CN205160441U - Solar energy component's connection mounting structure - Google Patents

Abstract

The utility model provides a solar energy component's connection mounting structure, it can overcome the problem that current mounting structure is not suitable for curved surface or dome structure to it is convenient that its installation is adjusted. It is including waiting to connect the adjacent two sets of solar energy component that install, its characterized in that: it still includes the subassembly clamp plate and attaches the frame, and the top surface both sides of subassembly clamp plate are provided with the spherical groove of symmetry, attach the frame bottom and be provided with spherical stabilizer blade, the cooperation of spherical stabilizer blade install in in the spherical groove and can make a round trip to rotate in spherical groove, the clamp plate connection be firm on the installation component of bottom, solar energy component install in on attaching the frame, install respectively and attach the frame in two of adjacent two sets of solar energy component's bottom and set up in opposite directions to two are attached between the frame and to fill the location through the filler, the space that forms between filler upper portion, the adjacent two sets of solar energy component by sealed glue to fill connect.

Description

A kind of connecting installation structure of solar components

Technical field

The present invention relates to technical field of photovoltaic power generation, be specially a kind of connecting installation structure of solar components.

Background technology

Along with energy-saving and emission-reduction, low-carbon (LC) life idea is popular acceptance gradually, universal, the case of BIPV BIPV gets more and more, mostly it is the object by reaching photoelectric conversion at roof erection solar components, mostly current solar components is to be installed on same planar bracket or strutting piece by briquetting, see Fig. 1, solar components is pressed in bottom bracket or supporting bracket in the side of solar components by briquetting 80, it is simple that it has structure, advantage easy for installation, but it is generally used for the pitched roof of plane, flat roof, and for curved surface or dome structure, because the relative angle of every block assembly all has difference, existing mounting structure can not carry out the adjustment of assembly angle well, and it installs adjustment inconvenience, and junction exists uneven whole between adjacent assembly, affect overall appearance.

Summary of the invention

For the problems referred to above, the utility model provides a kind of connecting installation structure of solar components, and it can overcome the problem that existing mounting structure is not suitable for curved surface or dome structure, and its installation adjustment is convenient.

A kind of connecting installation structure of solar components, it comprises the two adjacent groups solar components of installation to be connected, it is characterized in that: it also comprises assembly pressing plate and auxiliary frame, the end face both sides of described assembly pressing plate are provided with symmetrical spherical groove, spherical feet is provided with bottom described auxiliary frame, described spherical feet cooperation is installed in described spherical groove and also can carrys out back rotation in described spherical groove, described pressing plate connects firm on the installation component of bottom, described solar components is installed in described auxiliary frame, the two pieces of auxiliary frames being installed on the bottom of described two adjacent groups solar components are respectively arranged in opposite directions, and fill location by filler between described two pieces of auxiliary frames, described filler top, the space formed between described two groups of adjacent solar components is filled by fluid sealant and is connected.

Further, described assembly pressing plate comprises the female end clamp plate of mutual split and male end clamp plate, described female end clamp plate, male end clamp plate all have described spherical groove, the inner side of the spherical groove of described female end clamp plate is provided with the male end clamp plate carrying platform of indent, the bottom of described male end clamp plate is provided with the female end clamp plate holding tank of indent, described male end clamp plate carrying platform cooperation is installed in described female end clamp plate holding tank, is connected and be anchored on the installation component of described bottom between described female end clamp plate, male end clamp plate by screw.

Further, also cushion layer structure is filled with between described solar components and auxiliary frame.

Further, described auxiliary frame side is provided with blend stop, and a side of described cushion layer structure is spacing by described blend stop, and another side of described cushion layer structure flushes with the connecting end surface of described solar components.

Further, described cushion layer structure comprises double-sided tape and the structure adhesive tape of bonding mutually, and a side of the double-sided tape of described cushion layer structure is flushed with the connecting end surface of described solar components by a side of spacing, the described structure adhesive tape of described blend stop.

Further, described filler is foam-filled bar.

Further, described structure glue is structural silicone adhesive.

Further, described fluid sealant is silicone weatherproof sealant.

Compared with the connecting installation structure of existing solar components, the beneficial effects of the utility model are: it realizes the angular adjustment of auxiliary frame relative to assembly pressing plate by the spherical feet in the auxiliary frame bottom the link that is installed on solar components with coordinating of the spherical groove on assembly pressing plate, thus finally reaches solar components can carry out angular adjustment when mounted object according to building roof structure requirement; The filler arranged between the auxiliary frame of two adjacent groups solar components can position two pieces of auxiliary frames of adjusted good angle; Assembly pressing plate is arranged to the female end clamp plate of mutual split and the structure of male end clamp plate, male end clamp plate carrying platform and female end clamp plate holding tank coordinate position-limiting action under, female end clamp plate and male end clamp plate can be relative move horizontally, thus the adjustment of the level interval between two groups of solar components can be realized, meet curved surface or dome structure further to the installation requirement of solar components; And the cushion layer structure arranged between solar components and auxiliary frame can play effective cushioning effect to solar components, prevent the impact to solar components by harsh weather affects, thus ensure the useful life of solar components.

Accompanying drawing explanation

Fig. 1 is existing solar components mounting structure schematic diagram;

Fig. 2 is the connecting installation structure schematic diagram of solar components of the present utility model;

Fig. 3 is the enlarged diagram of auxiliary frame 30-2 in the connecting installation structure of solar components of the present utility model;

Fig. 4 is the decomposing schematic representation of assembly pressing plate in the connecting installation structure of solar components of the present utility model.

Embodiment

See Fig. 2, Fig. 3 and Fig. 4, a kind of connecting installation structure of solar components, it comprises the two adjacent groups solar components 10-1 of installation to be connected, 10-2, assembly pressing plate 20 and auxiliary frame 30-1, 30-2, assembly pressing plate 20 comprises the female end clamp plate 20-1 of mutual split and male end clamp plate 20-2, the end face side of female end clamp plate 20-1 is provided with spherical groove 21-1, the end face side of male end clamp plate 20-2 is provided with spherical groove 21-2, auxiliary frame 30-1, the bottom correspondence of 30-2 is provided with spherical feet 31-1, 31-2, spherical feet 31-1 cooperation is installed on spherical groove 21-1, spherical feet 31-2 cooperation is installed on spherical groove 21-2, spherical feet 31-1, 31-2 can respectively at spherical groove 21-1, back rotation is carried out in 21-2, the inner side of the spherical groove 21-1 of female end clamp plate 20-1 is provided with the male end clamp plate carrying platform 22 of indent, the bottom of male end clamp plate 20-2 is provided with the female end clamp plate holding tank 23 of indent, male end clamp plate carrying platform 22 cooperation is installed in female end clamp plate holding tank 23, female end clamp plate 20-1, connected by self-tapping screw 50 between male end clamp plate 20-2 and be anchored on the installation component of bottom, solar components 10-1, 10-2 is installed on auxiliary frame 30-1 respectively by respective cushion layer structure 40 correspondence, on 30-2, auxiliary frame 30-1 side is provided with blend stop 32-1, auxiliary frame 30-2 side is provided with blend stop 32-2, auxiliary frame 30-1, 30-2 installs in opposite directions, cushion layer structure 40 comprises double-sided tape 41 and the silicone structure adhesive tape 42 of bonding mutually, one side of the double-sided tape 41 of cushion layer structure 40 is spacing by blend stop, one side of structure adhesive tape 42 flushes with the connecting end surface of solar components, two pieces of auxiliary frame 30-1, between 30-2, and fill location by foam insert bar 60 between cushion layer structure on two pieces of auxiliary frames, foam insert 60 top, two groups of adjacent solar components 10-1, connection is filled by silicone weatherproof sealant 70 in the space formed between 10-2.

Specifically describe installation adjustment process of the present utility model below: first female end clamp plate 20-1 and male end clamp plate 20-2 split are stacked, make the hero end carrying platform 22 of female end clamp plate 20-1 and female end clamp plate holding tank 23 split of male end clamp plate 20-2, regulate the horizontal level between female end clamp plate 20-1 and male end clamp plate 20-2 according to the actual installation pitch requirements of two groups of solar components 10-1,10-2, then with self-tapping screw 50 female end clamp plate 20-1 be connected with male end clamp plate 20-2 and be firmly installed on the installation component of bottom, again the spherical feet 31-1 of auxiliary frame 30-1 is installed in the spherical groove 21-1 of female end clamp plate 20-1, the spherical feet 31-2 of auxiliary frame 30-2 is installed in the spherical groove 21-2 of male end clamp plate 20-2, two double-sided tapes 41 are positioned over auxiliary frame 30-1 respectively, 30-2 is upper and make the side of two double-sided tapes 41 respectively near the blend stop 32-1 of auxiliary frame 30-1, the blend stop 32-2 of auxiliary frame 30-2, then by two groups of solar components 10-1, 10-2 is positioned over respectively on two double-sided tapes 41 and also bonds with it, and then bottom solar components 10-1 and between auxiliary frame 30-1, be packed into silicone structure adhesive tape 42 respectively bottom solar components 10-2 and between auxiliary frame 30-2, make solar components, silicone structure adhesive tape 42, double-sided tape 41 and auxiliary frame are closely integrated into an entirety, then regulate two auxiliary frame 30-1 respectively according to the requirement of actual installation angle, the spherical feet 31-1 of 30-2, 31-2 is at spherical groove 21-1, angle in 21-2, be packed between auxiliary frame 30-1 and 30-2 by foam-filled bar 60 after adjustment puts in place and position, recycle silicon ketone weather proofing sealant 70 is by foam-filled bar 60 top, solar components 10-1, the region formed between 10-2 is connected and sealed.

Claims (8)

1. the connecting installation structure of a solar components, it comprises the two adjacent groups solar components of installation to be connected, it is characterized in that: it also comprises assembly pressing plate and auxiliary frame, the end face both sides of described assembly pressing plate are provided with symmetrical spherical groove, spherical feet is provided with bottom described auxiliary frame, described spherical feet cooperation is installed in described spherical groove and also can carrys out back rotation in described spherical groove, described pressing plate connects firm on the installation component of bottom, described solar components is installed in described auxiliary frame, the two pieces of auxiliary frames being installed on the bottom of described two adjacent groups solar components are respectively arranged in opposite directions, and fill location by filler between described two pieces of auxiliary frames, described filler top, the space formed between described two groups of adjacent solar components is filled by fluid sealant and is connected.

2. the connecting installation structure of a kind of solar components according to claim 1, it is characterized in that: described assembly pressing plate comprises the female end clamp plate of mutual split and male end clamp plate, described female end clamp plate, male end clamp plate all has described spherical groove, the inner side of the spherical groove of described female end clamp plate is provided with the male end clamp plate carrying platform of indent, the bottom of described male end clamp plate is provided with the female end clamp plate holding tank of indent, described male end clamp plate carrying platform cooperation is installed in described female end clamp plate holding tank, described female end clamp plate, connected by screw between male end clamp plate and be anchored on the installation component of described bottom.

3. the connecting installation structure of a kind of solar components according to claim 1 and 2, is characterized in that: be also filled with cushion layer structure between described solar components and auxiliary frame.

4. the connecting installation structure of a kind of solar components according to claim 3, it is characterized in that: described auxiliary frame side is provided with blend stop, one side of described cushion layer structure is spacing by described blend stop, and another side of described cushion layer structure flushes with the connecting end surface of described solar components.

5. the connecting installation structure of a kind of solar components according to claim 4, it is characterized in that: described cushion layer structure comprises double-sided tape and the structure adhesive tape of bonding mutually, and a side of the double-sided tape of described cushion layer structure is flushed with the connecting end surface of described solar components by a side of spacing, the described structure adhesive tape of described blend stop.

6. the connecting installation structure of a kind of solar components according to claim 1, is characterized in that: described filler is foam-filled bar.

7. the connecting installation structure of a kind of solar components according to claim 1, is characterized in that: described structure glue is structural silicone adhesive.

8. the connecting installation structure of a kind of solar components according to claim 1, is characterized in that: described fluid sealant is silicone weatherproof sealant.