solar photovoltaic module, in particular, it refers to an improved structure for the locking point of the drainage channel installed under the shelf of the solar photovoltaic module to receive rainwater.

According to the fact that the topic of green renewable energy has received much attention from all walks of life, among which solar power generation has attracted the most attention and favor, and the huge manpower and material resources have been invested in the solar energy industry, making the solar photovoltaic industry gradually possess mature technology and economic value. Therefore, solar photovoltaic The construction of the factory will receive more attention, and the hardware installation technology of solar photovoltaic modules will have its urgent needs.

At present, for the installation position of the aforementioned solar power modules, a hinterland is taken as a base, and a scaffold 10 (as shown in FIG. 1) is constructed on the base. The scaffold 10 includes a plurality of vertical columns 11, and is mounted on each column. A truss 12 is set between 11. In order to consider factors such as light-receiving area, drainage characteristics, etc., the truss 12 is usually set in an inclined shape with a low front and a high rear. The photovoltaic panel 14 is laid on the support 13 and the solar photovoltaic panel 14 absorbs solar thermal energy and converts it into electrical energy to achieve the purpose.

However, it is found that the conventional scaffold 10 is mainly used for assembling and fixing several solar photovoltaic panels 14, and there is a space between each solar photovoltaic panel 14 for installation. For installation and fixing purposes, if the distance is rainy, it will cause water seepage under the scaffolding 10. Therefore, the industry has set a trough in the shape of the bracket 13 and the trough of the bracket 13 can be used to support two The water overflowing from the longitudinal (front-to-rear) spacing of the solar photovoltaic panels 14 allows the water to be discharged to the front end (lower end) of the solar shelf 10 through the ㄩ-shaped bracket 13 as a drainage groove.

However, although the aforementioned conventional scaffolding 10 has a drainage design, it is limited to the water that overflows from the longitudinal (front-to-rear) spacing of the solar photovoltaic panels 14 to collect and divert it. If the solar photovoltaic panels 14 are horizontal (left-to-right) The water overflowing from the gap will still drip directly under the scaffold 10, so that the scaffold 10 cannot achieve the function of sheltering the rain, which is a major defect.

In order to solve the aforementioned problem that the scaffold 10 cannot cover the rain, some designers set up a number of drainage grooves under the scaffold 10, and use the drainage grooves to receive the water dripping from the solar photovoltaic panel 14, and then collect it to the downpipe for discharge; however, these The drainage channel is fixed by bolts, and the method of locking is unavoidable to lock the bolts from the top of the solar photovoltaic panel 14 downwards. Therefore, the construction personnel must stand on the solar photovoltaic panel 14 to fix the equipment. The construction mode will inevitably increase the danger of industrial safety problems, the difficulty of tool transfer, and the risk of damage to the solar photovoltaic panel 14 by being trampled on, so there is a need for improvement.

The purpose of the creation of this case is to improve the existing problems of the conventional scaffolds carrying solar photovoltaic panels as a drainage system, and to provide a drainage structure of the scaffolds. In addition to achieving the purpose of effectively receiving and dispersing rainwater, it is also due to The locking point of the drainage channel is improved to make the construction safer and more convenient.

In order to achieve this purpose, this case is mainly a kind of solar photovoltaic module The improved structure of the drainage groove locking point mainly includes a W-shaped bracket, two corresponding L-shaped connecting pieces, a horizontal drainage strip and a number of solar photovoltaic panels. The W-shaped bracket includes a main frame, the two sides of the main frame integrally extend below the ㄩ-shaped water collection tank, the two sides and the bottom of the main frame are formed with locking grooves, the locking groove can provide the locking element to be embedded and locked; the L The L-shaped connecting piece is an L-shaped metal strip, which allows the locking element of the W-shaped bracket to pass through the vertical surface of the L-shaped connecting piece and lock it in the locking groove, so that the two L-shaped connecting pieces are fixed to the corresponding way The two sides of the main frame of the W-shaped bracket. At the same time, the horizontal surface of the L-shaped connecting piece provides the supporting function of the solar photovoltaic panel; thereby, the horizontal surface of the L-shaped connecting piece is penetrated by the bolt from bottom to top , And then lock the solar photovoltaic panel, so that the fixed point of the whole equipment can be completed under the scaffold, to avoid accidents in work safety during construction.

"Learning part"

10: Scaffolding

11: Column

12: Frame

13: Bracket

14: Solar photovoltaic panels

"Part of the case"

20: W-shaped bracket

21: main frame

22: Sump

23: Locking slot

24: locking element

30: L-shaped connecting piece

31: Bolt

40: Horizontal drainage strip

50: Solar photovoltaic panels

Figure 1 shows a three-dimensional structure diagram of a conventional scaffold;

Figure 2 shows the three-dimensional structure of this creation;

Figure 3 shows a plan view of this creative combination;

Figure 4 shows a schematic diagram of the drainage of this creation.

The technical content, features and effects of the present invention will be clearly presented in the following detailed description of the preferred embodiments with reference to the drawings. Before this case is described in detail, it needs special explanation. The attached drawings illustrate the basic structure of the case in a schematic way. Therefore, only the structures or elements related to the case are shown in these drawings, and the displayed structure, shape, Size, ratio, or It is the number of components, etc. The actual size or layout of components may be more complicated in actual implementation.

Please refer to FIG. 2 depicts a three-dimensional structure diagram of a specific embodiment of the present creation; and FIG. 3 depicts a combined plan view of a specific embodiment of the present creation. The specific embodiment of the creation of this case includes a W-shaped bracket 20, two corresponding L-shaped connecting pieces 30, a horizontal drainage type bar 40 and a number of solar photovoltaic panels 50; among them:

The W-shaped bracket 20 is a kind of aluminum extruded bracket, which includes a main frame 21, the ㄩ-shaped water collecting trough 22 is integrally extended below the two sides of the main frame 21, and the two sides and the bottom of the main frame 21 are formed with locking grooves. 23. The locking groove 23 can provide the locking element 24 for embedding and locking.

The L-shaped connecting piece 30 is an L-shaped metal strip, which allows the locking element 24 of the W-shaped bracket 20 to pass through the vertical surface of the L-shaped connecting piece 30 and be locked in the locking groove 23, so that two L-shaped connecting pieces 30 It is fixed to the two sides of the main frame 21 of the W-shaped bracket 20 in a corresponding manner; at the same time, the horizontal surface of the L-shaped connecting piece 30 provides the support for the solar photovoltaic panel 50, and can be moved from the bottom by the bolt 31 The upper part penetrates the horizontal surface of the L-shaped connecting piece 30 to lock the solar photovoltaic panel 50.

The horizontal drainage strip 40 is a ㄩ-shaped metal strip, which can be horizontally arranged under the gap between the two solar photovoltaic panels 50, and can then receive the water flowing down from the gap between the two solar photovoltaic panels 50; When the profile bar 40 is horizontally arranged under the gap between the two solar photovoltaic panels 50, its two side ends extend into the water collection tank 22 connected to the W-shaped bracket 20.

The solar photovoltaic panel 50 is a solar panel used in solar photovoltaic modules to absorb solar thermal energy and convert it into electrical energy. The solar photovoltaic panel 50 can be laid on the horizontal surface of the L-shaped connecting piece 30 and is bolted from bottom to top. 31 is fixed.

According to the above structure, the W-shaped bracket 20 is provided with locking grooves 23 on both sides and below the main frame 21. The lower locking groove 23 can be used with the locking element 24 to lock it to the bracket (C-shaped steel) of the scaffold. , The W-shaped bracket 20 is fixed to the scaffold, and then two L-shaped connecting pieces 30 are used to lock the two L-shaped connecting pieces 30 to the locking grooves 23 on the two sides of the main frame 21 of the W-shaped bracket 20 in a corresponding manner, so that the two L-shaped connecting pieces 30 The horizontal surface is provided for the support of the solar photovoltaic panel 50, and the horizontal surface of the L-shaped connecting piece 30 can be penetrated by the bolt 31 from bottom to top, and the solar photovoltaic panels 50 can be locked. The horizontal drainage strip 40 is horizontally arranged under the gap between the two solar photovoltaic panels 50, and its side ends are located at the upper end of the water collection trough 22 of the W-shaped bracket 20. When the horizontal drainage strip 40 is received by the two solar photovoltaic panels 50 When the water flows down the gap, the water is directed into the water collection tank 22; please refer to FIG. 4, whereby the water in the vertical gap of the solar photovoltaic panel 50 can be directly transferred from the W-shaped bracket 20 The water collection trough 22 collects and discharges, and the water in the horizontal gap can be received by the horizontal drainage profile 40, and the water is guided to the water collection trough 22 for discharge, which solves the drainage problem of the solar photovoltaic module. In particular, the W-shaped bracket 20 is fixed mainly by forming locking grooves 23 on both sides and below the main frame 21 of the W-shaped bracket 20. The three locking grooves 23 can be used to provide the type bracket 20 to be fixed to the C-shaped steel. And the fixing of the two L-shaped connecting pieces 30. The horizontal surface of the two L-shaped connecting pieces 30 provides the support and fixing of the solar photovoltaic panel 50, so that the fixing point of the whole equipment can be completed under the scaffolding, except for the construction process In addition to increasing convenience and efficiency, at the same time, since the constructors do not need to climb to the top of the solar photovoltaic panel 50, accidents in work safety during construction are avoided.

Therefore, in this case, the water collection trough 22 of the vertical W-shaped bracket 20 is used as the main drainage channel, and the horizontal drainage profile 40 is used to collect and discharge the horizontal overflow, so as to achieve the purpose of effective drainage. The W-shaped bracket 20 And solar photovoltaic panels The 50's locking and fixing are all done under the scaffolding, which avoids the construction personnel from climbing the heights, which greatly increases the safety of construction, and is also more convenient for installation and construction, creating excellent industrial value.

From the above description and the preferred embodiments shown in the accompanying drawings, it can be seen that the structure of this case provides many advantages that are beyond the reach of the acquaintances. The case does have significant industrial applicability, and the technical means used and its structural features, It was indeed researched and developed by the creator of this case, and since this case has met the requirements of the patent, I filed an application in accordance with the law. In addition, the description of the element structure in the text in this creation can be easily modified by those skilled in the art, or equivalent alternative structures should also fall within the scope of the attached patent application.

20: W-shaped bracket

21: main frame

22: Sump

23: Locking slot

30: L-shaped connecting piece

40: Horizontal drainage strip

50: Solar photovoltaic panels

Claims (1)

An improved structure for the locking point of the drainage channel of the solar photovoltaic module, which mainly includes a W-shaped bracket, two corresponding L-shaped connecting pieces, a horizontal drainage strip and a number of solar photovoltaic panels; the W-shaped bracket is an aluminum extruded bracket , Including a main frame, the lower two sides of the main frame integrally extend the ㄩ-shaped water collection tank, the two sides and the lower side of the main frame form a locking groove, the locking groove can provide the locking element to be embedded and locked; the L-shaped connecting piece It is an L-shaped metal strip, which allows the locking element of the W-shaped bracket to pass through the vertical surface of the L-shaped connecting piece and lock it in the locking groove, so that the two L-shaped connecting pieces are fixed to the W-shaped bracket in a corresponding manner The two sides of the main frame. At the same time, the horizontal surface of the L-shaped connecting piece provides the support for the solar photovoltaic panel, and the bolt can be used to penetrate the horizontal surface of the L-shaped connecting piece from bottom to top to lock it. Solar photovoltaic panels; the horizontal drainage strip is a ㄩ-shaped metal strip, which can be horizontally arranged under the gap between the two solar photovoltaic panels, and then can accept the water flowing down from the gap between the two solar photovoltaic panels.

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