CN202925776U

CN202925776U - Tile type photovoltaic module installation structure

Info

Publication number: CN202925776U
Application number: CN2012205062439U
Authority: CN
Inventors: 吴克耀
Original assignee: GUANGDONG POWERWAY RENEWABLE ENERGY CO Ltd
Current assignee: GUANGDONG POWERWAY RENEWABLE ENERGY CO Ltd
Priority date: 2012-09-28
Filing date: 2012-09-28
Publication date: 2013-05-08
Anticipated expiration: 2022-09-28
Also published as: WO2014048023A1

Abstract

The utility model relates to a tile type photovoltaic module installation structure which comprises a buckle part and a frame. The buckle part comprises an L-shaped fixing portion and an L-shaped clamp portion. A longitudinal plate of the fixing portion is fixedly connected with a transverse plate of the clamp portion. The longitudinal plate of the clamp portion is provided with a limiting plate. The frame comprises a right frame body and a left frame body, where the right frame body and the left frame body are respectively composed of rectangular solid metal sections. A first installation groove, a first locking groove and at least two first water drain grooves which are parallel to each other are formed in the right frame body. A second installation groove, a second locking groove and at least two second water drain groove which are parallel to each other are formed in the left frame body. The top of the side walls of the first water drain grooves contact the inner bottom walls of the second water drain grooves. A gap is formed between the inner bottom wall of each first water drain groove and the top of the side wall of each second water drain groove. When a photovoltaic module is installed, only the frame needs to be directly clamped into the clamp portion, installation can be conveniently and rapidly finished, and installation efficiency is greatly improved. The tile type photovoltaic module installation structure can further effectively prevent rainwater from leaking into a room from the frame.

Description

The tile type photovoltaic component mounting structure

Technical field

The utility model relates to the mounting structure of photovoltaic module.

Background technology

At present, Crystalline Silicon PV Module is occupied large stretch of market share as the main force of photovoltaic generation in novel energy, is widely used in the roof electricity generation system of family.

The surrounding of photovoltaic module is provided with the frame of being made by section bar.When roofing is laid photovoltaic module, need to be according to the angle of inclination of roofing, a plurality of photovoltaic modulies are installed in the stacking mode of tile, but in the process of installing, the frame of two photovoltaic modulies is installed together, use inconvenience very, reduced installation effectiveness.And, the preventing water leakage ability of present frame a little less than, the force of rain is than ambassador, rainwater easily see through frame leak enter house in.

The utility model content

The purpose of this utility model is to propose a kind of tile type photovoltaic component mounting structure, its can solve prior art be not easy to install, installation effectiveness is low and seepy question.

In order to achieve the above object, the technical scheme that adopts of the utility model is as follows:

The tile type photovoltaic component mounting structure, it comprises fastener and frame;

Described fastener comprises the fixed part of L font and the clamping part of L font, and vertical plate of fixed part is fixedly connected with the transverse plate of clamping part, and the transverse plate of fixed part is by cushion block and roofing fixed installation; The free end of vertical plate of clamping part is provided with limiting plate, and the transverse plate of described limiting plate and clamping part is positioned at the same side;

Described frame comprises the right framework that is made of the cuboid shape respectively, left framework, upper frame body, one side opening of described right framework is provided with the first mounting groove, the bottom surface of right framework offers the first lock slots, the first lock slots be positioned at the first mounting groove under, the first mounting groove is communicated with the first lock slots by the first installing hole, and the end face of right framework offers at least two first row tanks that are parallel to each other; One side opening of described left framework is provided with the second mounting groove, the bottom surface of left framework offers the second lock slots, the second lock slots be positioned at the second mounting groove under, the second mounting groove is communicated with the second lock slots by the second installing hole, and the bottom surface of left framework also offers at least two second row tanks that are parallel to each other; One side opening of described upper frame body is provided with the 3rd mounting groove for the top edge of installation photovoltaic component, the bottom surface of upper frame body offers the 3rd lock slots, the 3rd lock slots be positioned at the 3rd mounting groove under, the 3rd mounting groove is communicated with the 3rd lock slots by the 3rd installing hole, the end face of upper frame body offers the adhesive tape mounting groove, the dash adhesive tape is installed in the adhesive tape mounting groove, and described dash adhesive tape extends to the upper frame body upper outer;

The right hand edge of each photovoltaic module is arranged in the first mounting groove, and left hand edge is arranged in the second mounting groove, and top edge is arranged in the 3rd mounting groove; The interior diapire contact of the second row tank of the photovoltaic module that the top side wall of the first row tank of a certain photovoltaic module is adjacent, and has the gap between the interior diapire of first row tank and the top side wall of second row tank, and the end that the right framework of the photovoltaic module that the left framework of a certain photovoltaic module is adjacent connects and composes is positioned at transverse plate and the limiting plate formed space of clamping part, and the end that the right framework of the photovoltaic module that the left framework of another photovoltaic module is adjacent connects and composes is positioned at transverse plate and the cushion block formed space of fixed part.

As preferred structure, described limiting plate be shaped as the V font.

As preferred structure, fixed part is connected with the clamping part one-shot forming.

As preferred structure, the end face of left framework offers many guiding gutters that are parallel to each other.

As preferred structure, the quantity of first row tank, second row tank is two.The circular arc of rhone inboard can play the correcting effect of installing.

The utlity model has following beneficial effect:

When installation photovoltaic component, only need the frame of photovoltaic module is directly sticked in clamping part, can complete installation, convenience very and quick has improved installation effectiveness greatly; And, the utlity model has the function of dual dash, can effectively make rainwater promptly be discharged to the external world along roofing, effectively prevent rainwater from frame leak enter house in.

Description of drawings

Fig. 1 is the installment state stereogram of the tile type photovoltaic component mounting structure of the utility model preferred embodiment;

Fig. 2 is the structural representation that the left frame of the tile type photovoltaic component mounting structure of the utility model preferred embodiment is connected with left frame;

Fig. 3 is the B direction schematic diagram (omission fastener) of Fig. 1;

Fig. 4 is the structural representation of fastener of the tile type photovoltaic component mounting structure of the utility model preferred embodiment;

Fig. 5 is the C direction schematic diagram of Fig. 4;

Fig. 6 is the A direction schematic diagram (omission photovoltaic module) of Fig. 1;

Fig. 7 is the structural representation of upper side frame of the tile type photovoltaic component mounting structure of the utility model preferred embodiment;

Fig. 8 is the mounting structure schematic diagram of the horizontal right side edge of tile type photovoltaic component mounting structure

Fig. 9 is the top edge mounting structure schematic diagram of tile type photovoltaic component mounting structure

Figure 10 is the lower limb mounting structure schematic diagram of tile type photovoltaic component mounting structure.

Reference numeral: 1, right framework; 101, the first mounting groove; 102, the first lock slots; 103, first row tank; 1031, top side wall; 2, left framework; 201, the second mounting groove; 202, the second lock slots; 203, second row tank; 2031, top side wall; 204, guiding gutter; 100, photovoltaic module; 200, photovoltaic module; 300, fixture; 400, fixture; 3, fastener; 301, fixed part; 3011, transverse plate; 30111, through hole; 3012, vertical plate; 302, clamping part; 3021, transverse plate; 3022, vertical plate; 3023, limiting plate; 4, screw; 500, cushion block; 600, roofing; 5, upper frame body; 501, the 3rd mounting groove; 502, the 3rd lock slots; 503, adhesive tape mounting groove; 504, dash adhesive tape; 700, photovoltaic module; 800, photovoltaic module; 6, the sheet metal that keeps off the rain; 7, roofing tile; 8, roofing tile; 9, the sheet metal that keeps off the rain; 10, right side wiper bar; 11, right side weather shield; 12, roofing tile; 13, clip; 14, purlin; 15, roof padding; 16, interior roofing; 17, crossbeam.

The specific embodiment

Below, by reference to the accompanying drawings and the specific embodiment, the utility model is described further:

As extremely shown in Figure 7 in Fig. 1, the tile type photovoltaic component mounting structure, it comprises fastener 3 and frame.

As shown in Figure 4 and Figure 5, described fastener 3 comprises the fixed part 301 of L font and the clamping part 302 of L font, vertical plate 3012 of fixed part 301 is fixedly connected with the transverse plate 3021 of clamping part 302, and the transverse plate 3011 of fixed part 301 is by cushion block and roofing fixed installation; The free end of vertical plate 3022 of clamping part 302 is provided with limiting plate 3023, and described limiting plate 3023 is positioned at the same side with the transverse plate 3021 of clamping part 302.Be provided with the through hole 30111 that allows screw to pass on the transverse plate 3011 of fixed part 301.

As Fig. 2, Fig. 3 and shown in Figure 7, described frame comprises right framework 1, left framework 2, the upper frame body 5 that is made of the cuboid shape respectively, one side opening of described right framework 1 is provided with the first mounting groove 101, the bottom surface of right framework 1 offers the first lock slots 102, the first lock slots 102 be positioned at the first mounting groove 101 under, the first mounting groove 101 is communicated with the first lock slots 102 by the first installing hole (figure does not mark), and the end face of right framework 1 offers two first row tanks 103 that are parallel to each other; One side opening of described left framework 2 is provided with the second mounting groove 201, the bottom surface of left framework 2 offers the second lock slots 202, the second lock slots 202 be positioned at the second mounting groove 201 under, the second mounting groove 201 is communicated with the second lock slots 202 by the second installing hole (figure does not mark), and the bottom surface of left framework 2 also offers two second row tanks 203 that are parallel to each other.One side opening of described upper frame body 5 is provided with the 3rd mounting groove 501, the bottom surface of upper frame body 5 offers the 3rd lock slots 502, the 3rd lock slots 502 be positioned at the 3rd mounting groove 501 under, the 3rd mounting groove 501 is communicated with the 3rd lock slots 502 by the 3rd installing hole (figure does not mark), the end face of upper frame body 5 offers adhesive tape mounting groove 503, dash adhesive tape 504 is installed in adhesive tape mounting groove 503, and described dash adhesive tape 504 extends to upper frame body 5 upper outer.

As Fig. 1, Fig. 3 and shown in Figure 6, the right hand edge of one photovoltaic module 100 is arranged in the first mounting groove 101, the left hand edge of photovoltaic module 200 is arranged in the second mounting groove 201, the top edge of photovoltaic module 100, photovoltaic module 200, photovoltaic module 700, photovoltaic module 800 all is equipped with upper frame body 5, photovoltaic module 100 is laterally adjacent with photovoltaic module 200, and photovoltaic module 700 is laterally adjacent with photovoltaic module 800.The top side wall of the first row tank of photovoltaic module 100 contacts with the interior diapire of the second row tank of photovoltaic module 200, and has the gap between the top side wall of the interior diapire of first row tank and second row tank.

The end that the left framework of photovoltaic module 100 and the right framework of photovoltaic module 200 connect and compose is positioned at the transverse plate 3021 and the formed space of limiting plate 3023 of clamping part 302, and the end that the left framework of photovoltaic module 700 and the right framework of photovoltaic module 800 connect and compose is positioned at the transverse plate 3011 and the formed space of cushion block 500 of fixed part 301.

The limiting plate 3023 of the present embodiment be shaped as the V font; Fixed part 301 is connected with clamping part 302 one-shot formings; The end face of left framework 2 offers many guiding gutters that are parallel to each other 204.

The installation process of the present embodiment is as follows:

The transverse plate 3011 of fixed part 301 is by cushion block 500 and roofing 600 fixed installations, and concrete, the transverse plate 3011 of fixed part 301 is by screw 4(or bolt) be connected with cushion block 500.

The side of photovoltaic module 100 is installed in the first mounting groove 101, then fixture 300 is placed in the first lock slots 102, then with screw, fixture 300 and the first photovoltaic module 100 is locked, and photovoltaic module 100 is fixed in the first mounting groove 101.Same, photovoltaic module 200 is also adopted in the same way and is fixed in the second mounting groove 201 by fixture 400.During installation, opening up with the first row tank 103 of right framework 1, opening down with the second row tank 203 of left framework 2, and the interior diapire of second row tank 203 is pressed on the top side wall of first row tank 103, thereby form dual water-retaining structure, effectively prevent rainwater leak enter house in.

Then, the end that the left framework of the photovoltaic module 100 that last layer is inferior and the right framework of photovoltaic module 200 connect and compose is positioned at the transverse plate 3021 and the formed space of limiting plate 3023 of clamping part 302, and vertically plate 3022 is used for stopping that the framework of inclination glides; The framework that the left framework of the photovoltaic module 700 of next level and the right framework of photovoltaic module 800 connect and compose is positioned at the transverse plate 3011 and the formed space of cushion block 500 of fixed part 301, thereby forms the structure of tile type.

In addition, the quantity of the first row tank of the present embodiment, second row tank can also be more than two.

As shown in Figure 8, be the mounting structure schematic diagram of the horizontal right side edge of tile type photovoltaic component mounting structure.Right framework 1 connects a right side wiper bar 10, the right side wiper bar is connected with right side weather shield 11, right side weather shield 11 extends to roofing tile 12 bottom inside, below roofing tile 12 bottom inside, clip 13 is installed, clip 13 is fixedly mounted on roofing 600, roofing 600 belows are existing roof structure, and namely the roofing below is followed successively by purlin 14, roof padding 15, interior roofing 16, crossbeam 17.

As shown in Figure 9, be the top edge mounting structure schematic diagram of tile type photovoltaic component mounting structure.Between the limiting plate 3023 of the clamping part 302 of buckle and transverse plate 3021, the sheet metal 6 that keeps off the rain is installed, the sheet metal 6 that keeps off the rain extends to roofing tile 7 bottom inside always.

As shown in figure 10, be the lower limb mounting structure schematic diagram of tile type photovoltaic component mounting structure.The side of sheet metal 9 of keeping off the rain is fixed on the bottom of the fixed part 301 of fastener 3, and opposite side extends to roofing tile 8 over top.

For a person skilled in the art, can make other various corresponding changes and distortion according to technical scheme described above and design, and these all changes and the distortion all should belong to the protection domain of the utility model claim within.

Claims

1. the tile type photovoltaic component mounting structure, is characterized in that, comprises fastener and frame;

2. tile type photovoltaic component mounting structure as claimed in claim 1, is characterized in that, described limiting plate be shaped as the V font.

3. tile type photovoltaic component mounting structure as claimed in claim 1, is characterized in that, fixed part is connected with the clamping part one-shot forming.

4. tile type photovoltaic component mounting structure as claimed in claim 1, is characterized in that, the end face of left framework offers many guiding gutters that are parallel to each other.

5. tile type photovoltaic component mounting structure as claimed in claim 1, is characterized in that, the quantity of first row tank, second row tank is two.